POWER LEADER TM PMCS 6.11a Interface Toolkit Installation Guide GEH-6513 GE Power Management Control System 6.
Notice The information contained in this document is subject to change without notice. GE makes no warranty of any kind with regard to this material, including, but not limited to, the implied warranties of merchantability and fitness for a particular purpose. GE shall not be liable for errors contained herein or incidental consequential damages in connection with the furnishing, performance, or use of this material. This document contains proprietary information which is protected by copyright.
Back to Main Menu Contents INTRODUCTION.............................................................................................................................................................. 1 WELCOME......................................................................................................................................................................... 1 HOW SHOULD I USE THIS MANUAL? .......................................................................................................
Troubleshooting Tips for the Annunciator Panel Wizard .......................................................................................... 34 CUSTOM TABLE WIZARD ................................................................................................................................................ 35 Usage ......................................................................................................................................................................... 35 Configuration ...
P Range Tab............................................................................................................................................................. 115 Analysis Tab............................................................................................................................................................. 116 IO Tab ..............................................................................................................................................................
Setpoints Tab............................................................................................................................................................ 174 269 PLUS MOTOR MANAGEMENT RELAY ..................................................................................................................... 175 369 MOTOR MANAGEMENT RELAY .............................................................................................................................. 176 Metering Tab..............
Setup Tab ................................................................................................................................................................. 220 GEN PLC ..................................................................................................................................................................... 223 Master Tab ...................................................................................................................................................
Introduction Welcome The PMCS Interface Toolkit is a POWER LEADER Power Management Control System (PMCS) version 6.11a tool that provides a custom toolkit to efficiently create flexible, accurate, and friendly user interfaces to your power management data.
of power management devices, complete with working controls that are linked to the corresponding devices in your facility. • Chapter 6 describes the Tabular Data wizards. These wizards list the data and setpoints of power management devices in a tabular format. Simply point and click to select the appropriate tab of information to display and view the related data.
Conventions You will find this book easy to use if you look for these simple conventions: • Boldface type indicates the name of an item you need to select. • Monospace type indicates an example or text that is displayed on the screen. • UPPERCASE type indicates a file name, command name, or acronym.
From the InTouch Configuration menu, select Install Wizards. The Wizard Installation dialog displays two list boxes, showing the currently installed wizards and the wizards available for installation. Select the desired wizards from the bottom box and click Install. When the installation is complete, click Done. Exit from the InTouch Configuration dialog box by clicking OK. The PMCS wizards should now be loaded and ready for use.
Using and Configuring PMCS Wizards About the Wizards The wizards contained in the PMCS Interface Toolkit allow you to quickly build accurate and friendly user interfaces with InTouch.
Small Faceplate Wizards Usage The Small Faceplate wizards are icon-sized graphics typically used to create accurate elevation views and one-line diagrams. These wizards are provided with logic to open another window, typically either a Large Faceplate or Tabular Data Screen wizard. There are two palettes of Small Faceplates to choose from. Configuration In development mode, after placing the Small Faceplate, double-click on the icon to open the Small Faceplate Dialog box, as illustrated below.
Enter the name of the window to open when the icon is clicked on during runtime.
Large Faceplate Wizards Usage Large Faceplate wizards are three-dimensional representations of device faceplates that can be used to display data from the device. These three-dimensional wizards include extensive logic that provides an accurate reproduction of the actual display and keys of the device. Large Faceplate wizards are typically placed in overlay windows.
Configuration Place the Large Faceplate wizard into an open window, then double-click on it to display the Large Faceplate Dialog box. Configure the wizard by entering the appropriate information into each of the boxes. The figure shown below is the dialog for a typical wizard. Some wizards have additional features which may be configured. See the section titled Features of GE Large Faceplate Wizards for more details.
Also, the Application Name field must be completed as ION_LINK rather than GE32MODB or GE32MTCP for the EPM7700 device. The ION LINK program is installed during initial PMCS 6.11a setup if the EPM7700 software option is selected. When configuring Wizards on Secondary nodes, the Application Name field entry does not follow the PMCS wizard convention of “\\RemoteComputer\ION_LINK”.
Tabular Data Screen Wizards Usage Tabular Data Screen wizards contain organized, comprehensive, tabular layouts of device parameters including additional configuration and remote control features. Depending on the device, there may be multiple file-tabs beneath the tabular data section. These switch among various pages relating to data and setpoints.
Enter the unique eight- character name matching the appropriate Topic in the PMCS DDE Server. Use the Group Name field to logically group devices, if desired. Enter the name of the group to which the device belongs. Enter the application name of the PMCS DDE Server (GE32MODB or GE32MTCP). Enter the minimum security level for enabling remote command and setup functions. Enter the name of the window to be opened when the Trend button is clicked on during runtime.
40035, the GE 7700 Gateway Users Guide, and GEH-6514, PMCS Read This Book First, for more information on network configuration. The Node Name field is required because the EPM7700 does not use the same DDE server as the rest of the standard PMCS devices, and the wizard must be directed to the location of the correct Communications Server for proper configuration of DDE topic names. Also, the Application Name field must be completed as ION_LINK rather than GE32MODB or GE32MTCP for the EPM7700 device.
Data Dialog box has an extra field for indicating when the RRTD option is installed. Be sure to select the correct RRTD option when completing the 369's Tabular Data Dialog window. If you are not planning to use an RRTD module with your relay, select the "No" button. This minimizes the number of I/O tags created by the wizard, providing better performance.
Universal Relay The Universal Relay device comes in several different models, and each model supports different capabilities, which are reflected by the various tabs available for each model. When configuring a Universal Relay device, you first select the UR Model, then choose which tabs will be displayed for the particular device. The UR devices are also capable of communicating with a different type of PMCS DDE Server than the other PMCS Advanced Wizards.
One-Line Wizards Usage You can use one-line wizards to create animated one-line diagrams that represent an electrical schematic of the devices monitored by the software. These wizards are provided with logic to either open another window or display device status. One-Line wizards are divided into five functional groups according to the type of animation: 16 • Horizontal and Vertical Meter wizards display another window, such as a 3-D faceplate.
• Circuit Breaker wizards have two discrete color-change animations for On/Off status display and one analog animation for a five-state display (Open, Closed, Out, Trip, and Error conditions). • Lockout/Tagout symbols have discrete visibility animations for various tags. Refer to the section Using and Configuring PMCS Wizards: Lockout/Tagout Wizard for more information.
Transformer, Fuse, Ground, and Motor One-Line Wizards After placing a Fuse, Ground, or Motor wizard in a window, double-click on it to display the dialog box shown below. Configure the wizard by entering the appropriate information into each of the boxes. Enter the name of the InTouch discrete tag that determines the state of the line colors during runtime. Specify the colors of the lines when the Bus Status is On and Off.
Horizontal and Vertical Relay One-Line Wizards After placing a Horizontal or Vertical Relay wizard in a window, double-click on it to display the dialog box shown below. Configure the wizard by entering the appropriate information into each of the boxes. Enter the name of the InTouch discrete tag that determines the color of the line to the right (or top) of the relay symbol during runtime.
Horizontal and Vertical Switch One-Line Wizards After placing a Horizontal or Vertical Switch wizard in a window, double-click on it to display the dialog box shown below. Configure the wizard by entering the appropriate information into each of the boxes. Enter the name of the InTouch discrete tag that determines the color of the line to the right (or top) of the switch symbol during runtime.
Circuit Breaker One-Line Wizards After placing a Horizontal or Vertical Circuit Breaker wizard in a window, doubleclick on it to display the dialog box shown below. Configure the wizard by entering the appropriate information into each of the boxes. Enter the name of the InTouch discrete tag that determines the color of the line to the right (or top) of the breaker symbol during runtime. Enter text to display next to the breaker graphic during runtime (optional).
Elevation Wizards Usage Elevation wizards are graphical elements that represent switchgear components useful for creating 3-D elevation views. These wizards are not associated with any logic or animation, but are provided to create more visually accurate screens and representations of equipment. Device icon wizards are typically placed on the Elevation wizards to show the breakers, trip units, and meters and provide navigation to device 3-D wizards, tabular displays, or arbitrary windows.
Floor Plan Wizards Usage Floor Plan wizards are graphical elements that are useful for creating accurate representations of a facility layout. You can use a floor layout as an overview display of an entire plant, with animated areas for navigation to various switchgear elevation views or one-line diagrams. You can paste miniature elevation views as bitmap objects onto the floor layout, sized to fit, and then animate them as push buttons to display elevation views or one-line diagrams (see Chapter 3).
Toolbar Wizard Usage The Toolbar wizard is a navigational tool which allows the user to move between recently-used or frequently-used windows, and provides a clock for quick reference. The first/last arrows jump to the first or last window in the windows list (see Configuration below); the inner forward and back arrows move to the next or previous window in the list. The window buttons to the right of the arrows provide quick access to the windows assigned to each button.
Annunciator Panel Wizard Usage The Annunciator Panel wizard provides an industrial-style annunciator display panel, consisting of a bank of 48 indicator lights which change colors and blink to indicate various device conditions. For instance, a circuit breaker could be associated with an annunciator panel wizard to display grey when closed and change to red if it trips.
From the Event Logger’s perspective, there are two parts to configuring the Annunciator Panel. First, each DDE Item that will be displayed on the Annunciator Panel wizard must be added (using the Add Items dialog). For the example we’re discussing, we’ll assume you’ve created a DDE Item named Trip1. Each DDE item will connect to an individual tile in the Annunciator Panel wizard. The second part consists of defining events which will turn individual DDE items ON or OFF.
Annunciator Panel Wizard m onitors DDE Item s at Event Logger Relay 1 (green) Relay 2 (green) Relay 3 (green) Annunciator Panel Wizard DDE Item Nam e: Trip1 Status: O FF Configured Events Relay Tripped? Error Condition? O vervoltage Condition? Received NO NO NO Event Logger Event Logger tracks events reported by PM CS DDE Server Relay 1 PMCS DDE Server Relay 2 Relay 3 Annunciator Panel Wizard m onitors DDE Item s at Event Logger Relay 1 (red) Relay 2 (green) Relay 3 (green) Annunciator Panel W
Each "Alarm indicator" as defined by the Event Logger will appear to InTouch as a DDE Integer item which can have the following values/states: State Tag Value Default Color Normal (no alarm) 10 - 19 Solid Gray Alarm Active - Unacknowledged 20 - 29 Red Blinking Alarm Active - Acknowledged 30 - 39 Solid Red Alarm Reset - Unacknowledged (alarm occurred but later went off before being acknowledged) 40 - 49 Solid Yellow Alarm Disabled (Event Logger has disabled this alarm indicator) 0 Dark Gray
Configuration Note: Prior to configuring an Annunciator Panel Wizard, you should have completed configuration of the Annunciator Panel Items at the PMCS Event Logger. Refer to GEH-6512, PMCS Event Logger Users Guide, for details.
Double-click on the wizard to display the Annunciator Panel Dialog: Complete the Annunciator Panel Name field (up to 8 characters), and the Security Access Level (level of security required to Reset any Acknowledged alarms. The color codes for different alarm states can be modified by clicking on each color. Note that the color codes apply to all 48 indicators on the annunciator panel wizard.
Enter the text to display on any of the three lines available for the selected button. It is not necessary to enter text on all three lines. Click OK when you have finished assigning text labels to the button. As each annunciator panel button is labeled, the Annunciator Panel Dialog reflects these changes by showing the Row/Column coordinates of the labeled buttons: When you have finished labeling your annunciator panel buttons, click OK to close the Annunciator Panel Dialog box.
Two steps remain after the wizard has been configured. First, InTouch DDE Integer tags must be created for the DDE items configured in the Event Logger corresponding to the Alarm Panels. Make sure the DDE Item names created in InTouch match the DDE Item names configured in Event Logger. (If you are unsure of how to create DDE tags in InTouch, please refer to WonderWare’s documentation.
An example of a simple script is shown below: Panel1_R1C1.Name = ANN_P_1A.Name; Panel1_R1C2.Name = ANN_P_1B.Name; Panel1_R1C3.Name = ANN_P_2A.Name; At run-time, InTouch will receive DDE data from the Event Logger which will control the colors of all indicators that have been configured properly.
Troubleshooting Tips for the Annunciator Panel Wizard 34 • Make sure that all DDE Items associated with the annunciator panel have been created in the Event Logger. • You must create associated InTouch DDE Integer Tags by hand in the InTouch tagname database. The DDE Access name for the tags should use “EVENTLOG” for the Application Name and “SYSTEM” for the Topic Name. Make sure the “Request Initial Data” option is selected for this DDE Access name.
Custom Table Wizard Usage The Tabular Data Screen wizards provide the ability to view extensive device data in tabular form. However, they do not allow you to select the data to view - you must view all the data presented and locate the particular data points you are interested in. The Custom Table wizard differs from the Tabular Data wizards by providing an easy-to-use, highly-flexible way to view a limited number of registers for a particular device.
Begin configuring the Custom Table by completing the following fields: 36 Field Description Device Name Enter the name of the device (topic). Must exactly match the topic name at the DDE Server. DDE Server Name Enter the name of the PMCS DDE Server. Device Description Optionally, enter a brief description of this device, up to 32 characters maximum. Device Type Select the device type corresponding to this topic.
EPM 7700 Users Only: When the EPM 7700 device type is selected, an additional field appears in the Custom Table Dialog box, adjacent to the Device Name (shown below). The Node Name field requires that you enter the name of the computer on which the meter’s Communications Server is located, either the Primary Node or a Full Station Secondary Node.
When these fields are completed, click the Select Multiple Tags button to select several tags at once, or click the Select Tag X button to assign tags one at a time. The Select Device Tags dialog appears: The Select Device Tags dialog shows a list of all the pre-configured tags which the Custom Table wizard supports for the selected device type, sorted by address, and displaying the tagname and description. Most tags are metering value registers.
