USER`S MANUAL - Schneider Electric
Contents
1. 126 Copying Waveforms Using the Clipboard l nennen 126 ii u E 126 Saving Data from Tables and Trend Plots to a File 127 Chapter 16 Customizing the Software U l u u u u J 128 Setting Up Groups x iwi acetate ce h HERE NEE eee 128 E Wee TEE 129 Creating Custom Tables tete Lame dette e Lada R nu e don RR E iaaa 130 Defining Custom Quantities n a 131 Chapter 1 DiagQnostics ian D c 136 Performing a System Communications Test 136 System DEVICE Status iav eee o tfe tbe E eec ex aos gaa 136 Correcting Mismatches in Device Setup Data I eene 137 Reestablishing Communication with Devices Y 138 Placing Devices In and Out of Service U nnne 139 Reading and Writing Registers U ennemis 140 Displaying Circuit Monitor Onboard Data 141 Seeing Who s Connected to the a 142 Chapter 18 Using Dynamic Data Exchange DDE 143 SMS Serving Data to Microsoft Excel SMS as a DDE Server 143 Changing the DDE Update Internal 145 Appendix A Viewing and Printing System Information 146 Appendix B Abbreviations fo2. Tasks Captu Non Equal Severity NO ALARM e Annotation Name No Phase Loss Es B Tasks NO TASK Close Help 3 Enter the desired settings in the dialog box See the Digital Function Setpoint table on the next page for a description of each item in the dialog box Note If you defined the function using a pre defined digital quantity the Equal condition is true when the monitored bit is On bit 1 and the Non Equal condition is true when the monitored bit is Off bit 0 If you defined the function using a digital custom quantity the Equal condition is true when the bits in the monitored register match are equal to the bitmap you defined when creating the custom quantity For example assume that you ve defined the custom quantity bitmap as follows Setup Bitmask x Register two N A 31 16 ES ES rad ad ra rad Pad rt s Status Names True False Open Closed E 1996 Square All Rights Reserved At this field Chapter 6 Setting Up Functions and Alarms When bit 0 of the monitored register 1 the Equal condition is true When bit 0 0 the Non Equal condition is true If you had set the bitmap as shown below then when bit 0 0 the Equal condition would be true When bit 0 1 the Non Equal condition would be true d spa pa dos b xd x xx x x ol Note The time delay must also be satisfied before a condition becomes true See the descri
3. dnyprg s n eA Alan Anisod sayy VAM puewaq VAM poytpedg 1940 I9 O aseyg 10120 J J 1940 09 q seud 1012e y 1940 6G V eset 10L J J 1940 ER V O aseyd eoA AHL 140 LG Org seuq SeyoA AHL 140 96 dv asey LIOA AHL J9AO 96 N O seud Zeg AHL 1240 TG N g eseug 8 JloA AHL 1940 69 N V seuq eyoA AHL 26 modoa1p z dnypid 2 aseyg Wan AHL 240 IS jnodorzp uey oun onpeA 214 q aseyg juam HI 1940 06 p p u H syzu 01 senpeA eurpop am of sulu V aseyg quar AHL 1940 ep 8r D AT S Hi 030 lopey 10126 Jamod SY nin uo p seq ale FF pue p sue Spa Jamog Juawaoeydsiq Surpe 7 OF 10p j Jamod Juawade dsip uo p seq are oy pue swere yey daoxa syypuesnoy ur 15301 10326 A Anp ds r yp pue cy swere se aures ay uoun 9r pue cp sure Jopey Jamog juouro e dsiq Su Ze Gp s ldulex4 S u ulul02 Sy4EUl H spun nodosg dny3 d uonduoseg ON Wey 1996 Square D All Rights Reserved 168 Appendix C Entering Pickup and Dropout Setpoints and Delays UO 0 yo uontsue1 g mdu 28 UO 0 yo uontsue1 jndu 18 UO 0 yo uontsue1 9 Jndul 08 40 0 DO uontsue1 c jnduy 6L UO 0 HO uontsue1 y duy 8L 93615 JJO au 0 yoq sadueyp snes mdur ay uei mo dorp UC 01 HO uonisuei T c mdu LL SULIETY UO 0 o Wo sa8ueyp snye s dur emp ompour O T ay uayM uQ 0 HO uontsue1 z 1ndu ou dn ypid
4. Device Function Type LastSampe State cm main Voltage AN A 09 16 96 10 14 43 cm main Voltage Unbalance P D 09 16 96 10 14 43 of F em main Curent Saq Ph CAL 09 16 96 10 14 43 on The table columns are Device the device name Function the function name Type A analog D digital Last Sample the date time stamp for when this sample was taken State for digital functions the name given to the Equal or Non Equal condition 1996 Square D All Rights Reserved 43 Bulletin 30801M9601 Chapter 5 Advanced On Board Setup for Series 2000 Circuit Monitors This chapter applies only to the Series 2000 Circuit Monitors CM 2050 and higher Before you follow the instructions in this chapter be sure that you are familiar with the capabilities of the circuit monitors in your system You may need to refer to the section Circuit Monitor Models Feature Comparison in Chapter 3 Basic System Setup and Operation The Series 2000 Circuit Monitor setup process consists of four parts Basic setup Set up basic parameters such as PT and CT ratios demand interval demand type and system type Basic setup for circuit monitors is described in Chapter 3 Basic System Setup and Operation The other three setup tasks are described in this chapter Input output module setup Set up relay outputs analog inputs and analog out puts The circuit monitor must be equipped with an optional input output module e
5. The Toolbar Icons allow you to access commands more quickly by simply clicking on an icon The icons correspond to commands in the pull down menus For a descrip tion of each icon and its use see Parts of the Toolbar later in this chapter Use the Sampling Mode Line to set the rate at which SMS updates and displays new real time data such as meter displays List Box A list box displays a list of selections You can choose one item in the list To use click the arrow button the list drops down then click an item from the list to select it List A list displays the available selections You can usually select more than one item from a list Tree Structure Lists Many lists in SMS for example lists of groups with their devices are compressed when first viewed you can see only the first level To expand the tree structure click the beside first level entry the changes toa and the second level entries display To close the tree click the uon Add and Delete Buttons Many dialog boxes allow you to add or delete information from lists To add or delete a single item click the item name then click gt to add or lt to delete To add or delete the entire list click gt gt to add all or lt lt to delete all Drag and Drop Another way to move or copy an item from one list to another To use this feature click an item in the list still holding the mouse button