You may select OK to select this table configuration, or you may edit the tags one at a time using the Select Tag X buttons (for instance, if you wish to change the order the tags appear in). The tag descriptions and units may also be edited (useful for non-English applications), but caution is urged when modifying descriptions or units; it may be difficult to remember what they were originally if needed.
System Statistics Wizard Usage The System Statistics wizard is an informational tool which allows the user to view detailed statistics about the system, including port information from the DDE Server and disk information. The wizard consists of a single screen displaying Port Statistics on the top portion and disk information on the bottom. Statistics on up to eight COM ports are displayed. The user may page forward or backward eight ports at a time by clicking the Prev 8 Ports or Next 8 Ports button.
The System Statistics wizard requires a name itself, and also the name of a DDE Server to access. By default, the System Statistics wizard assumes that the DDE Server is located locally and is named GE32MODB. You may change this to access a DDE Server located on a networked PC by entering the name as \\NODENAME\SERVER, where NODENAME is the name of the host PC and SERVER is the name of the PMCS DDE Server, which will be GE32MODB.
Lockout/Tagout Wizard Usage The Lockout/Tagout provides a method for assigning danger or ground tag graphics to various one-line diagrams or wizards. On-screen tags and indicators are for informational purposes only and DO NOT represent real-world conditions! Actual lockout status must be verified prior to performing any work.
Several PMCS breaker management devices support the Lockout/Tagout Wizard in their Large Faceplate and Tabular Data Screen wizards. These devices are: • 750 / 760 Feeder Management Relay Configuration When Lockout/Tagout wizard is dropped and double-clicked, the following dialog box appears: Complete the following fields to configure the Lockout/Tagout Panel Display: • Enter a name for this panel.
Complete the following fields: • Enter the name of the Status Group associated with this Lockout/Tagout symbol. The Status Group is the name that links this symbol to the Lockout/Tagout panel and the breaker management device wizards that can support it. It is important to remember the Status Group assignment since it must be used to configure the associated panel and IED wizards. • Enter the name of the window to open when the Oneline Tagout Symbol wizard is clicked on during runtime.
Breaker_Group_1 is the name of the Status Group we’ll assign to all wizards associated with this breaker; Tag Window is the name of the window we want to appear when someone clicks on the Oneline Tagout wizard during runtime. Next, we create separate screens containing Large Faceplate wizards and Tabular Data screen wizards for each ML 750/760 device. While configuring each wizard, we make sure that each one is given the Status Group “Breaker_Group_1”.
We name the Lockout/Tagout panel Panel_1. We associate the Panel with the same Status Group as our other wizards, Breaker_Group_1. Finally, we set the minimum security level required to add or remove tags.
The Installed By field on the tag shows the name of the current operator who installed the tag; the Installed At field shows the time and date stamp of the tag’s installation.
Special Scripting Considerations for the EPM 7700 This section describes the special InTouch scripting which is required for the EPM 7700 device’s Large Faceplate, Tabular Data Screen, and Custom Tabular wizards. The EPM 7700 is a powerful and highly flexible device, supporting hundreds of discrete data items. This scripting is required due to the large number of DDE items available for this device type.
Installing the Application Script 1. After configuring the EPM 7700 Large Faceplate wizard or Tabular Data Screen wizard, select “Special \ Scripts \ Application Scripts…” from the WindowMaker main menu. The Application Script Dialog box opens: 2. Select “While Running” from the Condition Type drop down list, and enter “30000” in the “Every … Msec” text box next to the Condition Type drop down list. Use Notepad.exe to open the file “EPM7700 Application Script.
1. Click the OK button to close the Application Script Dialog. NOTE: The application script text is only needed once for each configured device. If you are installing more than one wizard for a particular EPM7700 device (for example, a Large Faceplate and a Tabular Wizard), you only need to copy the application script once.
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EPM 7700 Large Faceplate or Custom Table Wizard Scripting Configuring the Large Faceplate/Custom Table Script 52 1. After configuring the Large Faceplate or Custom Table wizard, and with its window displayed, select “Special \ Scripts \ Window Scripts… from the WindowMaker main menu. The Window Script Dialog box opens: 2. Select "On Show" from the Condition Type drop down list. 3. Use Notepad.exe to open the file “EPM7700 Non-Tabular Window Script.txt”, located in the Intouch directory of the PC.
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EPM 7700 Tabular Data Screen Scripting All EPM7700 Tabular wizards require the creation of a Window Script in InTouch. The Window Script automatically configures DDE Links used by the Tabular Wizard when it is displayed. The script must first be configured, then installed, per the following procedures. Configuring the Tabular Data Screen Script 54 1. After configuring the Tabular wizard, and with its window displayed, select "Special \ Scripts \ Window Scripts… from the WindowMaker main menu.
Creating Floor Plans, Elevation Views, and One-Line Diagrams Introduction This chapter illustrates how to use the GE wizards described in Chapter 2 to create animated displays of the facility floor plan, switchgear elevations, and system oneline diagrams. These examples are typical, but are not intended to display the limits of creative system design.
56 6. You can add additional navigation buttons (using standard InTouch controls) to open windows containing one-line views or other information. 7. If the switchgear shown in the elevation view is fed from or feeds another lineup, you can add buttons to navigate to elevation views representing those lineups.
Floor Plans A floor plan should be a recognizable overhead representation of a facility. These windows are built using the GE Floor Plan wizards, described in Chapter 2. They can be made as detailed or as simple as desired. The example below shows an overview of a facility, showing all of the areas containing equipment. You can link each of these areas in the main window to a more detailed window by adding a labeled navigation button (using standard InTouch controls) that is configured to show that window.
Electrical One-Line Diagrams One-line diagrams are built by placing and linking circuit elements using the OneLine wizards, then creating scripts to provide animation for those wizards whose status can be determined or controlled, such as breakers and switches. A one-line diagram is drawn by placing GE One-Line wizards into a window.
{ Set values of local discrete variables based on state of integer status of breaker. This section sets the breaker status memory discretes to true if the breaker’s analog status value is 3 (closed).} brk1_s = (brk1 == 3 OR brk1 ==9); brk2_s = (brk2 == 3 OR brk1 ==9); brk3_s = (brk3 == 3 OR brk1 ==9); brk4_s = (brk4 == 3 OR brk1 ==9); brk5_s = (brk5 == 3 OR brk1 ==9); brk6_s = (brk6 == 3 OR brk1 ==9); { set the bus status for the incoming feeds to the dependent bus above in the distribution hierarchy.
{ set the bus status for the incoming feeds to the dependent bus below in the distribution hierarchy. The IF_THEN statements in this section traverse the hierarchy from top to bottom, left to right, and then bottom to top, right to left.
Sample Application Creating a basic interface We’ve learned about the various parts and pieces of the Interface Toolkit; now let’s put it to work. Suppose we have a very basic power management system installed at our corporate home office. The system consists of four trip units and a PQM (Power Quality Meter).
First, we’ll create all our new windows and name them, then we’ll go back and flesh them out with their contents and add links between them. Create the following twelve windows: • Main Screen • Trip2_Face • Panelboard • Trip2_Tab • PQM_Face • Trip3_Face • PQM_Tab • Trip3_Tab • Trip1_Face • Trip4_Face • Trip1_Tab • Trip4_Tab Select the window named Main Screen, and use the Wonderware tools to sketch a floorplan of the facility, as shown below.
We’ll include a note about the panelboard’s location, describing where to find the real panel, and also a note of instruction: “Click a device to see the large faceplate screen.” Create the links to the device screens by double-clicking on each small faceplate and entering the name of the device’s Large Faceplate screen. For example, double-click on the PQM’s Small Faceplate on the panelboard; then, in the resulting dialog box, type the name of the PQM_Face window.
Now we’ll develop the PQM Tabular data screen. Select the PQM Tab window and use the Wizards tool to place the PQM Tabular Data wizard on the screen. Double click the wizard and fill in the Device Name and the Trending windows as shown below. Click OK. Finally, add some navigation buttons to the Tabular screen for returning to the Main Screen (HOME), to the Panelboard (Go to Panel), or to the Large Faceplate screen (Go back to Faceplate).
Complete the application by developing the Faceplate and Tabular screens for each of the four trip units and that’s it — we’ve just developed a PMCS application using the GE Wonderware Wizards.
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Features of GE Large Faceplate Wizards About the Large Faceplate Wizards This chapter contains descriptions of the functions available with each of the GE Large Faceplate wizards.
POWER LEADER EPM The large faceplate representation of the POWER LEADER EPM provides the following animated functions: Click on... Function Display Window Clicking on the display area opens the tabular data window specified during wizard configuration and sets the view to the Normal Metering page. GE Logo Clicking the GE logo opens the tabular data window specified during wizard configuration and sets the view to the Setup page.
differ depending on whether the EPM is configured as Wye or Delta. Please note that the Normal Scroll Delta and Alternate Scroll Delta lists contain several parameters marked with an asterisk; these parameters were included in the wizard for programming reasons, but are not valid for Delta configurations and should not be used.
Alternate Scroll, Wye Alternate Scroll, Delta Current, Phase A Demand Current, Phase A Demand Current, Phase A Peak Demand Current, Phase A Peak Demand Current, Phase B Demand Current, Phase B Demand * Current, Phase B Peak Demand Current, Phase B Peak Demand * Current, Phase C Demand Current, Phase C Demand Current, Phase C Peak Demand Current, Phase C Peak Demand Watts Demand at Peak VA Demand Watts Demand at Peak VA Demand Vars, Demand Lag (+) Vars, Demand Lag (+) Vars, Demand Lead (–)
Spectra MicroVersaTrip Trip Unit The large faceplate representation of the Spectra MicroVersaTrip trip unit provides the following animated functions: Click on... Function Display Window Opens the tabular data window specified during wizard configuration and sets the view to the Normal Monitoring page. FUNCTION Button Opens the tabular data window specified during wizard configuration and sets the view to the Setup page.
Enhanced MicroVersaTrip-C Trip Unit The large faceplate representation of the Enhanced MicroVersaTrip-C trip unit provides the following animated functions: Click on ... Function Display Window Opens the tabular data window specified during wizard configuration and sets the view to the Monitoring page. FUNCTION Button Opens the tabular data window specified during wizard configuration and sets the view to the Setup page.
The EMVT-C’s metering modes available with the SELECT button are as follows: 73 Mode Description AMPS Current, with no label in the units area of the display. Phase shifting in both Delta and Wye configurations. VOLTS Voltage, displayed as line-to-line (Ph-Ph) for Delta and line-toneutral (Ph-N) for Wye. Phases shown as 01, 02, or 03 for Wye and 01 02, 01 03, or 02 03 for Delta. kWh Energy; no phase shifting. kW Real power; no phase shifting. kVA Apparent power; no phase shifting.
Enhanced MicroVersaTrip-D Trip Unit The large faceplate representation of the Enhanced MicroVersaTrip-D trip unit provides the following animated functions: Feature Function Display Window Opens the tabular data window specified during wizard configuration and sets the view to the Monitoring page. FUNCTION Button Opens the tabular data window specified during wizard configuration and sets the view to the Setup page.
The metering modes available with the SELECT button are as follows: 75 Mode Description AMPS Current, with no label in the units area of the display. Phase shifting in both Delta and Wye configurations. VOLTS Voltage, displayed as line-to-line (Ph-Ph) for Delta and line-toneutral (Ph-N) for Wye. Phases shown as 01, 02, or 03 for Wye and 01 02, 01 03, or 02 03 for delta. kWh Energy; no phase shifting. kW Real power; no phase shifting. kVA Apparent power; no phase shifting.
POWER LEADER Meter The large faceplate representation of the POWER LEADER Meter provides the following animated functions: Feature Function Display Window Opens the tabular data window specified during wizard configuration and sets the view to the Monitoring page. GE Logo Opens the tabular data window specified during wizard configuration and sets the view to the Setup page. RESET/ENTER Button Opens the tabular data window specified during wizard configuration and sets the view to the Setup page.
The parameters available with the SCROLL buttons are listed below: 77 Mode Description RMS Current Units in Amps; phase shifting among A, B, and C. RMS Voltage L-N Units in Volts; available only in Wye configuration, with phase shifting among A, B, and C. RMS Voltage L-L Units in Volts; phase shifting among AB, BC, and CA. Watts Units in kW; phase shifting among A, B, C, and total. Vars Units in kVARs; phase shifting among A, B, C, and total.
Spectra ECM The large faceplate representation of the Spectra ECM provides the following animated functions: Feature Function Display Window Opens the tabular data window specified during wizard configuration and sets the view to the Monitoring page. CONTRAST Buttons Open the tabular data window specified during wizard configuration and sets the view to the Setup page. Refresh Button Updates the display to the most current readings.
79 Mode Parameters and Units STATUS Motor Status ECM Status Trip Status SETPOINTS FLA Setting, amps Rating Plug, amps Phase Unbalance, disabled/enabled Ground Fault, disabled/enabled Commnet Address METERING Phase A Current, amps Phase B Current, amps Phase C Current, amps Average Current, amps Phase Unbalance, percent Ground Current, amps Motor Load, percent LAST TRIP INFO Last Trip Cause Phase A @ Trip, amps Phase B @ Trip, amps Phase C @ Trip, amps Unbalance @ Trip, percent Ground Current @ Tri
EPM 3710 Meter The large faceplate representation of the EPM 3710 provides the following animated functions: Feature Function Display Window Opens the tabular data window specified during wizard configuration and sets the view to the Monitoring page. MIN/MAX Buttons Open the tabular data window specified during wizard configuration and set the view to the Setup page. PHASE Button Rotates the left side of the display through eight sets of instantaneous values, as described in the table below.
81 Display Indication Parameter kW Total real power kVA Total apparent power kQ Total reactive power PFLG or PFLD Power factor; lagging or leading Hz Frequency kWD Kilowatt total demand A or kVA Current average demand or apparent power demand VX RMS auxiliary voltage I4 RMS neutral current kWH-F Import energy kWH-R Export energy kVARH-F Import reactive energy kVARH-R Export reactive energy
EPM 3720 Meter The large faceplate representation of the EPM 3720 meter provides the following animated functions: Feature Function Display Window Opens the tabular data window specified during wizard configuration and sets the view to the Monitoring page. GROUP Buttons Opens the tabular data window specified during wizard configuration and sets the view to the Setup page. PHASE Button Rotates the left side of the display through eight sets of instantaneous values, as described in the table below.
Display Indication Parameters B, Phase B current and B-C line-to-line voltage C, Phase C current and C-A line-to-line voltage *, Average current line-to-line voltage The parameters displayed by the FUNCTION button are listed in the following table. When any of the import, export, or net parameters are displayed, the AMPS portion of the display window is used to allow display of the complete value.
EPM 7700 Meter The large faceplate representation of the EPM 7700 meter provides the following animated functions: Feature Function LCD display window Opens the tabular data window specified during wizard configuration and sets the view to the Metering page. ESC Opens the displays the main menu on the faceplate as shown above. Blank Buttons Pressing the keys adjacent to the LCD Display window displays the selected screen.
Screen Selected 1 - Total Power 2 - Three-Phase Measurements 3 - Per-Phase Power Description • • • • • • • • • • • • • • • • • • • • • • • • • 4 - Energy 85 • • KW Total KVAR Total KVA Total PF Signed Total Vln a; Vln b: n/a when Voltage Mode is DELTA Vln c: n/a when Voltage Mode is DELTA or SINGLE Vln Avg: n/a when Voltage Mode is DELTA Vll ab Vll bc; Vll ca; Vll avg: n/a when Voltage Mode is SINGLE Ia, Ib, I4, Iavg Ic: n/a when Voltage Mode is SINGLE V unbal I unbal Line Frequency KW a; KW b: n/a w
Screen Selected 7 - Per-Phase Minimums Description • • • • • • • • 8 - Per-Phase Maximums • Vln a Min; Vln b Min: n/a when Voltage Mode is DELTA Vln c Min: n/a when Voltage Mode is DELTA or SINGLE Vln Avg Min: n/a when Voltage Mode is DELTA Vll ab Min Vll bc Min; Vll ca Min; Vll Avg Min: n/a when Voltage Mode is SINGLE Ia Min; Ib Min Ic Min: n/a when Voltage Mode is SINGLE I Avg Min • • • Vln a Max; Vln b Max : n/a when Voltage Mode is DELTA Vln c Max: n/a when Voltage Mode is DELTA or SINGLE Vln Avg
269 Plus Motor Management Relay The large faceplate representation of the 269 Plus provides the following animated functions: 87 Feature Function Display Window Opens the tabular data window specified during wizard configuration and sets the view to the Monitoring page. SET POINTS Button Opens the tabular data window specified during wizard configuration and sets the view to the Setup page.
Feature Function LINE Buttons Rotate among parameters within a page. Certain configurations or meter values may prevent display of all parameters within a page. The parameters in each page are listed in the table below. Panel Display Lights Display animation that shows the status of the 269 Plus relay. If a trip or alarm has occurred, auxiliary relay 1 or 2 is active. If the meter fails its self-test, the dark red square to the left of the label appears bright red. Table 10.
Page 3 4 4 Value Text Displayed Description 1 PAGE 3: ACTUAL VALUES MOTOR CAPACITY DATA Page header 2 ESTIMATED TIME TO TRIP = xxx SECONDS 3 MOTOR LOAD AS A PERCENT FULL LOAD = xxx PERCENT 4 THERMAL CAPACITY USED = xxx PERCENT 5 END OF PAGE THREE: ACTUAL VALUES Page footer 1 PAGE 4: ACTUAL VALUES STATISTICAL DATA Page header 2 RUNNING HOURS SINCE LAST COMMISSIONING xxx HOURS 3 MEGAWATTHOURS SINCE LAST COMMISSIONING xxx MWHR 4 # OF STARTS SINCE LAST COMMISSIONING xxx 5 # OF TRIPS
Page 5 6 Value Text Displayed Description 2 CAUSE OF LAST TRIP message Message is a brief explanation of trip cause 3 PRE-TRIP AVERAGE MOTOR CURRENT = xxx AMPS 4 PRE-TRIP U/B RATIO (lI/Ip) xxx PERCENT Unbalance 5 PRE-TRIP G/F CURRENT G/F=xxx.0 AMPS Units = *.
91 Page Value Text Displayed Description 7 4 3 PHASE KVARS KVAR = xxx Displayed only if MTM unit is on line 5 POWER FACTOR PF = xxx Displayed only if MTM unit is on line 6 FREQUENCY HZ = xx.
565 Feeder Management Relay The large faceplate representation of the 565 provides the following animated functions: Feature Function Display Window Opens the tabular data window specified during wizard configuration and sets the view to Monitoring page. SET POINTS Button Opens the tabular data window specified during wizard configuration and sets the view to the Setup page. RESET Button Opens the tabular data window specified during wizard configuration and sets the view to the Setup page.
Page 1 Value Text Displayed Description 1 ACTUAL VALUES CURRENT Page header 2 PHASE A CURRENT xxx Value in amps 3 PHASE B CURRENT xxx Value in amps 4 PHASE C CURRENT xxx Value in amps 5 GROUND CURRENT xxx Value in amps 6 PHASES A = xxx B = xxx C = xxx Value in amps or Breaker is closed and current <1% of trip level in all phases PHASES A<1% FS B<1% FS C<1% FS 2 7 CURRENT END OF PAGE Page footer 1 ACTUAL VALUES ANALOG INPUT Page header 2 xxx Name
Page 4 5 94 Value Text Displayed Description 3 INST PHASE O/C TRIPS ### 4 TIMED GROUND O/C TRIPS ### 5 INST GROUND O/C TRIPS ### 6 OVERVOLTAGE TRIPS ### 7 UNDERVOLTAGE TRIPS ### 8 ANALOG INPUT TRIPS ### 9 CLEAR OPERATIONS DATA? NO 10 DATA CLEARED LAST 0/0/0 11 OPERATIONS DATA END OF PAGE Page footer 1 ACTUAL VALUES PRE-TRIP DATA Page header 2 ALARM PHASE O/C 3 ALARM: GROUND O/C 4 ALARM: OVERVOLT 5 ALARM: UNDERVOLT 6 ALARM: ANALOG INPUT 7 ALARM: ACCUMULATED KA 8 SWIT
Page Value Text Displayed Description 17 TIME OVERCURRENT PHASE ABC Only phases in alarm are displayed or TIME OVERCURRENT GROUND or INST OVERCURRENT PHASE ABC or UNDERVOLTAGE FAULT or OVERVOLTAGE FAULT or x is in range 1-4 EXTERNAL TRIP #x or ANALOG INPUT or POWER FACTOR FAULT or 18 Value in amps 19 PHASE B PRE-TRIP CURRENT xxx A Value in amps 20 PHASE C PRE-TRIP CURRENT xxx A Value in amps 21 GROUND PRE-TRIP CURRENT xxx A Value in amps 22 PRE -TRIP VOLTAGE A-B xxx.
Page 6 Value Text Displayed Description 1 ACTUAL VALUES VOLTAGE Page header 2 VOLTAGE A-B xxx.xx kV 3 VOLTAGE B-C xxx.xx kV 4 VOLTAGE C-A xxx.xx kV 5 FREQUENCY OF FEEDER xxx.
Page Value Text Displayed 10 PEAK KVAR DEMAND xxx kVAR or or KVAR DEMAND DISABLED Displayed if disabled 11 CLEAR KVAR DEMAND DATA? NO Press STORE button to reset kVAR data 12 KVAR DEMAND DATA Date of last reset: mm/dd/yy CL’D: 9 97 Description xx/xx/xx 13 DEMAND DATA END OF PAGE Page footer 1 METERING DATA DEMAND DATA Page header 2 POWER FACTOR LAGGING: x.xx If PF < 0 or or LEADING: x.xx If PF > 0 3 FREQUENCY MTM x.
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Features of Tabular Data Screen Wizards Introduction This chapter describes the features available with tabular data screens. The set of features basic to all tabular data screens is described first, then any unique features are described for each device. Features of Tabular Data Screens The upper left-hand area of every tabular data screen contains a 3-D graphic of the device faceplate. This graphic is simply to verify identification and is not animated.
The right side of the screen contains a display of the device data. The tabs at the bottom enable you to select among the various data tables which can be displayed. The number of tabs (screens) varies according to the type and amount of data available from the device. The two main types of data are metering, which shows the data being monitored by the device, and setup, which is used to configure the device. Other tabs may be available depending on the device’s capabilities.
Power Leader EPM The Power Leader EPM Tabular Data Screen wizard provides the following command buttons: Tab Button Function Setup Meter Initialize Performs a complete meter reset Clear Errors Clears the event log in the meter Demand Reset Clears the watt demand register in the meter Energy Reset Clears the accumulated energy registers in the meter Table 12. PLEPM Tabular data screen commands.
Spectra MicroVersaTrip The Spectra MicroVersaTrip Tabular Data Screen wizard provides the following command buttons on the Setup screen: Tab Button Function Setup Download Downloads the energy demand interval to the DDE Server Refresh Loads the energy demand interval from the DDE Server into the screen display Clear Demand Clears the accumulated energy Table 13. Spectra MVT Tabular data screen commands.
Enhanced MicroVersaTrip-C Trip Unit The Enhanced MicroVersaTrip-C Tabular Data Screen provides six push buttons on the Setup screen: Tab Button Function Setup Energy Clears the accumulated energy registers in the trip unit Demand Clears the peak demand register in the trip unit Inst.
Enhanced MicroVersaTrip-D Trip Unit The Enhanced MicroVersaTrip-D Tabular Data Screen provides six push buttons on the Setup tab: Tab Button Function Setup Energy Clears the accumulated energy registers in the trip unit Demand Clears the peak demand register in the trip unit Inst.
POWER LEADER Meter The POWER LEADER Meter Tabular Data Screen wizard provides three push buttons on the Command screen: Tab Button Function Command Energy /VARH Clear Clears the accumulated energy registers in the meter Peak Current Clear Clears the peak current register in the meter Peak Watt Demand Clear Clears the peak demand in the meter Table 16. PL Meter Tabular data screen commands.
Spectra ECM The Spectra ECM Tabular Data Screen wizard performs the following actions with push buttons on the Command screen: Tab Button Function Command Contactor 1 Start Closes contactor 1 Contactor 2 Fast Start Initiates a fast start of contactor 2 Contactor 2 Rev Start Reverse closes contactor 2 Stop 1 & 2 Opens contactors 1 and 2 ECM Reset Completely resets the ECM Initialize Temperature Resets the temperature memory in the ECM Trip ECM Contactor Trips the ECM contactors Table 17.
MDP Digital Overcurrent Relay The feature to bear in mind when working with the MDP tabular wizard is: • On the Setup screen, you must enter a value into the CT Ratio box. This value is multiplied by the values in the amp registers to convert the latter into user units. If you do not enter a value for the CT Ratio, the message “CT Ratio has not been entered” appears on the bottom of the Tabular Data Screen and on the Large Faceplate wizard.
Command Tab The MDP Tabular Data Screen wizard has three command buttons: Tab Button Function Command Open Breaker Opens the breaker. Close Breaker Closes the breaker. Reset Fault Clears the event table in the MDP Table 18. MDP Tabular data screen commands. The MDP Command Screen shows 3 buttons: • Open Breaker: Opens the Breaker • Close Breaker: Closes the Breaker • Reset Fault: Clears the Event Table in the MDP The screen also shows the Breaker Status, for example OPEN.
Setup Tab The MDP Setup Screen shows: • Phase Settings Configuration • Ground Settings Configuration You must enter CT Ratio in the relevant field.
PQM (Power Quality Meter) All six function buttons under the Info box are enabled for the PQM. The PQM Tabular Data Screen wizard has nine command buttons, described below.
Metering Tab The Multilin PQM Metering tab shows: • Metering values: For A, B, C and 3 Phase • Energy: In various values • Output Relays: Alarm, Aux 1, Aux 2 and Aux 3 The Clear Energy button, when clicked, will clear all energy values. The Reset Device button, when clicked, will reset the Device.
Status Tab The Multilin Status tab shows the status of Alarms, Aux1, Aux2, Aux3 Relays.
Demand Tab The Multilin PQM Demand screen shows : • Demand Current & Power • Peak Demand • Minimum and Maximum Frequency and their Time Stamps. The Clear Max Demand Values button, when clicked, will clear all the maximum demand values. The Clear Frequency Values button, when clicked, will clear all the frequency values.
IV Range Tab The Multilin PQM IV Range tab shows the Minumum and Maximum Current, Voltage Values. The Clear Current Min/Max button, when clicked, will clear all the minimum and maximum values of the current. The Clear Voltage Min/Max button, when clicked, will clear all the minimum and maximum values of voltage.
P Range Tab The Multilin PQM Power Range screen shows the Power minimum and maximum values. The Clear Power Min/Max button, when clicked, will clear all the minimum and maximum values of the power.
Analysis Tab The Multilin PQM Power Analysis screen shows: • Power Quality Values • Total Harmonic Distortion • THD Max The Clear Max THD Values button, when clicked, will clear all maximum THD values.
IO Tab The Multilin PQM Inputs and Outputs screen shows: • Digital Input Switches • Output Relays • Analog Input • Switch Input Pulse Counters The Reset Pulse Counter button, when clicked, will reset all the pulse counter values.
Setpoints Tab The Multilin PQM System Setpoints screen shows: • Current Demand Type • Current Demand Time Interval (m) • Power Demand Type • Power Demand Time Interval (m) • Energy Cost Per kWh (cents) • Neutral Current Sensing • Analog Input Main Relay • Analog Input Alt Relay • Switch A Function • Switch B Function • Switch C Function • Switch D Function 118 PMCS Interface Toolkit
Motor Manager II (MMII) Five of the six function buttons under the Info box are enabled for the MMII; the Wave button is not supported for the MMII. The MMII Tabular Data Screen wizard has four command buttons, described below.