6. Arithmetic Sum The arithmetic sum of the magnitudes of the fundamental and individual harmonics as opposed to the vectorial sum THD Total Harmonic Distortion of Fundamental The square root of the sum of the squares of the individual harmonic magnitudes divided by the magnitude of the fundamental Telephone Interference Factor I T A calculated value which gives a measure of the power circuit s ability to cause interference with communications circuitry in proximity to the power circuit H1 H2 H31 Fundamental H1 Harmonic Magnitudes through the 31st Exporting the Waveform File to Disk You can save any displayed waveform to a data file on your PC or on any other PC in your network At a later time you can retrieve the file for reference To save a waveform capture storing it in an SMS data file follow these steps 1 Acquire a new waveform following steps on the previous pages Or retrieve a previously captured waveform file that has been saved in on board storage of a circuit monitor 1996 Square D All Rights Reserved 105 Bulletin 30801M9601 Exporting the Waveform File to Disk cont 2 Click E on the waveform toolbar The Export Waveform dialog box displays Export Waveform 2 x Save in aos 0 zl ral ek 12cycle dat 4cycle dat File name Save as type DaDisp Format dat zi Cancel Open as read only Help 3 The default directory Export is
7. Working Directory c msoffice excel Browse Wait on Completion Help 1996 Square D All Rights Reserved 81 Bulletin 30801M9601 4 Enter information in the dialog box as described in the EXE Task Type Edit table Click Finish when done SMS returns to the Tasks dialog box At this field EXE Task Type Edit Table Do this Command Type the command line which includes the location and name of the execut able program and any optional command line parameters or click in the Command box then click the Browse button to locate the executable Working Directory Type the working directory that the executable program will use Wait On Completion When you check this box the task will not be logged in the event log until the executable program has finished running OK Click when you ve finished defining the program task Cancel Click to leave the screen without saving changes Creating a New Resets ask To create a new reset task follow these steps 1 Task Name Reset Energy Task Type Resets m Click Add The New Task dialog box displays Cancel Help Type the Task Name up to 255 ASCII characters no spaces In the Task Type box click Resets then click Continue SMS displays the Reset Task dialog box Task Reset Energy Device Type Devices Available All Devices m Main1 Resets Available REREH Circuit Monitor 2000
8. lt All Devices E ER e 2 From the Tables Available box click the standard table you want to display 3 In the Devices Available box select the device s or group s for which you want to display data move them to the Devices Selected box Notes Always select the table before you select the device s The table that you select will limit the devices for which you can display information For example if you select 810D Breaker Status the Devices Available list will include only 810D circuit breakers that you have set up as devices in your system 4 Click OK 5 The table you requested displays 36 1996 Square D All Rights Reserved Chapter 4 Displaying Real time Data A sample table displaying power factor readings for a single device is shown below If you display a single device table and select multiple quantities click a device at the left of the table to see data for that device If you select a multiple device table data for each device displays for comparison 3B cm main Power Factor Readings Power Factor Readings Time 3 28 02 PM Device cm main Date 9 15 96 Last Reset min max 09 10 96 11 30 02 AM l Minimum Present Maximum True Power Factors Phase A 0 736 Lag 0 951 Lag 1 Phase B 0 733 Lag 0 951 Lag 1 Phase C 0 734 Lag 0 950 Lag 1 3 Phase Total 0 735 Lag 0 951 Lag 1 Displacement Power Factors Phase A 0 868 Lag 0 988 Lag 0 994 Lag Phase B
9. Chapter 12 Working with Waveforms Retrieving an On Board Waveform File To view a waveform that is stored on board the circuit monitor follow these steps 1 Following steps 1 2 on the previous pages display the Acquire Waveform dialog box Acquire From Acquire New Bi File a B 4 Cycle 07 23 96 10 15 09 AM E Extended 07 23 96 03 43 39 AM Dk Cancel 2 Click Onboard SMS lists the waveforms that have been stored on board the circuit monitor If both 4 cycle and extended waveforms are stored they are listed separately by the date and time of their capture 3 Double click the name of the waveform file that you want to view SMS displays the waveform file Importing a Stored Waveform File Import Option Note Be sure that all waveforms from all client PCs are exported to a common location on the server PC This ensures that all clients will be able to retrieve all waveforms regardless of the location from which they were acquired and stored Waveforms that are stored on one client PC are not retrievable from other client PCs To view a waveform that is stored in an SMS data system file follow these steps 1 On the Display menu click Waveform Plots or click the Waveform toolbar icon Fel SMS displays the Waveform Source dialog box Waveform Source x WFC Source D All Devices o IO Finishing D Import Waveform D Paintline 2 Double click Import