EPM 3710 Meter The EPM 3710 Tabular Data Screen wizard provides the following special features: • The Normal Metering Values screen has a label that displays either kVA Demand or Amps Demand, depending on how the meter is configured. • The Setpoints screen has two scroll buttons that determine which setpoint is displayed. • The Setup tab contains a field "Iout Key" corresponding to the Iout Key display on the actual device.
EPM 3720 Meter The EPM 3720 Tabular Data Screen wizard has several special features. You can use the Setup 1, Setup 2, and Setpoints screens to change the meter configuration. Values displayed in white boxes are changeable. Some are changed by clicking on the displayed value, while others provide scroll buttons, and some have both. • The Download and Refresh buttons on the Setup 1 and Setup 2 screens upload and download the values for all of the setup parameters.
EPM 7300 Meter The EPM 7300 Tabular Data Screen wizard has several special features. You can use the Setup screen to change the meter configuration. Values displayed in white boxes are changeable. Some are changed by clicking on the displayed value, while others are changed by clicking on the associated scroll button. The Download and Refresh buttons on the setup screen upload and download all of the setpoints from the device.
Metering Tab The 7300 ION Normal Metering Values screen shows the metering values: • A, B and C • Three Phase Values • Voltage Imbalance • Current Imbalance • Frequency (Hz) • Phase Reversal • Energy The Reset Energy button will reset the energy.
Min/Max Tab The 7300 ION Min/Max/Demand Values screen shows: • Minimum and maximum metering values • Digital Outputs 1. By clicking on the Text box provided, a popup box will be appeared where text can be entered. 2. By clicking on Force ON and Force OFF the status can be seen as ON or OFF respectively. • Sliding Window Demand and Predicted Windows Demand The Reset Sliding Demand button, when clicked, will reset all Sliding Demand values in the device.
Setup Tab The 7300 ION Setup screen shows various setup values of the device such as Volts Mode, Phase Order, PT Secondary and CT Secondary. The Download button, when clicked, will download all relevant values in the device. The Refresh button, when clicked, will refresh all the values coming from the device.
EPM 7330 Meter The EPM 7330 Tabular Data Screen wizard has several special features. You can use the Setup screen to change the meter configuration. Values displayed in white boxes are changeable. Some are changed by clicking on the displayed value, while others are changed by clicking on the associated scroll button. The Download and Refresh buttons on the setup screen upload and download all of the setpoints from the device.
Metering Tab The 7330 ION Normal Metering Values screen shows the metering values: • A, B and C • Three Phase Values • Voltage Imbalance • Current Imbalance • Frequency (Hz) • Phase Reversal • Energy The Reset Energy button will reset the energy.
Min/Max The 7330 ION Min/Max/Demand Values screen shows: • Minimum and maximum metering values • Digital Outputs 1. By clicking on the Text box provided, a popup box will be appeared where text can be entered. 2. By clicking on Force ON and Force OFF the status can be seen as ON or OFF respectively. • Sliding Window Demand and Predicted Windows Demand The Reset Sliding Demand button, when clicked, will reset all Sliding Demand values in the device.
Setup Tab The 7330 ION Setup screen shows various setup values of the device such as Volts Mode, Phase Order, PT Secondary and CT Secondary. The Download button, when clicked, will download all relevant values in the device. The Refresh button, when clicked, will refresh all the values coming from the device.
EPM 7500/7600 Meter The EPM 7500/7600 Tabular Data Screen wizard has several special features. You can use the Setup screen to change the meter configuration. Values displayed in white boxes are changeable. Some are changed by clicking on the displayed value, while others are changed by clicking on the associated scroll button. The Download and Refresh buttons on the setup screen upload and download all of the setpoints from the device.
• I C: n/a when Voltage Mode is SINGLE • KW A, B: n/a when Voltage Mode is DELTA • KW C: n/a when Voltage Mode is DELTA or SINGLE • KW Total • KVA A, B: n/a when Voltage Mode is DELTA • KVA C: n/a when Voltage Mode is DELTA or SINGLE • KVA Total • KVAR A, B: n/a when Voltage Mode is DELTA • KVAR C: n/a when Voltage Mode is DELTA or SINGLE • KVAR Total • Power Factor Lead A, B: n/a when Voltage Mode is DELTA or PF is Lagging • Power Factor Lead C: n/a when Voltage Mode is DELTA or SING
Min/Max Tab EPM 7500/7600 Meter - Min/Max Tab The Minimum/Maximum Values tab displays a variety of minimum and maximum values recorded by the EPM 7500/7600. Select Show Minimum or Show Maximum buttons to display either the minimum or maximum values for the displayed parameters. To reset all min/max values, select the Reset Min/Max button.
• Frequency Power Quality Tab EPM 7500/7600 Meter - Power Quality Tab The Power Quality tab displays the following power quality values from the EPM 7500/7600.
Enable/Disable Sag Swell – Enables or Disables Sag Swell Tracking. Enable/Disable Over KW SWD – Enables or Disables Over Real Power Sliding Window Demand for Relative Setpoint Tracking. Enable/Disable Over Current – Enables or Disables Over Current for Phases A, B, and C for Relative Setpoint Tracking. Enable/Disable Over Vunb – Enables or Disables Over Voltage Unbalance for Relative Setpoint Tracking.
• Average RMS Current Sliding Window Demand, Predicted Demand, and Thermal Demand Minimum/Peak Demand • Minimum or Peak Real Power Sliding Window Demand, Total Demand, and Thermal Demand • Minimum or Peak Reactive Power Sliding Window Demand, Total Demand, and Thermal Demand • Minimum or Peak Apparent Power Sliding Window Demand, Total Demand, and Thermal Demand The Demand tab also provides push buttons for performing the following commands: Reset Energy – Resets Energy Demand values identified abov
• Status (On, Off) for Status Inputs (SI) 1-8. (Color Code: Green – ON, Grey – OFF). • Counters for SI1-8. The Inputs tab also provides push buttons for performing the following commands: Reset Counters – Resets Digital Input Status Counters for SI1-8. The Inputs tab also provides retentive memory inputs for the following: Digital Input Names for SI1-8. Setup 1 Tab EPM 7500/7600 Meter - Setup 1 Tab The Setup 1 tab displays the following demand values from the EPM 7500/7600.
• Neutral CT Primary and Secondary Communications • Baud Rate for Comm 1, 2, and 3. • Unit ID for Comm 1, 2, and 3. • Protocol for Comm 1, 2, and 3. • Mode for Comm 1. • IP Address, Subnet Mask, and Default Gateway. The Setup 1 tab also provides push buttons for performing the following commands: Download – Executes a script to check for values that have changed and downloads those values to the device via the GE 7700 Gateway.
Setup 2 Tab EPM 7500/7600 Meter - Setup 2 Tab The Setup 2 tab displays the following demand values from the EPM 7500/7600. Sliding Window Demand Settings • Sliding Demand Sub Interval Settings for KW, KVAR, KVA, and Iavg. • Sliding Demand Number of Sub Intervals for KW, KVAR, KVA, and Iavg. • Sliding Demand Predicted Response for KW, KVAR, KVA, and Iavg.
• Over Pickup for Over KW, Over Current, and Over Vunbal. • Time On for Over KW, Over Current, and Over Vunbal. • Time Off for Over KW, Over Current, and Over Vunbal. The Setup 2 tab also provides push buttons for performing the following commands: Download– Executes a script to check for values that have changed and downloads those values to the device via the GE 7700 Gateway. Refresh– .Executes a script to upload all of the meter values for the settings on the screen.
EPM 7700 Meter The EPM 7700 Tabular Data Screen wizard has several special features. You can use the Setup screen to change the meter configuration. Values displayed in white boxes are changeable. Some are changed by clicking on the displayed value, while others are changed by clicking on the associated scroll button. The Download and Refresh buttons on the setup screen upload and download all of the setpoints from the device.
141 • KW A, B: n/a when Voltage Mode is DELTA • KW C: n/a when Voltage Mode is DELTA or SINGLE • KW Total • KVAR A, B: n/a when Voltage Mode is DELTA • KVAR C: n/a when Voltage Mode is DELTA or SINGLE • KVAR Total • KVA A, B: n/a when Voltage Mode is DELTA • KVA C: n/a when Voltage Mode is DELTA or SINGLE • KVA Total • Power Factor Lead A, B: n/a when Voltage Mode is DELTA or PF is Lagging • Power Factor Lead C: n/a when Voltage Mode is DELTA or SINGLE or PF is Lagging • Power Factor
Min/Max Tab EPM 7700 ION Meter - Min/Max Tab The Minimum/Maximum Values tab displays a variety of minimum and maximum values recorded by the EPM 7700. Select Show Minimum or Show Maximum buttons to display either the minimum or maximum values for the displayed parameters. To reset all min/max values, select the Reset Min/Max button.
Power Quality Tab EPM 7700 ION Meter - Power Quality Tab The Power Quality tab displays the following power quality values from the EPM 7700. Disturbance Monitoring • Sag / Swell Counter • Transient Counter • Over KW Sliding Window Demand Status • Over Current Phase A Status • Over Current Phase B Status • Over Current Phase C Status • Over Voltage Unbalance Status *Note: no color code is used for the Relative Setpoint Status.
The Power Quality tab also provides push buttons for performing the following commands: Reset Disturbance Counters – Resets Sag Swell and Transient Counters. Enable/Disable Sag Swell – Enables or Disables Sag Swell Tracking. Enable/Disable Transient – Enables or Disables Transient Tracking. Enable/Disable Over KW – Enables or Disables Over Real Power Sliding Window Demand for Relative Setpoint Tracking.
• Average RMS Current Sliding Window Demand and Predicted Demand Thermal Demand • Real Power Thermal Demand • Reactive Power Thermal Demand • Apparent Power Thermal Demand • Average RMS Current Thermal Demand The Demand tab also provides push buttons for performing the following commands: Reset Energy – Resets Energy Demand values identified above. Reset SWD– Resets Sliding Window Demand values identified above. Thermal Demand – Resets Thermal Demand values identified above.
• Full Scale Setting for AI1-4. : n/a when doesn’t exist on the meter • Scaled Value for AI1-4. : n/a when doesn’t exist on the meter The Inputs tab also provides push buttons for performing the following commands: Reset Counters – Resets Digital Input Status Counters for SI1-8. The Inputs tab also provides retentive memory inputs for the following: Digital Input Names for SI1-8. Analog Input Names for AI1-4.
Communications • Baud Rate for Comm 1, 2, and 3. • Unit ID for Comm 1, 2, and 3. • Protocol for Comm 1, 2, and 3. • Mode for Comm 1. • Ethernet Protocol, IP Address, Subnet Mask, and Default Gateway. The Setup 1 tab also provides push buttons for performing the following commands: Download – Executes a script to check for values that have changed and downloads those values to the device via the GE 7700 Gateway.
Setup 2 Tab EPM 7700 ION Meter - Setup 2 Tab The Setup 2 tab displays the following demand values from the EPM 7700. Sliding Window Demand Settings • Sliding Demand Sub Interval Settings for KW, KVAR, KVA, and Iavg. • Sliding Demand Number of Sub Intervals for KW, KVAR, KVA, and Iavg. • Sliding Demand Predicted Response for KW, KVAR, KVA, and Iavg.
• Over Pickup for Over KW, Over Current, and Over Vunbal. • Time On for Over KW, Over Current, and Over Vunbal. • Time Off for Over KW, Over Current, and Over Vunbal. The Setup 2 tab also provides push buttons for performing the following commands: Download– Executes a script to check for values that have changed and downloads those values to the device via the GE 7700 Gateway. Refresh– .Executes a script to upload all of the meter values for the settings on the screen.
Universal Relay The Universal Relay devices are a highly-flexible family of power management devices based on the concept of a backplane and CPU supporting a wide variety of plug-in modules. These modules provide metering, monitoring, protection and control functions, and other abilities. A UR tabular wizard can display between one and eight screens of data – the number of screens is determined by the user during wizard configuration.
Metering Tab Universal Relay - Metering Data Screen The Metering tab displays the following metered values from the B30, C60, D60, F30, F35, F60, G60, L60, L90, M60 and T60 devices: Actual Values for Voltage, Current, Power, Power Factor, and Frequency. These values are detailed below. Current RMS Current for each phase, ground, and neutral Phasor magnitude and angle for each phase, ground and neutral Voltage RMS voltage for each phase-to-phase, phase-to-neutral, and auxiliary voltage value.
Power Factor Shows the signed power factor value in percent. Power Factor values derived from a source wired in a delta configuration are displayed as "N/A". Frequency Frequency is shown in units of hertz. Frequency is only displayed if the Frequency Tracking Reference setpoint is set to a non-zero value. Power Quality Tab Universal Relay - Quality Tab The Quality tab provides six buttons labeled S1 – S6. These buttons enable you to select the source (1 – 6) for display.
Voltage Phasor magnitude and angle for negative, positive and zero sequence voltages. Voltage values derived from a source wired in a delta configuration will appear as "N/A". Protection Control Tab Universal Relay - Protection Control Tab The Protection Control tab is supported for the following devices: B30, C30, C60, D60, F30, F35, F60, G60, L60, L90, M60 and T60. The Protection Control tab provides the features described below.
Button to enable or disable the indicated function. The label color indicates the function’s availability on the connected device: gray = not available, black = available. Status indicator: gray = disabled, amber = enabled. To use this tab, the user selects one of the eight settings groups for editing using the control labeled "Select Settings Group".
Current Transformers (CT) Primary: indicates the current rating of the CT primary. Secondary: indicates the output current of the CT secondary, either 1A or 5A. Displays "N/A" if the Order Code indicates no CT is installed in the affected location. Voltage Transformers (VT) Secondary: indicates the output voltage of the VT. Ratio: the turns ratio of the VT. Displays "N/A" if the Order Code indicates no VT is installed in the affected location.