10. OK Cancel Help lt Resets Chosen 4 Cycle Wave Form Lo Accumulated Energy Conditional Energy Device Date Time Incremental Energy Inte Min Max Deos Drs S y El el m Accumulated Energy 4 In the Device Type box select the type of device 1996 Square D All Rights Reserved Chapter 7 Using Tasks to Automate Processes In the Devices Available box click the desired devices and drag them to the Devices Chosen box or use the lt gt buttons In the Resets Available box click the desired resets and drag them to the Resets Chosen box or use the arrow buttons Click OK when done SMS returns to the Tasks dialog box The new Resets task appears in the Tasks list Creating a New CM2000 Onboard Data Log V veform Upload Task Note Before creating an onboard data log waveform upload task reset the waveform log using the Resets command on the Control menu This prevents old waveform data from being uploaded when the waveform upload task executes To create an onboard data log waveform upload task follow these steps 1 Click Add The New Task dialog box displays New Task ix Task Name Upload CMLog Cancel Task Type CM2000 Onboard Data LogA r sssi Help Type the Task Name up to 255 ASCII characters no spaces In the Task Type box click CM2000 Onboard Data Log Upload then click Continue SMS displays the Upload Onboard Data Logs dialog b
11. Only circuit monitor models CM 2150 and higher are equipped with on board storage Note SMS must be online to your system to set up On Board Data Storage If SMS is not online the On Board Data Storage tab is grayed out Also we recommend that you put SMS in manual update mode while you set up on board data storage If you are not already viewing the On Board Data Storage tab follow these steps to display the tab 1 On the Setup menu click Devices Routing SMS displays the Device Setup dialog box 2 In the Devices box click a Series 2000 Circuit Monitor model CM 2150 or higher then click the Configure button 3 Click the On Board Data Storage tab See View Log Quantities Circuit Monitor Storage Considerations The amount of memory available for storing events waveform captures and historical data on board the circuit monitor depends on the circuit monitor model When you set up a circuit monitor s on board storage you must allocate the available memory among 1996 Square D All Rights Reserved Chapter 5 Advanced Series 2000 Circuit Monitor Setup the event log waveform capture logs and data logs SMS has two tools that can help as you set up the circuit monitor s on board storage Allocated Memory Color Bar Indicator Memory Usage Summary As you enter values in the On board Data Storage dialog box the Allocated Memory Color Bar Indicator changes to show the percentage of
12. User Level LaVergne Plant SMS 3000 Server 07 17 96 14 42 31 High Comms Loss En 17 LaVergne Plant Device Type Map 07 17 96 14 42 25 High Comms Loss En 17 LaVergne Plant Device Type Map 07 17 96 14 38 41 Critical System D User Level SMS 3000 Server 07 17 96 14 31 41 Critical System Onli User Level LaVergne Plant SMS 3000 Server 07 17 96 14 31 40 High Compare F LaVergne Plant Device Compare 07 17 96 14 31 39 High Comms Loss Em 17 LaVergne Plant Device Type Map 07 17 96 14 31 32 High Comms Loss Em 17 LaVergne Plant Device Type Map 07 17 96 14 31 07 High Setup CM2 User sa LaVergne Plant Device Setup LAT OE 1344 50 Custam ffi User User Lawal CMS Sarvar To view the event detail window double click the desired event or click the event then click al Purging the Event Log Periodically you may vvish to purge the event log VVhen you purge the event log SMS deletes the specified events from the SMS database This does not delete other informa tion such as historical data stored in the database Use this feature vvith caution once you purge the event log you cannot recover the deleted events To purge the event log follovv these steps 1 On the VVindovvs menu click Event Log to vievv the event log 2 Click the delete button 5l SMS asks for your username and password 3 Enter your username and password and click OK MS displays the Log Delete Options dialog box S 4 Select All to delet
13. Waveform dialog box m SS Vel la E E 2 m voltage by Scrollgraph Scroll graph Display phase a b c to the left to the right online help For example click All to display all voltage and current phases click Va to display only phase A voltage Click the magnifying glass buttons to zoom in and out of the wave form alternately lengthening or shortening the x axis of the waveform Copying the Waveform Plot or Data Block to Other Windows Programs You can copy the waveform data block or waveform plots to the clipboard for export into other Windows programs Displaying a 4 Cycle Waveform Data Block You can view a waveform data block for any 4 cycle waveform plot The data block lists several items of data about that waveform see the table later in this section for a description of this data To access a waveform see Acquiring a New Waveform and Retrieving a Stored Waveform File both in this chapter 1996 Square D All Rights Reserved 103 Bulletin 30801M9601 Displaying a 4 Cycle Waveform Data Block cont To display the waveform data block complete the following steps 1 Acquire or retrieve a 4 cycle waveform plot SMS displays the selected waveform plots 4 Cycle Waveform cm main 10 04 96 16 35 49 A valv vel al bliclir gt e E 2 Phase A N Voltage Phase A Current h 3 A 3 Phase B N Voltage Phase B Current ff 3 d 3 Phase C N
14. 208 120 jwe zl Nominal Frequency PT 120 120 7 Autocale Scale Fact F Prom PTET 60Hz C 50Hz EC Relay Mode Pulse Follovv these steps to set up the povver meter Povver Meter Device Setup table At this field Do this 1 Label Enter a 1 to 4 character alphanumeric label to identify the povver meter The label typically is different for each power meter it is used for system displays This is not the device name vvhich is defined using the Routing command SMS displays the device name not the abel vvhen listing devices 2 Nameplate Enter a 1 to 16 character alphanumeric nameplate Most commonly associ ated vvith the monitored circuit the nameplate should reflect that connection For example if the povver meter is monitoring a vvelder on line 3 the nameplate might be VVelder Line 3 SMS uses this name in system displays 3 CT This is the turns ratio of the current transformers CTs supplying the povver meter vvith the current inputs Enter the primary and select the secondary For example for a 120 5 ratio enter 120 in the left box and select 5 in the spin box O 1996 Square D All Rights Reserved 27 Bulletin 30801M9601 Power Meter Setup cont At this field Do this 4 Range Select the voltage range For L N voltage less than 150 V select 208 120 for L N voltage between 150 V and 346 V select 480 277 for