Transformer Tab Universal Relay - Transformer Tab The T60 device alone supports a Transformer Tab on its wizard. This tab is unique to the T60 device type. The following values are shown: Differential Current Phasor magnitude and angle.
Elements Tab Universal Relay - Digital Elements Tab The Elements tab displays user-defined name and current status of the sixteen digital elements in the UR. The status indicator color is amber if an element is enabled, gray if it is disabled. The B30, C30, C60, D60, F30, F35, F60, G60, L60, L90, M60 and T60 devices are supported.
Digital Counter Tab Universal Relay - Digital Counter Tab The digital counter tab supports B30, C30, C60, D60, F30, F35, F60, G60, L60, L90, M60 and T60 device types, showing information about the eight digital counters provided in each UR. Status – this indicator is amber if the counter is enabled, gray if disabled. Enable/Disable – this button gives the user the ability to enable or disable the specified counter. Name – displays the user-defined name assigned to the counter.
Virtual Inputs Tab Universal Relay - Virtual Inputs Tab The Virtual Inputs (VInputs) tab allows the user to enable/disable all configured virtual inputs in the connected device and provides indication of their status. The 32 virtual inputs can be manually operated with the pushbuttons provided at the bottom of the screen. This tab supports the B30, C30, C60, D60, F30, F35, F60, G60, L60, L90, M60 and T60 devices.
Virtual Outputs Tab Universal Relay - Virtual Outputs Tab The Virtual Outputs (VOutput) tab allows the user to view the status (energized/deenergized) of all available virtual outputs on the device. The user can also assign a textual name to each of the outputs. Up to 64 virtual outputs can be diplayed. This tab supports the B30, C30, C60, D60, F30, F35, F60, G60, L60, L90, M60 and T60 devices. Virtual Outputs The outputs and their status indicators are presented as a series of pages.
Contact Inputs Tab Universal Relay - Contact Input Tab The Contact Input tab supports the B30, C30, C60, D60, F30, F35, F60, G60, L60, L90, M60 and T60 UR devices, and shows the contact inputs installed on the selected relay. Up to 96 contact inputs may be displayed. Contact Inputs The contacts are presented as a series of pages. To view the contact inputs, use the Prev(ious) and Next keys provided to navigate among the pages.
Contact Output Tab Universal Relay - Contact Output Tab The Contact Output tab supports the B30, C30, C60, D60, F30, F35, F60, G60, L60, L90, M60 and T60 UR devices, and shows the contact outputs installed on the selected relay. Up to 64 contact outputs may be displayed. Contact Output The contacts are presented as a series of pages. To view the contact outputs, use the Page arrow keys provided to navigate among the pages.
DCMA Tab Universal Relay - DCMA Tab The Direct Current MilliAmperes (DCMA) tab supports the B30, C30, C60, D60, F30, F35, F60, G60, L60, L90, M60 and T60 UR devices, and shows the state of the relay's DCMA inputs. DCMA inputs are analog inputs used to read external transducer values. An example might be rotational speed on a generator, translated into a 4-20 mA current loop. Up to 24 inputs may be enabled or disabled. DCMA Inputs The DCMA inputs and their parameters are presented as a series of pages.
Source Tabs Universal Relay - Source Tab Example Similar in operation to the metering tab (except that frequency information is not displayed), there are five identical "Source" tabs (2 – 6) which display actual values information specific to the indicated source. There is no "Source 1" tab, since the Metering tab serves as the "Source 1" display. The B30, C60, D60, F30, F35, F60, G60, L60, L90, M60 and T60 UR device types are supported.
Demand Tab Universal Relay - Demand Tab The Demand tab supports the B30, C60, D60, F30, F35, F60, G60, L60, L90, M60 and T60 UR devices, and shows a variety of energy measurements and demand parameters for a selected source. These values are displayed for up to six sources, which may be toggled between using the S1 - S6 buttons. The Clear Demand button clears the values for the selected source.
Line Tab Universal Relay - Line Tab The Line tab supports the D60, F30, F60, G60, L60, L90 and UR devices, and shows a variety of energy measurements and demand parameters for a selected source. These values are displayed for up to six sources, which may be toggled between using the S1 - S6 buttons. The Clear Demand button clears the values for the selected source. Line Tab Displays (for Remote 1, Remote 2, Local, and Differential) the magnitude and angle on phase A, B, and C.
Breaker Tab Universal Relay - Breaker Tab The Breaker tab supports the B30, C30, C60, D60, F30, F35, F60, G60, L60, L90, M60 and T60 UR devices, and shows a variety amperage measurements and breaker status, as well as allowing control of breaker functions and auto reclosers. Arcing Amperage at Breaker 1 and 2 is displayed for Phases A, B, and C. The Clear Current Arcing functions allow current arcing conditions to be cleared. Breaker Arcing Current features are available for Breakers 1 and 2.
Auto Reclose If the breaker is so equipped, the status of and reclose count for up to six Auto Reclose functions can be displayed, and each recloser may be enabled or disabled. Click the button next to each ID number to enable/disable the autorecloser.
Remote Temperature Detection Tab Universal Relay - Contact Output Tab The RTD tab supports the B30, C30, C60, D60, F30, F35, F60, G60, L60, L90, M60 and T60 UR devices, and shows the RTD sensors installed on the selected relay. Up to 48 input sensors may be displayed. RTD Tab Each RTD sensor's status, function (name), and current temperature are shown. Individual RTD's may be disabled or enabled using the control button next to the RTD number. The sensors are presented as a series of pages.
Bus Tab Universal Relay - Bus Tab The Bus tab is supported for the B30 UR device only. It displays Phase Magnitude and Angle measurements on Bus 1 and Bus 2 for phases A, B, and C. Current direction is shown in degrees for each phase, and the Zone function can be enabled or disabled on each Bus.
239 Motor Protection Relay The 239 does not support Waveform Capture or Event generation, therefore these buttons are disabled beneath the Info box. The 239 Tabular Data Screen’s command buttons are described below: Tab Button Function Metering Reset Device Issues a RESET command to the 239 External Restart Issues an External Restart command to the 239 Clear Trip Data Clears the last 5 trip causes from the 239’s memory Trip Data Table 23. 239 Tabular data screen commands.
The Reset Device button, when clicked, will issue a RESET command to the 239. The Emergency Restart button, when clicked, will issue a RESTART command to the 239. Status Tab • The Status tab displays Alarm, Trip, Auxilary Status Pickup is shown in Amber color and Active Alarm shown in Red, along with a text string for each alarm condition. • See the 239 Motor Protection Relay Instruction Manual (Chapter 5, Actual Values) for information on the display of data values under different device configurations.
Trip Data The Multilin 239 Last Trip Data screen shows: • Cause of Last Trip and their corresponding currents and RTD Temperatures at the time of trip. • Trip Record The Clear Trip Data button, when clicked, will clear all the trip data.
Setpoints Tab The Multilin 239 System Setpoints screen shows: • CT Inputs • Motor Data • Phase Current Overload • Breaker Failure • Immediate Overload • Mechanical Jam 174 PMCS Interface Toolkit
269 Plus Motor Management Relay The 269 Tabular Data Screen wizard provides two reset push buttons on the Setup 6 tab. Tab Button Function Status 6 Clear Last RTD Data Clears the RTD last access registers Clear Commissioning Data Clears the commissioning data registers Table 24. 269+ Tabular data screen commands. For complete explanations of parameters, refer to the 269+ Users Guide.
369 Motor Management Relay Metering Tab 369 - Metering Data Screen The Metering tab displays the following metered values from the 369 device: Actual Values for Voltage, Current, Power, Power Factor, and Frequency. These values are detailed below. Current • • • • • • • Per phase magnitude and angle Phase average Ground current Motor Load as a percentage of the Full Load Current rating defined in setpoints.
Average Line-Neutral voltage. (only shown for wye configurations) Power Power values are displayed only if the Metering or Backspin option is installed in the relay and a VT connection has been programmed. • Real power • Reactive power • Apparent power • Power Factor Motor Status The current status of the motor is shown in a colored indicator block Timer Functions & Learned Values The lower right quadrant of the metering tab has two pages – Timer Functions and Learned Values.
Alarms Tab 369 Relay - Alarms Tab The Alarms tab consists of three pages – Status, Trip Data, and Trip Counters. You can navigate between pages by clicking the buttons located along the lower edge of the tab display. Alarm Status This page displays the current status of the alarm functions within the relay. If a function is disabled or not programmed, its label appears as dark gray text, and its associated indicator will be dark gray at all times.
Demand Tab 369 Relay - Demand Tab This tab displays current and power demand metering information. Current demand is indicated regardless of options/VT settings. Power demand values are only available when the Metering or Backspin option is installed on the relay and a VT connection is programmed. Peak demand values may be cleared using the Clear Peak Demand Data button on the Control tab.
Local RTD Tab 369 Relay - Local RTD Tab This tab displays information about any RTD temperature probes connected directly to the device. Information on this tab is only available if the RTD option is installed in the relay. Information and alarm indication for each RTD is only available when that RTD is programmed for operation. If an RTD’s Application is set to "none" then all fields for that RTD display "N/A". The hottest Stator RTD indicates which RTD is currently returning the highest temperature.
Remote RTD Tab 369 Relay - Remote RTD Tab This tab displays information about any RTD temperature probes connected to one or more Remote RTD units. These external accessories connect via Modbus to the 369 relay. A maximum of four RRTD modules can be connected to a 369 relay – each module is assigned a page on this tab. Use the RRTD Selection buttons in the lower left corner of the tab to navigate between pages. Information on this tab is only available if an RRTD module is connected to the relay.
Control Tab 369 Relay - Control Tab This tab provides limited control functionality over Modbus. Status – indicates the current status of the output relays and general digital inputs. Preset Values – shows the current value of the indicated field. Note that these values are only updated when the tab is first displayed – not continuously. To preset a new value, click the white box containing the value you want to change. The Intouch Calculator window appears – type in the new value and click OK.
Setup Tab 369 Relay - Setup Tab This tab displays selected setpoints from the device. All fields on this tab are readonly. Setpoints may be changed via the relay’s own setup program or manually via the front panel.
SR469 Motor Management Relay All six function buttons under the Info area are enabled for the SR469. The SR469 Tabular Data Screen wizard has nine command buttons, described below.
Volts AB, Volts BC and Volts CA. Also shows Power, Energy, Motor Data and RTD information. The Clear Peak Demand button will clear all Peak Demand data The Clear MWh & Mvarh button will clear all MWh and Mvarh values. The RESET Device button will issue a RESET command to the SR469. Status Tab The Multilin SR469 Status screen shows: • Start Blocks • Motor Status • Real Time Clock • RTD Maximums The Clear RTD Maximums button will clear all maximum RTD values.
Alarms Tab The Multilin SR469 Alarm Status screen shows the status of various alarms such as Overload Alarm and Underpower Alarm.
Trip Tab The Multilin SR469 Trip screen shows the values of last trip data. The Clear Last Trip Data button will clear all values of the last trip data.
IO Tab The Multilin SR469 Inputs & Outputs screen shows values related to: • Output Relays • Digital Input Switches • Analog Inputs The Clear Analog I/P Min/Max button will clear all minimum and maximum values of Analog I/P.
Maintenance Tab The Multilin SR469 Maintenance screen shows values related to: • Trip Counters • Timers • General Counters The Clear Trip Counters button will clear all values of trip counters and the Preset Digital Ctr will preset trip counters.
Analog Tab The Multilin SR469 Analog Input Differential screen shows: • Analog Input Diff 1-2 • Analog Input Diff 3-4 190 PMCS Interface Toolkit
RTD HI Tab The Multilin SR469 HI Alarm Status screen shows various RTD values.
SR489 Generator Management Relay All the SR489’s function buttons below the Info box are enabled. The SR489 Tabular Data Screen wizard has nine command buttons, described below. Tab Button Function Metering Reset Device Issues a RESET command to the device. Clear Peak Demand Clears the peak demand data from memory. Clear MWh and Mvarh Clears the MWh and Mvarh data from memory. Clear Max RTD Data Clears the maximum RTD data from memory.
• • • • Demand Power RTD Information Motor Data The Clear Peak Demand button clears all peak demand values. The Clear MWh & Mvarh button clears all MWh and Mvarh data The Clear Max RTD Data button clears the maximum RTD data and The RESET Device button will issue a RESET command to the device.
The Multilin SR489 Alarm Pickups screen shows all the Alarms. Trip Data Tab The Multilin SR489 Last Trip Data screen shows the values of last trip data and the corresponding values at the time of trip. The Clear Last Trip Data button clears all values of the last trip data.
IO Tab The Multilin SR489 Inputs & Outputs screen shows: • Digital Input Switches • Analog Inputs • Output Relays • Learned Data Values The Clear Analog I/P Min/Max button clears all the minimum and maximum analog I/P.
Maintenance Tab The Multilin SR489 Maintenance screen shows: • General Timers & Counters • Trip Counters The Clear Trip Counters button will clear all values of trip counters; the Clear General Info button will clear all general information; and the Clear Breaker Info button will clear all breaker information from the memory.
Setpoints Tab The Multilin SR489 System Setpoints screen shows various values related to the setpoints such as Phase CT Primary, Ground CT Type, VT Connection Type, Voltage Transformer Ratio etc.
565 Feeder Management Relay The 565 Tabular Data Screen wizard has the following buttons on the Command tab: Tab Button Function Command Maint Data Clears the maintenance data Operation Data Clears the operation data Amp Demand Clears the amp demand registers KW Demand Clears the kW demand registers KVAR Demand Clears the kVAR demand registers Events Clears the events table Energy Clears the energy used data Reset Keypad Performs a keypad reset End of Relay Test Ends the relay test En
scaled to display any desired units from the front of the device, but these labels are not sent to the DDE Server. For complete explanations of parameters, refer to the 565 Users Guide.