15. Basic System Setup and Operation 2 Add the serial port route information Add Serial Port table At this field Do this 1 Connection Name SMS displays the name of the PC port to which this device connects This name was established when adding the device 2 Phone Enter the phone number for auto dial applications allowing SMS to automati cally poll remote devices Include any characters that must be entered when connecting with the modem If you must enter a 9 to get an outside line enter the 9 here If you need to allow for a delay getting an outside line enter a comma for each second of delay time You can enter the phone number with dashes If you are connecting to an internal extension enter only that extension An example of an outside connection is 9 555 1212 using 9 to get an outside line and two commas for a two second delay 3 Rt1 Rt8 Enter the route For help in creating routes refer to the Power Monitoring and Control System Planning Guide order no 3000CT9601 3 Click OK to save the route information and return to the Device Setup dialog box The information entered to this point allows you to access information collected from devices You can perform additional setup that you would otherwise perform locally at the front panel of that device This feature allows you to set up devices from one PC within SMS rather than having to waste time entering setup information a
16. Click OK Printing a Window If you want to print the contents of the active window use the Print command To print the active window follow these steps 1 2 3 Click inside the vvindovv to make it active On the File menu click Print Enter the desired settings in the Print dialog box and click OK Saving Data from Tables and Trend Plots to a File To save data from an instantaneous data table history table or trend plot to a file on your PC s hard disk follow these steps 1 2 Display the table or trend plot Move the pointer over the table or trend plot then double click using the right mouse button SMS starts Formula One the tool used to create tables and trend plots On the Formula One File menu click Write Formula One displays the Write File dialog box In the Write File dialog box choose a location enter a filename and select a Save As Type Then click Save Formula One saves the data to a file in the selected format 1996 Square D All Rights Reserved 127 Bulletin 3080IM9601 Chapter 16 Customizing the Software Setting Up Groups To make it easier to select devices SMS lets you define groups A group is a number of devices that have something in common for example devices that have a common voltage such as feeders devices that are grouped for billing purposes such as individual departments For example you might create a group consisting of all devic
17. Digital Function Name Feeder 1 Status Quantity Input 1 Status Equal condition name Closed Non Equal condition name Open Delay 0 Alarm None After defining the digital function and assigning it to the circuit monitor you must define two manual control outputs as described in the following table The dialog boxes on the next page illustrate the defined control outputs and associations Control ON Output Action Name Name Relay R1 Close Close Feeder 1 Relay R2 Open Open Feeder 1 OFF Action Name N A N A Association To associate with the On state of the 52 A auxiliary contact In the Add Control Output dialog box click the Associate button in the On 1 Action box In the Associated Condition dialog box Select the Feeder 1 Status digital function Enter a 5 second delay and select the Closed option button To associate with the Off state of the 52 A auxiliary contact In the Add Control Output dialog box click the Associate button in the Off 0 Action box In the Associated Condition dialog box Select the Feeder 1 Status digital function Enter a 5 second delay and select the Open option button 1996 Square D All Rights Reserved 175 Bulletin 3080IM9601 Add Control Output x Associated Condition E Control Output Name Close Feeder 1 Control Output Close Feeder 1 Predefined Jas k zi Q elay Devices Conditions Defin
18. For example assume that you had a Mains group and a Feeders group and that you want to log voltages and currents on the Mains but only currents on the Feeders Do not create a Voltages template and a Currents template and apply both to the Mains and only the currents template to the Feeders Instead create a template called Mains that includes voltages and currents and a template called Feeders that has only currents Assigning Log Emplates to Specific Devices After you ve created log templates as described above you must assign them to specific devices you assign templates on the Template Assignment tab of the Logging Setup dialog box If you are not already viewing the Logging Setup dialog box click Logging on the Setup menu to display it When you assign log templates on the Template Assignment tab you are preparing SMS to log data directly to the System Manager database on a computer s hard disk You can also assign log templates to Series 2000 Circuit Monitors to configure their on board memory see Setting Up Circuit Monitor On Board Memory in Chapter 5 for instructions To assign log templates to one or more devices that do not have onboard logging capability follow these steps 1 In the Logger Setup dialog box click the Template Assignment tab shown on the next page 1996 Square D All Rights Reserved Chapter 9 Data Logging Template Assignment Logger Templates l fi