735 Feeder Relay The Events and Wave function buttons below the Info box are disabled since the 735 does not support Waveform Capture or Event generation. The 735 Tabular Data Screen wizard has two command buttons, described below. Tab Button Function Metering Reset Device Issues a RESET command to the 735 Trip Clear Last Trip Data Clears the trip causes log Table 28. 735 Tabular data screen commands.
Trip Data Tab The 735 Trip Data screen shows trip data information such as: • Last Trip Data • Trip Record The Clear Last 5 Trip Causes button will clear values of last 5 trip causes.
Setpoints Tab The 735 System Setpoints screen shows setpoints information such as: • Dial Settings • Option Switches 202 PMCS Interface Toolkit
SR745 Transformer Management Relay Under the Info area, the SR745’s function buttons are all enabled. The SR745 Tabular Data Screen wizard has three command buttons: Tab Button Function Metering Reset Device Issues a RESET command to the device Demand Clear Max Demand Data Clears the maximum demand data from the SR745’s memory Harmonics Clear Loss-of-Life Data Clears loss-of-life data from the SR745’s memory Table 29. SR745 Tabular data screen commands.
Flags Tab The Multilin SR745 Element Flags screen shows the state and phases of various elements.
• • • • • Logic Inputs Virtual Inputs Output Relays Virtual Outputs Analog Input Demand Tab The Multilin SR745 Demand Data screen shows: • Configuration • Present Values • Maximums The Clear Max Demand Data button will clear all maximum values of the demand data.
Harmonic Tab The Multilin SR745 Harmonic & Misc Data screen shows: • Harmonic Data • Misc The Reset Loss of Life button will clear loss-of-life data from the SR745’s memory.
Setpoints Tab The Multilin SR745 System Setpoints screen shows information such as Nominal Phase to Phase Voltage, Rated Load (MVA), Transformer Type and Analog Outputs.
Power Tab The Multilin SR745 Power & Energy screen shows: • Power • Energy • Aging Factor • Tap Changer 208 PMCS Interface Toolkit
SR750/760 Feeder Management Relay The SR750 and SR760 are very similar devices and share a common Tabular Data Screen wizard. During wizard configuration, select which type of device the wizard represents (SR750 or SR760) by selecting the corresponding radio button in the Tabular Data Screen Configuration dialog box. Under the Info area, the SR750/760’s function buttons are all enabled.
Metering Tab The SR750/760 Metering screen shows: • Current • Energy • Voltage • Power The Clear Energy Data button will clear all values of energy data. The RESET Device button will issue a RESET command to the device.
Status Tab The SR750/760 Status screen shows Active Conditions.
• Fault Locations • Total Arcing Current The Reset Arcing Current button will reset all values of the arcing current. Trip Tab The SR750/760 Trip Data screen shows: • Last Trip Data • Trip Counters The Reset Trip Counters button will reset all values of the trip counters.
Demand Tab The SR750/760 Demand screen shows details of: • Configuration • Values The Reset Max Demand button will reset all maximum values of demand.
Logic Tab The SR750/760 Logic screen shows: • Contact Inputs • Virtual Inputs • Logic Input States IO Tab The SR750/760 Inputs & Outputs screen shows: 214 PMCS Interface Toolkit
• Output Relays • Analog Input • Hardware Input Coils • Breaker Operation The Open Breaker button will issue an Open Breaker command. The Close Breaker button will issue a Close Breaker command.
Fanuc 90/30 The Fanuc 90/30 Tabular Data Screen wizard is blank. This allows any desired data to be placed on the screen. Fanuc 90/70 The Fanuc 90/70 Tabular Data Screen wizard is blank. This allows any desired data to be placed on the screen.
Fanuc Micro 90 The GE Fanuc Micro 90 Tabular Data Screen is blank. This allows for any desired data to be placed on the screen.
MX200 The MX 200 device is an Automatic Transfer Switch. The Tabular Data Screen wizard has several special features. You can use the Setup screen to change the meter configuration. Values displayed in white boxes are changeable. Clicking on the displayed value changes some, while clicking on the box changes others. The Download and Refresh buttons on the setup screen upload and download all of the setpoints from the device.
Voltages Normal and Emergency Voltage values for all the phases. Timer Functions • Timer Active • Timer Countdown Value • Time on Emergency • No. of Transfers • Nominal FS Vol.
The tab shows frequency and number of phases on source: • Position Status • Phase Rotation The status for Source is displayed as Available (displayed in green) or Not Available (displayed in red). The Position Status is displayed as Normal (displayed in green) or Emergency (displayed in red). The Phase Rotation is displayed as ON (displayed in green) or OFF (displayed in red). Setup Tab The Setup tab displays the following demand values from MX 200 device.
Control • YE • YN • No Load Test • Load Test • Fast Load Test • S5 • S12 • LS • Q7 • Q3 • Aux2 • Aux1 The legend is ON and OFF. If ON, it is indicated by amber and if OFF by gray color. Options • T3 Timer Bypass • T3 Timer • W3 Timer Bypass • W3 Timer • T Timer Bypass • W Timer Bypass • In Ph.
• Normal Pickup • Normal Dropout • Emer Pickup • Emer Dropout The user can enter values against each parameter. Frequency (Hz) • Normal Pickup • Emer Pickup The user can enter values against each parameter.
GEN PLC The Generator Programmable Logic Controller (PLC) is a specially programmed PLC with specific number of I/O modules, controlled by a Master PLC program up to maximum number of 16 Generators. GEN PLC Tabular wizard mainly have 3 tabs as described below. Master Tab The Master PLC lists 16 generators displaying status for each generator separately.
Generator Tab This tab displays generator parameters for 16 generators represented as G1 to G16 (buttons). When a button is clicked, the parameters of that generator are displayed on the screen. The parameters are: Status • Gen Brkr Aux Contact • Breaker Close Ready • Not in Auto • CPU Running • Engine in Cooldown • Engine Run Contact If a generator is running, the status is displayed in gray and if it is Status Stop, it is displayed as green. The status Not In Auto is displayed in red.
Any alarm in generator’s status is displayed in amber. Otherwise the status is displayed in gray. Shutdown • • • • • • • • • • • • • • • Overcrank Overspeed High Water Temp Oil Pressure Overvoltage Reverse Power Breaker Locked Out Fail to Synchronize General Failure Emergency Stop EMCP Diagnostic Failure Gen Set Breaker Air Damper Switch Lock Out 489 Relay Fail Safe 489 Relay Note: Any kind of shutdown is displayed in red. PSG The screen shows Paralleling SwitchGear Status of generators.
Status • • • • • • • • • • • • • • • • • • • • Latched Under Frequency Latched Over Frequency Communication Failure Main Tank Low Fuel Level Main Tank Critical Low Fuel Level Main Tank High Fuel Level Main Tank Fuel Leaked Load Bank Breaker Bell Alarm System Not in Auto System Under Test Remote Start Signal Received System in Load Demand Mode System Test With Load Bank Remote Peak Shave Signal Received Load Add Priority Load Add Priority 3 Load Add Priority 4 Load Shed Priority 2 Load Shed Priority 3 Load
EPM5300P This device belongs to Electro Industries family, which is tightly integrated device in to PMCS product. This device contains the following tabs.
Voltage (Volts) • Phase (AN, BN, CN, AB, BC and CA) • Inst • THD Current • THD Voltage Energy • WATT Hour • VA Hour • VAR Hour Power • Real (WATT) • Reactive (VAR) • Apparent (VA) • PF 228 PMCS Interface Toolkit
Setup One Tab The screen explains various parameters in relation with Relay 1 and Relay 2 such as: Configuration • Kilo Volt Inputs • Kilo Amp Input • Mega Watt Input • Phase Reverse Limits • Meter Setup • Limits Set By Relay 1 / Relay 2 • Phase Reversal • Phase Imbalance • Delay On • Delay Off Decimal Placement • Volts Decimal Placement • Amps Decimal Placement • WATT Decimal Placement • VOLTS Full Scale • AMPS Full Scale • Lim.
Reset • WATT Hour • VAR Hour • VA Hour If it is kilo volt inputs, the decimal placement is 2 (as shown in the screen); if kilo amp input the decimal placement is 3 and if mega watt input, it is 1. Note: Configured is displayed in green, Enabled in red and Reset in Amber.
Exceeded Limit 1 Exceeded Limit 2 LED display in Gray color: Limit 2 of the associated value is Set for Below. LED display in GREEN color : The associated quantity is exceeded the Limit 1 value. LED display in Gray color: The associated quantity is NOT exceeded the Limit 1 value. LED display in GREEN color : The associated quantity is exceeded the Limit 2 value. LED display in Gray color: The associated quantity is NOT exceeded the Limit 2 value.
EPM5200P This device belongs to Electro Industries family, which is tightly integrated device in to PMCS product. This device contains the following tabs.
Voltage (Volts) • Phase (AN, BN, CN, AB, BC, CA) • Inst THD Current/THD Voltage • Displays Phase A, Phase B and Phase C THD Current and Voltage values.
Configuration • Kilo Volt Inputs • Kilo Amp Input • Mega Watt Input • Phase Reverse Limits • Meter Setup • Limits Set By Relay 1 / Relay 2 • Phase Reversal • Phase Imbalance • Delay On • Delay Off Decimal Placement • Volts Decimal Placement This value decides the precision. User can change the values from 1 to 4. • Amps Decimal Placement This value decides the precision. User can change the values from 1 to 4.
EPM5350P Special Note: This device supports GE32MTCP Server ONLY. This device belongs to Electro Industries family, which is tightly integrated device in to PMCS product. This device contains the following tabs.
• THD Current • THD Voltage Energy • WATT Hour • VA Hour • VAR Hour Power • Real (WATT) • Reactive (VAR) • Apparent (VA) • PF Setup One Tab The screen explains various parameters in relation with Relay 1 and Relay 2 such as: Configuration • Kilo Volt Inputs • Kilo Amp Input • Mega Watt Input • Phase Reverse Limits 236 PMCS Interface Toolkit
• Meter Setup • Limits Set By Relay 1 / Relay 2 • Phase Reversal • Phase Imbalance • Delay On • Delay Off Decimal Placement • Volts Decimal Placement • Amps Decimal Placement • WATT Decimal Placement • VOLTS Full Scale • AMPS Full Scale • Lim. Threshold for lmb (%) Reset • WATT Hour • VAR Hour • VA Hour If it is kilo volt inputs, the decimal placement is 2 (as shown in the screen); if kilo amp input the decimal placement is 3 and if mega watt input, it is 1.
Limit 1 Trigger - Relay 1 Trigger - Relay 2 Limit 2 Trigger - Relay 1 Trigger - Relay 2 Set Above/Below Limit 1 Set Above/Below Limit 2 Exceeded Limit 1 Exceeded Limit 2 Limit 1 value for the Associated quantity (For example: Phase A Amps) LED display in Amber color : Limit 1 of the associated value will trigger Relay 1. LED display in Gray color: Limit 1 of the associated value will not trigger Relay 1. LED display in Amber color : Limit 1 of the associated value will trigger Relay 2.
EPM5000P This device belongs to the Electro Industries family, which is a tightly integrated device in to the PMCS product. The device contains the following tabs: Metering The screen explains various parameters related to metering and status. Power (WATT): Instantaneous, Average, Maximum and Negative Maximum. Relay 1/Relay 2: Positive Limit 1, Negative Limit 1, Positive Limit 2 and Negative Limit 2. Delay On is displayed too. If the relay is on, it is displayed in green.
Setup The screen explains various parameters related to configuration and setup. Configuration: Mega WATT, Leading Zero, Reset Protection, Open Delta, KYZ Output for positive WH, KYZ Output for negative WH. Protocol: Relay 1, Relay 2, Communications and DC Output. Status/Value: The user can set the values in the Status and Value fields. Under Positive WATT and Negative WATT, the status is shown as Above/Below for Limit 1 and Limit 2.
EPM9450Q/EPM9650Q This device belongs to the Electro Industries family, which is a tightly integrated device in to the PMCS product. The device comes with 2 versions – EPM9450Q and EPM9650Q. The EPM9450Q device does not support Waveform feature. The EPM9650Q supports Waveform features. The device offers the following features: • Max/Min integration: Offers Maximum and Minimum values for every measured reading. • 8 Built-in Digital High-Speed Status Inputs: The device offers 8 High speed digital inputs.
• PF. Frequency Normal/ High Speed: Displays Frequency in Hz. Min/Max The tab displays Maximum and Minimum values of various parameters. The user can get maximum and minimum values by clicking on respective buttons labeled Show Max and Show Min. • • • • • 242 Voltage: This tab displays the voltage values of AN, BN, CN, AB, BC, CA and Aux. Current: Displays currents of Phase A, B, C, measured and calculated. THD : Displays THD values of Phase A, B, C for Voltage and Current an d K Factor.
Demand The screen explains various parameters related to demand values: • • • • 243 Sliding Window Demand: Displays Average and Maximum Sliding window demand for Positive Watt, Coincendence VAR for Maximum Postive Watt, Negative Watt, Coincedance VAR for Maximum Negative Watt, Positive VAR, Negative VAR and VA. User can click on Sliding Window button to see the Sliding window Demand.
Thermal Average The screen explains about various parameters related to thermal average: • Current (Amps): Displays the current readings for the phases A, B, C, Mea. (measured) and Cal. (calculated). • Voltage (Volts): Displays the Voltage readings for the phases AN, BN, CN, AB, BC, CA and Aux. • Power: Displays Phase A, B, C and 3 Phase Power Values for Real (Watt), Reactive (VAR) and Apparent (VA).
Digital Inputs The Digital Inputs tab displays the following parameters of 8 digital inputs. They are Name: Displays the name of the Digital Input. The maximum allowed is 16 Character string. Open/Close Label: Based on the Digital input status, the corresponding label will be displayed. For example if the digital input status is OPEN then label for Open condition is displayed or if the digital input status is CLOSED then label for Closed condition is displayed. Status: The status is displayed Open/Closed.