19. Monitors for more information Override Control Output example If you use Over KW Demand Level 1 Alarm Number 67 in Appendix C to automatically energize relay R1 the R1 contact might be wired to an automatic transfer switch to start a generator and transfer some load from utility power to your generator Your motive for doing this may be to reduce peak demand charges from the utility for example See Appendix D for more details on this example 1996 Square All Rights Reserved Chapter 13 Control Outputs Suppose that the generator in the example was scheduled to be out of commission for maintenance During the maintenance period you might not want relay R1 to energize even if the Over KW Demand Level 1 alarm were to occur This is a situation in which an Override Control Output may be used to temporarily freeze R1 open during maintenance then place R1 back into automatic operation when maintenance is complete Also if you wanted to test generator operation after completing the maintenance you could temporarily force override R1 ON or OFF even though KW Demand is below the pickup setpoint at the time of the test More About the Series 2000 Circuit Monitors For the Series 2000 Circuit Monitor relay outputs it is important to understand the concepts of on board operation and overrides Each Series 2000 Circuit Monitor relay output can be configured for onboard operation The section Setting Up Relay Outputs in
20. PC Action Click this button to assign a task that automatically executes when the selected alarm condition becomes true See Assigning a PC Action on the next page for instructions Note This button is only available when the Enable box is checked and you ve selected priority 1 2 or 3 If you select priority O the button is grayed out Force Data Log Entries on Event These 14 check boxes correspond to the circuit monitor s 14 data logs Check the desired boxes for each alarm condition Each time the alarm condition occurs the circuit monitor forces an entry into the checked data log files This provides information that helps characterize the circuit conditions at the time of the event Operate Relays on Event Check the desired relay s Each time the alarm condition occurs the circuit monitor operates energizes the specified relays For example you could check boxes R1 R2 and R3 for the alarm condition Under Voltage Phase A Each time the Under Voltage Phase A condition occurs the circuit monitor operates relays R1 R2 and R3 These relays must be present on the device enabled for on board operation and be in normal timed or latched mode See Setting Up Relay Outputs in this chapter for instructions on setting up circuit monitor relays Note For models CM 2350 and higher you cannot configure high speed event numbers 201 214 to operate the same relays used for normal events Capture Waveforms on
21. Series 2000 Circuit Monitors Class 3020 Input Output Modules Type Description IOM 11 1 status IN 1 KYZ pulse OUT IOM 18 8 status IN 1 KYZ pulse OUT IOM 44 4 status IN 1 KYZ pulse OUT 3 Form C relay OUT IOM 4411 01 4 status IN 1 KYZ pulse OUT 3 Form C relay OUT 1 Analog INO 1 Analog OUT 0 1 mA IOM 441 1 20 4 status IN 1 KYZ pulse OUT 3 Form C relay OUT 1 Analog INO 1 Analog OUT 4 20 mA IOM 4444 01 4 status IN 1 KYZ pulse OUT 3 Form C relay OUT 4 Analog INO 4 Analog OUT 0 1 mA IOM 4444 20 4 status IN 1 KYZ pulse OUT 3 Form C relay OUT 4 Analog INO 4 Analog OUT 4 20 mA Analog inputs are 0 5 Vdc Each analog input can be independently configured to accept a 4 20 mA input by connecting an external jumper wire Minimum Setup Requirements There are several setup procedures that must be completed before SMS can communi cate to devices Each of these procedures establishes important file information that SMS uses to process data The setup procedures are Creating a new system User account setup PC interface setup Device and route setup The remainder of this section discusses each of these setup procedures in detail Also included in this section are instructions for going online and offline and setting the sampling mode the interval at which SMS takes data samples for such things as real time tables and meters Creating a New System Creating a new system means
22. rpunu sque s un r s sippuesnot o z puueyp indu Sopeuy s pun 901 dnjas ynpoyy a ur Uasoyp uorspaid yozew oj sangeA eurap am anqeA 3oyeuy 1 puweyp duy So euy s pun 201 sojdwex3 s uawwo0 syeway spun 1nodojg dnyoiqd uonduoseq ON EI 171 1996 Square D All Rights Reserved Bulletin 3080IM9601 suone n e3 gwy snonumuoo uo paseq SI uone1 do uy sm asayy asn o p rmb t st 194314 10 DECH 910N sap o ur s e op aum 19jug dad nodorp eu 134314 dnxprq p p u Jr sue OU Ju oz d Joy sen eA eurpap eAnrsod mu Xoq YOY Aula au pat spearayur apoAd 1 c ISV PU 19A0 pejerno eo juaxmo ay pue JUALIN SIA JUasard ay uaaMjaq Ju oz d ay uo p seq dn xpid wege ayy ab 03 jue no J nodorp dur czy dnyoid dwe one durexg nodorp ue an enpeA dnyotd s n eA sa8aqur aantsod 1ejuq XOQ YOY au Yap ou oq JUMI au jo apnyusew ay uo paseq dn yord uureqe ay aaey o jueA no JI Syu L qo sduy PMS enn N Juanma 2 aseyg 1 111 IPMS q aseyg 1 nn IPMS y aseyg 1uaxim 202 902 g c TOC suone n e3 SIA snonumuoo uo paseq sr uorerodo rey suure e s n sn o p mmb r st 194314 10 DECH 930N s jp o ut s er p um Jam nodovp dad 3nodoip ven 134314 anpeA dnxprq p p u Jt sue 03 Juadsad Joy s
23. tion Assume the following You have a system of five circuit monitors one monitoring a main and four moni toring feeders You have logged power quality values for the main circuit monitor only You have logged per phase and three phase current values for all circuit monitors 1996 Square D All Rights Reserved Chapter 10 Displaying Historical Data Since you ve logged power quality values for the main circuit monitor only you d probably define a Query w Single Device to display power quality values A query is related to a specific device in this case the main circuit monitor But since you ve logged current values for all five circuit monitors you d probably define a Table w Single Device selecting per phase and three phase currents as your quantities You could then use the defined Table w Single Device to display a table or trend plot for any one of the five circuit monitors Defining a New Query or Table To define a query or table follow these steps 1 2 On the Display menu click Historical Data In the Historical Data dialog box click Add SMS displays the Add dialog box Add gt Name Paintline Historical Currents Type Cancel Query w Multiple Devices Single Quantit Query ipl gl y Help C Query w Single Device Multiple Quantities C Table w Multiple Devices Single Quantity C Table w Single Device Multiple Quantities In the Type box select the desired
24. ve saved the table you can display it using the Tables command on the Display menu You can use the New gt Table command on the File menu to start the table editing program SMSTable exe included with SMS The SMSTable exe program allows greater flexibility in how you create tables You can also use the program to custom ize SMS s pre defined tables Because the SMSTable exe program is a third party tool it is not documented in the SMS instruction bulletins However instruction bulletins from the software developer are available to you free of charge To receive a single set of the user s guides fill out the Custom Table Setup Instruction Bulletins Request Form included in your SMS package and fax or mail it to us To create and save a quick table follow these steps 1 On the File menu click New gt Quick Table SMS displays the Quick Table dialog box Quick Table x Select device information Select Device Type Circuit Monitor 2000 M Select Device CM Feeder 1 M Quantities Available Quantities Selected amp D Currents Q Current A Current Curent Avg Curent Apparent RMS lt Curent B Q Curent Avg Current C Current B Current C Curent G Current N In the Select Device Type box select the type of device In the Select Device box select the desired device In the Quantities Available box click the quantities to include in the table and drag them to the Quantities Selecte
25. 2 CM Digital 2 CM2 Digital 3 o Copies of global functions assigned to specific devices in your system Once you ve assigned these copies you can edit their setpoints and the original global functions vvill not change O 1996 Square D All Rights Reserved 67 Bulletin 30801M9601 When you assign a global function to a specific device SMS makes a copy of the global function and associates it with the device After you ve assigned a copy you can edit the copy the original global function will not change In the illustration the user has assigned three functions to the device CM Main 1 When the user assigned the functions using the Function Assignment tab of the Functions Setup dialog box SMS made copies of the global functions If the setpoints of any copied function were not exactly right for the device CM Main 1 the user could edit the copied function s setpoints the original global function s setpoints would not change The section Assigning Functions to Specific Devices in this chapter tells how to assign copies of global functions to specific devices and how to edit the copied functions setpoints Creating Global Functions When you define functions you first define global functions for a device type for example a Series 2000 Circuit Monitor Later you ll choose from the list of global func tions you ve defined for that type of device and assign functions to specific devices for example the ci
26. 256 Time out COM port 258 SY LINK invalid parameter 259 SY LINK device not initialized 260 SY LINK device time out 261 SY LINK invalid route 262 SY LINK invalid register list 263 SY LINK reset time out 1100 No system exists in database 1101 A device was not found in database 1102 Unable to load a DLL 1103 The DLL does not support this function 1104 Operation failed for unknown reason 1105 Operation failed because system is offline 1106 Invalid user 1107 Invalid password 1108 Create failed 1109 Out of service 1110 Out of database sync 1111 Insufficient authority 1112 Time out 1113 Lookup failed 1114 No driver 1115 Device not connected 1116 User has terminated canceled online 1117 Invalid system specified 184 1996 Square All Rights Reserved Appendix F Error Codes Code Description 1118 Sample request to CommServer failed 1119 No hardware key attached to computer 1120 System already locked 1121 Sample storage problem 1122 Network error 1123 Max connections 4008 SquareD ID is not valid for this device type 4201 Semaphore is not the active device 4202 Could not get the semaphore 4300 Invalid record number 4301 Invalid file number 4302 File status error 4303 File is not enabled or file size is zero 4304 File is in Fill and Hold and it is full 4305 Not all the records requested were uploaded 4306 Unable to verify the waveform was triggered 43683 RS 232 bad channel 43684 RS 23
27. 64 Changing the Onboard Alarm Check Interval I 64 Chapter 6 Setting Up Functions and Alarms l R u u u daaa a arayan 65 Whatare Alarms runde ede p Rr tip aqa R shuk la nunka dial 65 The General Alarm Setup Procedure seen nennen nentes nennen 66 Understanding Global Functions n s 67 Creating Global Functions n n 68 Defining Setpoints for Analog Functions ennemis 69 Defining Setpoints for Digital Functions 5 U a 74 Setting Up Alarm Severity Levels L 76 Assigning Functions to Specific Devices nennen 77 Editing a Function After You ve Assigned lt to a 77 Chapter 7 Using Tasks to Automate Processes u 79 Creating New Tasks rd p ret e ato Pa peti efie 79 Creating a New Mail Task 80 Creating a New Program Task sss nennen nne nnn sen rene renis nnne nnns 81 Creating a New Resets Task nennen enne hne enn sistens nnne ns 82 Contents Creating a New CM2000 Onboard Data Log Waveform Upload Task 83 Sched ling Tasks yuyanka mapa sa Eb E aa a ham AUR nent tuere a dedere ute esprit 84 Creating a New Reference Time a nnne nnns 84 Assigning Tasks t