Setup The screen explains various parameters related to setup. Current Set Points: Above and Below Current Setpoints are shown for Phase A, B, C, Measured and Calculated. Voltage Set Points: Above and Below Voltage Setpoints are shown AN, BN, CN, AB, BC, CA and Aux. PT Ratio: Displays Phase and Auxiliary values for Numerator and Denominator. CT Ratio: Displays Phase and Neutral values for Numerator and Denominator. Communication Parameters: Displays Port Addresses and Baudrate for each of the 4 Ports.
EPM7430D/EPM7450D These devices belong to the Electro Industries family, which is a tightly integrated device in to the PMCS product. These devices communicate through EI Protocol (Electro Industries Protocol). The server used for these devices is GE32EIND. The device comes with 2 versions – EPM7430D and EPM7450D. Both the devices does not support Waveform and events features. So these two buttons will be disabled.
Min/Max The tab displays Maximum and Minimum values of various parameters. The user can get maximum and minimum values by clicking on respective buttons labeled Show Max. Values and Show Min. Values. • • • • • 248 Voltage: This tab displays the voltage values of AN, BN, CN, AB, BC and CA. Current: Displays currents of Phase A, B, C and Neutral. THD : Displays THD values of Phase A, B, C for Current and Voltage.
Limits The screen explains various parameters related to Limits and Triggers: Limit 1 Trigger/Limit 2 Trigger (Relay 1, Relay 2 and Relay 3) Relay 1, Relay 2 and Relay 3 are triggered depending upon the Limit 1 and Limit 2 values. The screen also displays whether the Limit 1 and Limit 2 are set above or set below. Relay 1, Relay 2 and Relay 3 of Limit 1 and Limit 2 are displayed either as Not Triggered or Triggered. If the relay is triggered, the LED fills with amber, if not then gray.
Trigger - Relay 3 Limit 2 Trigger - Relay 1 Trigger - Relay 2 Trigger - Relay 3 Set Above/Below Limit 1 Set Above/Below Limit 2 250 LED display in Amber color : Limit 1 of the associated value will trigger Relay 3. LED display in Gray color: Limit 1 of the associated value will not trigger Relay 3. Limit 2 value for the Associated quantity (For example: Phase A Amps) LED display in Amber color : Limit 2 of the associated value will trigger Relay 1.
Setup The screen shows the following parameters in relation with Relay 1, Relay 2 and Relay 3 such as: Configuration: The Parameters under configuration are Kilo Volt Inputs, Kilo Amp Input, Mega Watt Input, Phase Reverse Limits. If any of the above parameters are configured the LED shows Green otherwise LED shows Gray in color. Meter Setup: If this parameter is set then text displayed as Open Delta, if not then shows Non Open Delta.
Troubleshooting Assertion Error Q: While switching between InTouch's Runtime and Development modes, the program crashed with an Assertion Error. A: This is a problem with InTouch Wonderware, not the GE PMCS Wizards. It occurs rarely during the development phase, and is not seen once a stable application has been developed and put into use. Reboot the computer and restart the application.
Q: When I double-click the display on the PLEPM's Large Faceplate wizard to go to the Tabular data screen, the DELTA metering tab is displayed, even though the PLEPM is configured as WYE. A: Click another tab and then click back to the Metering tab. The correct configuration will now be displayed. InTouch applications – Windows not displayed properly Q: When an InTouch application containing PMCS Wizards has its resolution changed, the fonts in the wizard are not sized correctly.
Appendix A: EPM 3720 Sliding Window Demand Keys Downloading Sliding Demand Window Keys to the EPM 3720 The EPM 3720 supports up to 10 sliding demand measurements that are userprogrammable via the Tabular Data screen wizard. The Sliding Demand tab offers a set of adjustable fields, into which a user can enter a key (a unique string of values) which, when downloaded to the EPM 3720, will trigger a measurement.
256 #1 #2 #3 & #4 Sliding Window Key Thumbwheel Settings Class Subclass Instance Measurement 4 3 00 Volts LN Average HS STD TD SD PD 4 3 01 Volts LN Phase A HS STD TD SD PD 4 3 02 Volts LN Phase B HS STD TD SD PD 4 3 03 Volts LN Phase C HS STD TD SD PD 4 3 04 Volts LL Average HS STD TD SD PD 4 3 05 Volts LL Phase AB HS STD TD SD PD 4 3 06 Volts LL Phase BC HS STD TD SD PD 4 3 07 Volts LL Phase CA HS STD TD SD PD 4 3 08 Amps Average HS STD TD SD PD 4 3
257 #1 #2 #3 & #4 Sliding Window Key Thumbwheel Settings Class Subclass Instance Measurement 4 3 29-2F Reserved 4 3 30 I2T Avg.
258 #1 #2 #3 & #4 Sliding Window Key Thumbwheel Settings Class Subclass Instance Measurement Supported Modes 4 3 88 V1 HD - Harmonic #1 STD TD SD PD 4 3 89 V2 HD - Harmonic #1 STD TD SD PD 4 3 8A V3 HD - Harmonic #1 STD TD SD PD 4 3 8B VAUX HD - Harmonic #1 STD TD SD PD 4 3 8C I1 HD - Harmonic #1 STD TD SD PD 4 3 8D I2 HD - Harmonic #1 STD TD SD PD 4 3 8E I3 HD - Harmonic #1 STD TD SD PD 4 3 8F I4 HD - Harmonic #1 STD TD SD PD 4 3 90 V1 HD - Harmonic #2
259 #1 #2 #3 & #4 Sliding Window Key Thumbwheel Settings Class Subclass Instance Measurement Supported Modes 4 3 AE I3 HD - Harmonic #5 STD TD SD PD 4 3 AF I4 HD - Harmonic #5 STD TD SD PD 4 3 B0 V1 HD - Harmonic #6 STD TD SD PD 4 3 B1 V2 HD - Harmonic #6 STD TD SD PD 4 3 B2 V3 HD - Harmonic #6 STD TD SD PD 4 3 B3 VAUX HD - Harmonic #6 STD TD SD PD 4 3 B4 I1 HD - Harmonic #6 STD TD SD PD 4 3 B5 I2 HD - Harmonic #6 STD TD SD PD 4 3 B6 I3 HD - Harmonic #6
260 #1 #2 #3 & #4 Sliding Window Key Thumbwheel Settings Class Subclass Instance Measurement Supported Modes 4 3 D4 I1 HD - Harmonic #10 STD TD SD PD 4 3 D5 I2 HD - Harmonic #10 STD TD SD PD 4 3 D6 I3 HD - Harmonic #10 STD TD SD PD 4 3 D7 I4 HD - Harmonic #10 STD TD SD PD 4 3 D8 V1 HD - Harmonic #11 STD TD SD PD 4 3 D9 V2 HD - Harmonic #11 STD TD SD PD 4 3 DA V3 HD - Harmonic #11 STD TD SD PD 4 3 DB VAUX HD - Harmonic #11 STD TD SD PD 4 3 DC I1 HD - Harmo
#1 #2 #3 & #4 Sliding Window Key Thumbwheel Settings Class Subclass Instance Measurement Supported Modes 4 3 FA V3 HD - Harmonic #15 STD TD SD PD 4 3 FB VAUX HD - Harmonic #15 STD TD SD PD 4 3 FC I1 HD - Harmonic #15 STD TD SD PD 4 3 FD I2 HD - Harmonic #15 STD TD SD PD 4 3 FE I3 HD - Harmonic #15 STD TD SD PD Table A-1. EPM 3720 Sliding Window Demand Keys.
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Appendix B: Automatic Waveform Capture and Waveform Retrieval on EPM3720 Using a setpoint to trigger waveform capture or record on the EPM 3720 When a Setpoint is programmed from the MMI, the EPM3720 has the ability to automatically capture or record waveforms based on the value of a specified parameter. In order to display a Waveform Capture, the meter takes 128 samples from a full cycle of any single selected channel.
Capture Channel X where X represents an integer between 1 and 8. Following are the Channel assignments for Wye and Delta systems. 7. Press the Download key. This will transmit the values entered into the Setpoints tabular screen for the selected setpoint number to the device. After several seconds press the Refresh button and scroll to the selected setpoint to verify that the device has accepted the setpoint entered parameters. 8.
#1 #2 #3 & #4 Trigger Key Thumbwheel Setting Class Sub-class Instance Meaning 0 0 00 Null Object Identifier 1 0 00-05 Digital Inputs (Status Inputs) 1 1 00-02 Digital Outputs (Relays) 1 2 00-07 Analog Inputs (Voltage & Current Inputs) 1 3 00 Analog Outputs (IOUT) 1 4 00-05 Digital Inputs (Status Inputs) -- Status 1 5 00-02 Digital Outputs (Relays) -- Status 1 8 00-05 Digital Inputs (Status Inputs) -- Counter 1 9 00-02 Digital Outputs (Relays) -- Counter 1 C 00-0
#1 #2 #3 & #4 Trigger Key Thumbwheel Setting Class Sub-class Instance Meaning 4 A see valid instances below Thermal Demand Maximum 4 B see valid instances below Sliding Window Demand Maximum 4 C see valid instances below Hours - Net (Import - Export) 4 D see valid instances below Hours - Import 4 E see valid instances below Hours - Export 4 F see valid instances below Hours - Total (Import + Export) ß 266 Instance Measurement Supported Modes 00 Volts LN Average HS STD
#1 #2 #3 & #4 Trigger Key Thumbwheel Setting Class Sub-class Instance Meaning 17 kVAR Phase C STD TD SD PD 18 kVA Total HS STD TD SD PD HRS 19 kVA Phase A HS STD TD SD PD 1A kVA Phase B HS STD TD SD PD 1B kVA Phase C HS STD TD SD PD 1C PF Total STD TD SD PD 1D PF Phase A STD TD SD PD 1E PF Phase B STD TD SD PD 1F PF Phase C STD TD SD PD 20 Frequency HS STD TD SD PD 267 21-23 Reserved 24 Phase Reversal (0 or 1) 25-27 Reserved 28 VAUX 29-2F Reserved 30 I2T Avg
#1 #2 #3 & #4 Trigger Key Thumbwheel Setting Class Sub-class Instance Meaning 7B VAUX HD - Total Even STD TD SD PD 7C I1 HD - Total Even STD TD SD PD 7D I2 HD - Total Even STD TD SD PD 7E I3 HD - Total Even STD TD SD PD 7F I4 HD - Total Even STD TD SD PD 80 V1 HD - Total STD TD SD PD 81 V2 HD - Total STD TD SD PD 82 V3 HD - Total STD TD SD PD 83 VAUX HD - Total STD TD SD PD 84 I1 HD - Total STD TD SD PD 85 I2 HD - Total STD TD SD PD 86 I3 HD - Total STD TD SD PD 8
#1 #2 #3 & #4 Trigger Key Thumbwheel Setting Class Sub-class Instance Meaning A2 V3 HD - Harmonic #4 STD TD SD PD A3 VAUX HD - Harmonic #4 STD TD SD PD A4 I1 HD - Harmonic #4 STD TD SD PD A5 I2 HD - Harmonic #4 STD TD SD PD A6 I3 HD - Harmonic #4 STD TD SD PD A7 I4 HD - Harmonic #4 STD TD SD PD A8 V1 HD - Harmonic #5 STD TD SD PD A9 V2 HD - Harmonic #5 STD TD SD PD AA V3 HD - Harmonic #5 STD TD SD PD AB VAUX HD - Harmonic #5 STD TD SD PD 269 AC I1 HD - Harmonic #5 ST
#1 #2 #3 & #4 Trigger Key Thumbwheel Setting Class Sub-class Instance Meaning C9 V2 HD - Harmonic #9 STD TD SD PD CA V3 HD - Harmonic #9 STD TD SD PD CB VAUX HD - Harmonic #9 STD TD SD PD CC I1 HD - Harmonic #9 STD TD SD PD CD I2 HD - Harmonic #9 STD TD SD PD CE I3 HD - Harmonic #9 STD TD SD PD CF I4 HD - Harmonic #9 STD TD SD PD D0 V1 HD - Harmonic #10 STD TD SD PD D1 V2 HD - Harmonic #10 STD TD SD PD D2 V3 HD - Harmonic #10 STD TD SD PD D3 VAUX HD - Harmonic #10 STD
#1 #2 #3 & #4 Trigger Key Thumbwheel Setting Class Sub-class Instance Meaning F0 V1 HD - Harmonic #14 STD TD SD PD F1 V2 HD - Harmonic #14 STD TD SD PD F2 V3 HD - Harmonic #14 STD TD SD PD F3 VAUX HD - Harmonic #14 STD TD SD PD F4 I1 HD - Harmonic #14 STD TD SD PD F5 I2 HD - Harmonic #14 STD TD SD PD F6 I3 HD - Harmonic #14 STD TD SD PD F7 I4 HD - Harmonic #14 STD TD SD PD F8 V1 HD - Harmonic #15 STD TD SD PD F9 V2 HD - Harmonic #15 STD TD SD PD FA V3 HD - Harmonic #15
#1 #2 #3 & #4 Trigger Key Thumbwheel Setting Class Sub-class Instance Meaning 0A Amps Phase B HS STD TD SD PD 0B Amps Phase C HS STD TD SD PD 0C Amps Neutral HS STD TD SD PD 0D Reserved 272 0E Volts Imbalance (0-100) HS STD TD SD PD 0F Amps Imbalance (0-100) STD TD SD PD 10 kW Total HS STD TD SD PD HRS 11 kW Phase A HS STD TD SD PD 12 kW Phase B HS STD TD SD PD 13 kW Phase C HS STD TD SD PD 14 kVAR Total STD TD SD PD HRS 15 kVAR Phase A STD TD SD PD 16 kVAR Phase
#1 #2 #3 & #4 Trigger Key Thumbwheel Setting Class Sub-class Instance Meaning 6E I3 HD - K-Factor STD TD SD PD 6F I4 HD - K-Factor STD TD SD PD 70 V1 HD - Total Odd STD TD SD PD 71 V2 HD - Total Odd STD TD SD PD 72 V3 HD - Total Odd STD TD SD PD 73 VAUX HD - Total Odd STD TD SD PD 74 I1 HD - Total Odd STD TD SD PD 75 I2 HD - Total Odd STD TD SD PD 76 I3 HD - Total Odd STD TD SD PD 77 I4 HD - Total Odd STD TD SD PD 78 V1 HD - Total Even STD TD SD PD 79 V2 HD - Total
#1 #2 #3 & #4 Trigger Key Thumbwheel Setting Class Sub-class Instance Meaning 95 I2 HD - Harmonic #2 STD TD SD PD 96 I3 HD - Harmonic #2 STD TD SD PD 97 I4 HD - Harmonic #2 STD TD SD PD 98 V1 HD - Harmonic #3 STD TD SD PD 274 99 V2 HD - Harmonic #3 STD TD SD PD 9A V3 HD - Harmonic #3 STD TD SD PD 9B VAUX HD - Harmonic #3 STD TD SD PD 9C I1 HD - Harmonic #3 STD TD SD PD 9D I2 HD - Harmonic #3 STD TD SD PD 9E I3 HD - Harmonic #3 STD TD SD PD 9F I4 HD - Harmonic #3 STD
#1 #2 #3 & #4 Trigger Key Thumbwheel Setting Class Sub-class Instance Meaning BC I1 HD - Harmonic #7 STD TD SD PD BD I2 HD - Harmonic #7 STD TD SD PD BE I3 HD - Harmonic #7 STD TD SD PD BF I4 HD - Harmonic #7 STD TD SD PD C0 V1 HD - Harmonic #8 STD TD SD PD C1 V2 HD - Harmonic #8 STD TD SD PD C2 V3 HD - Harmonic #8 STD TD SD PD C3 VAUX HD - Harmonic #8 STD TD SD PD C4 I1 HD - Harmonic #8 STD TD SD PD C5 I2 HD - Harmonic #8 STD TD SD PD C6 I3 HD - Harmonic #8 STD TD SD
#1 #2 #3 & #4 Trigger Key Thumbwheel Setting Class Sub-class Instance Meaning E3 VAUX HD - Harmonic #12 STD TD SD PD E4 I1 HD - Harmonic #12 STD TD SD PD E5 I2 HD - Harmonic #12 STD TD SD PD E6 I3 HD - Harmonic #12 STD TD SD PD E7 I4 HD - Harmonic #12 STD TD SD PD E8 V1 HD - Harmonic #13 STD TD SD PD E9 V2 HD - Harmonic #13 STD TD SD PD EA V3 HD - Harmonic #13 STD TD SD PD EB VAUX HD - Harmonic #13 STD TD SD PD EC I1 HD - Harmonic #13 STD TD SD PD ED I2 HD - Harmonic #
The action keys specify the instance number for an object to perform an action on.