28. A MinCFA Min Crest Factor B MinCFB Min Crest Factor C MinCFC Min Crest Factor N MinCFN Min Fundamental Real Power A MinfkVVA Min Fundamental Real Povver B MinfkVVB Min Fundamental Real Povver C MinfkVVC Min Fundamental Real Povver Total MinfkVVTtl Min Fundamental Reactive Povver A MinfKVARA Min Fundamental Reactive Power B MinfKVARB Min Fundamental Reactive Power C MinfkVARC Min Fundamental Reactive Povver Total MinfkVARTtI Min Harmonic Factor A MinHFA Min Harmonic Factor B MinHFB Min Harmonic Factor C MinHFC Min Harmonic Factor Total MinHFTtl Min Harmonic Real Power A MinhkWA Min Harmonic Real Power B MinhkWB Min Harmonic Real Power C MinhkWC Min Harmonic Real Power Total MinhkWTtl Min Analog Input Value 1 MinAnalogln1 Min Analog Input Value 2 MinAnalogIn2 Min Analog Input Value 3 MinAnalogIn3 Min Analog Input Value 4 MinAnalogln4 1996 Square D All Rights Reserved 151 Bulletin 30801M9601 152 Quantity Abbreviation Max Update Interval Max Frequency MaxUpdatelnt MaxHz Max Temperature MaxTemp Max Current A MaxlA Max Current B MaxIB Max Current C MaxlC Max Current N MaxIN Max Current G MaxIG Max Current Average MaxlAvg Max Current Apparent rms MaxlApp Max Current Unbalance A MaxlUnbalA Max Current Unbalance B MaxlUnbalB Max Current Unbalance C MaxlUnbalC Max Current Unbalance VVorst MaxlUnbalW Max Voltage A B MaxVAB Max Voltage B C MaxVBC Max Voltage C A MaxVCA Max
29. Chapter 5 tells how to set up relay outputs Chapter 5 says that to configure a relay for onboard operation you must check the Enable Onboard Operation checkbox on the I O module tab in the Series 2000 Circuit Monitor Device Setup dialog box If Enable Onboard Operation is checked The associated relay is controlled automatically by the circuit monitor even if your computer is turned off in response to onboard alarm conditions internal to the circuit monitor Appendix C lists the circuit monitor s on board alarm conditions The section Setting Up On board Alarms Events in Chapter 5 tells how to assign on board alarm conditions to operate relays When a relay is configured for onboard operation you cannot control the relay using SMS unless you first override the relay When you override the relay you temporarily take away the circuit monitor s ability to automatically operate the relay in response to on board alarm conditions the circuit monitor simply ignores the alarms conditions that would cause the relay to change state if it were not overridden While a relay is overridden you can operate it manually force it On and Off using SMS It may help to think of overriding a relay as taking the relay out of auto mode and putting into manual mode The relay stays in manual mode until you release the override using SMS If Enable Onboard Operation is not checked The associated relay is controlled by a source external to the
30. Circuit Monitor 2000 LA Power Quality Devices Available Devices Selected V Enabled All Devices All Devices BB om feeder 3 E BB cm feeder 6 H cn feeder 4 H cn main 2 H cm feeder 5 BB cm maint H cm feeder 6 BB cm main 2 CS cm main Bil CM Main Close Update Help 2 In the Templates box click a template to assign to the devices The available devices appear in the Devices Available box only the devices that match the device type for which the logging template was created are listed 3 In the Devices Available box click the devices that you want to assign the template to and drag them to the Devices Selected box or use the gt button 4 Check the Enabled checkbox to enable the template If the system you are editing is online and you did not enter a start time and date SMS starts logging immediately after you close the Log Setup dialog box If the system you are editing is not online SMS starts logging the next time you place the system online 5 To assign another template repeat steps 2 4 Be sure to check the Enabled checkbox for each template After assigning all templates click Close SMS prompts you to save the changes you ve made 1996 Square D All Rights Reserved 95 Bulletin 30801M9601 Chapter 10 Displaying Historical Data 96 SMS lets you view historical data in table format or as a time trend plot This chapter tells how to display h
31. Factor A MinVUnbalLNW MinPFA Min Power Factor B MinPFB Min Power Factor C MinPFC Min Power Factor Total MinPFTtl Min Displacement Power Factor A MinDPFA Min Displacement Power Factor B MinDPFB Min Displacement Power Factor C MinDPFC Min Displacement Power Factor Total MinDPFTtl Min Real Power A MinkWA Min Real Power B MinkWB Min Real Power C MinkWC Min Real Power Total MinkWTtl Min Reactive Power A MinkVARA Min Reactive Power B MinkVARB Min Reactive Power C MinkVARC Min Reactive Power Total MinkVARTItl Min Apparent Power A MinkVAA Min Apparent Power B MinkVAB Min Apparent Power C MinkVAC Min Apparent Power Total MinkVATtl Min THD Current A MinTHDIA Min THD Current B MinTHDIB 1996 Square D All Rights Reserved Appendix B Abbreviations for Quantities Quantity Abbreviation Min THD Current G MinTHDIC Min THD Current N MinTHDIN Min THD Voltage A N MinTHDVAN Min THD Voltage B N MinTHDVBN Min THD Voltage C N MinTHDVCN Min THD Voltage A B MinTHDVAB Min THD Voltage B G MinTHDVBG Min THD Voltage C A MinTHDVCA Min thd Current A Minthd IA Min thd Current B Minthd IB Min thd Current C Minthd IC Min thd Current N Minthd IN Min thd Voltage A N Minthd VAN Min thd Voltage B N Minthd VBN Min thd Voltage C N Minthd VCN Min thd Voltage A B Minthd VAB Min thd Voltage B C Minthd VBC Min thd Voltage C A Minthd VCA Min K Factor A MinKFA Min K Factor B MinKFB Min K Factor C MinKFC Min Crest Factor
32. L N voltage between 347 V and 433 V click 600 347 When the L N voltage is greater than 433 V select 208 120 and select the appropriate PT setting 5 PT This is the turns ratio of the potential transformers PTs supplying the power meter with the voltage signals Enter the primary and select the secondary For example if the PT ratio is 120 100 enter 120 in the left box and select 100 in the spin box You need to set this field only when the PT is 208 120 and you are using a potential transformer 6 Automatic SMS uses this feature to automatically create scale factor ratios for Scale Factors PT CT numbers entered by users Default enabled If you disable From PT CT this feature click Advanced to enter ratios manually 7 THD thd PM 620 only This field sets the manner in which the power meter calculates total harmonic distortion Select THD fundamental for usage in the U S or select the alternate thd rms which is commonly used in Europe 8 Accumulated Power meters can accumulate energy in four modes absolute signed in Energy only and out only In absolute the power meter accumulates energy based on the absolute value of real power regardless of the direction of power flow In signed the power meter accumulates energy with regard to sign that is for reverse power flow the accumulated energy value is reduced In in only the meter accumulates kWh and kVarH as energy into the load In out