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Appendix C: EPM 7700 - Special Considerations EPM 7700 Tags Subject to Deactivation by Tabular Data Screen Wizard This appendix lists the EPM 7700 tags which may be activated or deactivated by the EPM 7700 Tabular Data Screen wizard. This information is of use for developers creating their own wizards to access the EPM 7700’s data. If you wish to use a tag in a custom wizard you are developing, check this table to see if it is subject to deactivation by the Tabular Data Screen wizard.
Memory Discrete Comment Subject to deactivation? DeviceNm_CommFail Comm Fail Indicator for Pegasys DDE Server - ION_LINK N I/O Discrete Comment DeviceNm_24576 PHASE_REVERSAL Y DeviceNm_24577 DIO1 Y DeviceNm_24578 DIO2 Y DeviceNm_24579 DIO3 Y DeviceNm_24580 DIO4 Y DeviceNm_24581 DIO5 Y DeviceNm_24582 DIO6 Y DeviceNm_24583 DIO7 Y DeviceNm_24584 DIO8 Y DeviceNm_24721_GWY Enable_SagSwell N DeviceNm_24721 External Boolean 3 - Enable Sag Swell Y DeviceNm_24722_GWY Enable_
Memory Discrete Comment Subject to deactivation? DeviceNm_26804_GWY Reset_Dist_Cnt N Memory Integer Comment DeviceNm_28672_Anlg PT Primary N DeviceNm_28673_Anlg PT Secondary N DeviceNm_28674_Anlg Ct Primary N DeviceNm_28675_Anlg Ct Secondary N DeviceNm_28676_Anlg I4 CT Primary N DeviceNm_28677_Anlg I4 CT Secondary N DeviceNm_Display_Screen Display Screen for Lrg Faceplate N DeviceNm_ResetButton Reset Command Code N DeviceNm_Tab Tag to indicate tab on tabular N DeviceNm_Res
Memory Real Comment DeviceNm_28853_Anlg KVAR SWD SUB INTERVAL N DeviceNm_28854_Anlg KVA SWD SUBINTERVAL N DeviceNm_28855_Anlg IAVG SWD SUB INTERVAL N DeviceNm_28868_Anlg KW SWD #SUB INTERVALS N DeviceNm_28869_Anlg KVAR SWD #SUB INTERVALS N DeviceNm_28870_Anlg KVA SWD #SUB INTERVALS N DeviceNm_28871_Anlg IAVG SWD #SUB INTERVALS N DeviceNm_28884_Anlg KW SWD PREDICTED RESPONSE N DeviceNm_28885_Anlg KVAR SWD PREDICTED RESPONSE N DeviceNm_28886_Anlg KVA SWD PREDICTED RESPONSE N De
Memory Real Comment DeviceNm_29730_Anlg Over Vunbal Time On N DeviceNm_29736_Anlg Over KW Time Off N DeviceNm_29737_Anlg Over Ia Time Off N DeviceNm_29738_Anlg Over Ib Time Off N DeviceNm_29739_Anlg Over Ic Time Off N DeviceNm_29740_Anlg Over Vunbal Time Off N DeviceNm_UniversalClock Universal Clock Time N I/O Real Comment DeviceNm_22528 VLN_A N DeviceNm_22529 VLN_B N DeviceNm_22530 VLN_C N DeviceNm_22531 VLN_AVG N DeviceNm_22532 VLL_AB N DeviceNm_22533 VLL_BC N De
I/O Real Comment DeviceNm_22559 PFLEAD_TOTAL N DeviceNm_22560 PFLAG_A Y DeviceNm_22561 PFLAG_B Y DeviceNm_22562 PFLAG_C Y DeviceNm_22563 PFLAG_TOTAL N DeviceNm_22564 V_UNBAL Y DeviceNm_22565 I_UNBAL Y DeviceNm_22566 I_4 Y DeviceNm_22567 LINE_FREQUENCY Y DeviceNm_22656 KW_SWD N DeviceNm_22657 KVAR_SWD N DeviceNm_22658 KVA_SWD N DeviceNm_22659 IAVG_SWD N DeviceNm_22672 KW_PD Y DeviceNm_22673 KVAR_PD Y DeviceNm_22674 KVA_PD Y DeviceNm_22675 IAVG_PD Y DeviceN
I/O Real Comment DeviceNm_22739 KW_TD_MIN Y DeviceNm_22740 FREQ_MIN Y DeviceNm_22741 PF_LEAD_MIN Y DeviceNm_22742 PFLAG_TOTAL_MIN Y DeviceNm_22743 V1_THD_MIN Y DeviceNm_22744 V2_THD_MIN Y DeviceNm_22745 V3_THD_MIN Y DeviceNm_22746 IA_THD_MIN Y DeviceNm_22747 IB_THD_MIN Y DeviceNm_22748 IC_THD_MIN Y DeviceNm_22749 I4_MIN Y DeviceNm_22750 IA_KFACTOR_MIN Y DeviceNm_22751 IB_KFACTOR_MIN Y DeviceNm_22752 VLN_A_MAX Y DeviceNm_22753 VLN_B_MAX Y DeviceNm_22754 VLN_C_M
I/O Real Comment DeviceNm_22779 IB_THD_MAX Y DeviceNm_22780 IC_THD_MAX Y DeviceNm_22781 KVAR_TD_MAX Y DeviceNm_22782 KVA_TD_MAX Y DeviceNm_22783 I4_MAX Y DeviceNm_22847 V1_THD N DeviceNm_22913 V2_THD N DeviceNm_22979 V3_THD N DeviceNm_23045 I1_TOTAL_HD N DeviceNm_23048 I1_KFACTOR N DeviceNm_23112 I2_TOTAL_HD N DeviceNm_23115 I2_KFACTOR N DeviceNm_23179 I3_TOTAL_HD N DeviceNm_23182 I3_KFACTOR N DeviceNm_23246 I4_TOTAL_HD N DeviceNm_23249 I4_KFACTOR N DeviceNm
I/O Real Comment DeviceNm_23285 VNEG_SEQ_MAG Y DeviceNm_23286 VNEG_SEQ_PHS Y DeviceNm_23287 IZERO_SEQ_MAG Y DeviceNm_23288 IZERO_SEQ_PHS Y DeviceNm_23289 IPOS_SEQ_MAG Y DeviceNm_23290 IPOS_SEQ_PHS Y DeviceNm_23291 INEG_SEQ_MAG Y DeviceNm_23292 INEG_SEQ_PHS Y DeviceNm_24023 TRANSIENT_NOM Y DeviceNm_24023_GWY TRANSIENT_NOM N DeviceNm_24074 IC_KFACTOR_MIN Y DeviceNm_24075 I4_KFACTOR_MIN Y DeviceNm_24076 I4_THD_MIN Y DeviceNm_24077 KVAR_TD_MIN Y DeviceNm_24078 KVA_TD
I/O Real Comment DeviceNm_28869 KVAR SWD #SUB INTERVALS Y DeviceNm_28869_GWY KVAR SWD #SUB INTERVALS N DeviceNm_28870 KVA SWD #SUB INTERVALS Y DeviceNm_28870_GWY KVA SWD #SUB INTERVALS N DeviceNm_28871 IAVG SWD #SUB INTERVALS Y DeviceNm_28871_GWY IAVG SWD #SUB INTERVALS N DeviceNm_28884 KW SWD PREDICTED RESPONSE Y DeviceNm_28884_GWY KW SWD PREDICTED RESPONSE N DeviceNm_28885 KVAR SWD PREDICTED RESPONSE Y DeviceNm_28885_GWY KVAR SWD PREDICTED RESPONSE N DeviceNm_28886 KVA SWD
I/O Real Comment DeviceNm_29699 OVER_IC_DOOVER Y DeviceNm_29699_GWY Over Ic Over Dropout N DeviceNm_29700 OVER_VUN_DOOVER Y DeviceNm_29700_GWY Over Vunbal Over Dropout N DeviceNm_29706 OVER_KW_PUUNDER Y DeviceNm_29706_GWY Over KW Under Pickup N DeviceNm_29707 OVER_IA_PUUNDER Y DeviceNm_29707_GWY Over Ia Under Pickup N DeviceNm_29708 OVER_IB_PUUNDER Y DeviceNm_29708_GWY Over Ib Under Pickup N DeviceNm_29709 OVER_IC_PUUNDER Y DeviceNm_29709_GWY Over Ic Under Pickup N Devi
I/O Real Comment DeviceNm_29739 OVER_IC_OFF Y DeviceNm_29739_GWY Over Ic Time Off N DeviceNm_29740 OVER_VUN_OFF Y DeviceNm_29740_GWY Over Vunbal Time Off N Memory Message Comment DeviceNm_30720_Msg Voltage Mode Message N DeviceNm_30721_Msg Ia Polarity N DeviceNm_30722_Msg Ib Polarity N DeviceNm_30723_Msg Ic Polarity N DeviceNm_30724_Msg Phase Order N DeviceNm_31032_Msg Waveform Recorder Format N DeviceNm_31305_Msg I4 Polarity N DeviceNm_31306_Msg Va Polarity N DeviceN
I/O Message Comment DeviceNm_4937 Ethernet_Subnet Y DeviceNm_4938 Ethernet_DGateway Y DeviceNm_22608 Analog1 Value Y DeviceNm_22609 Analog2_Value Y DeviceNm_22610 Analog3_Value Y DeviceNm_22611 Analog 4_Value Y DeviceNm_22704 KWH_IMPRT N DeviceNm_22705 KWH_EXPRT N DeviceNm_22706 KWH_TOT N DeviceNm_22707 KWH_NT N DeviceNm_22708 KVARH_IMPRT N DeviceNm_22709 KVARH_EXPRT N DeviceNm_22710 KVARH_TOT N DeviceNm_22711 KVARH_NT N DeviceNm_22712 KVAH_TOT N DeviceNm_29161
I/O Message Comment DeviceNm_31309 Comm2_Baud Y DeviceNm_31310 Comm3_Baud Y DeviceNm_31311 Comm1_Protocol Y DeviceNm_31312 Comm2_Protocol Y DeviceNm_31313 Comm3_Protocol Y DeviceNm_31314 Ethernet_Protocol Y 292 PMCS Interface Toolkit
Index event, 96, 99 2 239 Motor Protection Relay, 171 269 Plus Motor Management Relay, 87, 88, 175 3 F Fanuc, 216, 217 Floor Plan wizards, 5, 23 Floor Plans, 55, 57 369 Motor Management Relay, 176 5 I Interface Toolkit, 1, 3, 5 565 Feeder Management Relay, 92, 198 7 L Large Faceplate Wizards, 8 Lockout/Tagout wizard, 42 735 Feeder Relay, 200 9 90/30, 216 90/70, 216 A MDP Digital Overcurrent Relay, 107 Micro 90, 217 MMII (Motor Manager II), 119 P PMCS Interface Toolkit, 1 POWER LEADER EPM, 68,
T UR, 150 Tabular Data Screen Wizards, 11, 99 Toolbar wizard, 24 W waveform capture, 99 U Universal Relay, 150 Universal Relay Devices, 150 294 • Index PMCS Interface Toolkit
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