33. Main 3 In the Control Names box choose Gen Load Xfer 4 Click the Release Override button enter your username and password and click OK SMS displays a warning message Click OK to continue Relay R1 will now de energize and open its contact because the circuit monitor s on board controls detect that the KW Demand is below the pickup setpoint The transfer switch controls then cause the transfer switch to switch back to the Normal posi tion and the transfer switch controls handle generator cooldown and shutdown Your system is back in automatic mode of operation 5 Click Close to exit the Control Outputs dialog box 1996 Square D All Rights Reserved 181 Bulletin 3080IM9601 Appendix E SMS Client Command Line Parameters The SMS 3000 client program supports three optional command line parameters causes the SMS client to bypass the usual login dialog by providing the username and password at the command line WORKSPACE causes the SMS client to automatically open a workspace file on program startup e DELAY causes the SMS client to wait for a specified number of seconds before attempting to connect to the POWERLOGIC Network Server Two notes about using command line parameters The parameters are case sensitive Always enter LOGON WORKSPACE and DELAY using capital letters Follow each parameter with a space then a data string If the data string contains spaces enc
34. Mo Association RI m Status tatus D Xfer Sw Position m power meter H Properties enen C Emerg Delay iss seconds c i Cancel Help 1996 Square D All Rights Reserved 179 Bulletin 30801M9601 180 Hypothetical Chain of Events Situation You are online with your system KW Demand is presently below 2000 KW Therefore relay R1 is off the transfer switch is in the Normal position and the generator is shut down in automatic standby You intend to conduct a system test by forcing relay R1 to energize To conduct the system test as described in the scenario above follow these steps 1 2 On the Control menu click Control Outputs In the Devices box select Utility Main In the Control Names box select Gen Load Xfer Click the Override button SMS prompts you for your username and password Enter your username and password then click OK SMS displays a message asking for confirmation Click OK Relay R1 is overridden in its present OFF state You will have to acknowledge the R1 Ovride Status Overridden alarm This alarm stays active until the relay is released from Override Click the Gen Xfer On button to force relay R1 on Enter your username and password then click OK SMS asks you to confirm your action Click OK Relay R1 energizes and closes its contact The transfer switch controls should start the generator and the transfer swit
35. Notes SMS must be online to your system to perform Onboard Alarm Event setup If SMS is not online the Onboard Alarms Events tab is grayed out By default SMS checks for onboard alarms at 60 second intervals You can change the Onboard Alarm Check interval using the SMS configuration program called Smscfg For instructions on using Smscfg to change the Onboard Alarm Check Interval see Changing the Onboard Alarm Check Interval at the end of this chapter Important When you make any changes to the circuit monitor s on board alarms the circuit monitor restarts when you exit online setup Be aware that any energized relay outputs will de energize as the circuit monitor restarts If you are not already viewing the Onboard Alarm Events tab follow these steps to display the tab 1 On the Setup menu click Devices Routing SMS displays the Device Setup dialog box 2 In the Devices box select a Series 2000 Circuit Monitor model CM 2150 or higher then click the Configure button 3 Click the Onboard Alarms Events tab 1996 Square D All Rights Reserved Chapter 5 Advanced Series 2000 Circuit Monitor Setup To set up an alarm condition follow these steps 1 In the Alarm Event Condition box click the number of the alarm condition to set up SMS updates the dialog box to show the current settings for the selected alarm condition 2 Enter information on the Onboard Alarms Events tab as described i
36. On board data storage setup Set up circuit monitor event log waveform capture logs and data logs On board alarms events setup Set up the circuit monitor s on board alarms and configure it to perform actions such as operating a relay when an alarm occurs The setup tasks are on four tabs in the Device Setup dialog box for a Series 2000 Circuit Monitor To access the Device Setup dialog box for a Series 2000 Circuit Monitor do the following 1 On the Setup menu click Devices Routing SMS displays the Device Setup dialog box 2 In the Devices box click the Series 2000 Circuit Monitor to set up then click Configure or double click on a device SMS displays the Device Setup dialog box for a Series 2000 Circuit Monitor The rest of this chapter tells how to use the I O Module On Board Data Storage and On Board Alarms Events tabs 44 1996 Square D All Rights Reserved Chapter 5 Advanced Series 2000 Circuit Monitor Setup Setting Up Input Output Modules Use the I O Module tab shown below in the Series 2000 Circuit Monitor Device Setup dialog box to set up circuit monitor inputs and outputs SMS must be online with your system to perform I O Module setup If you are not already viewing the I O Module tab follow these steps to display the tab 1 On the File menu click Online and go online with the desired system Click Manual Update on the Control menu to ensure that SMS is not sampling data 2 O
37. Pulse This mode assigns the relay to operate as a pulse initiator with a user defined number of KVARH per pulse In this mode both forward and reverse energy are treated as additive as in a tie breaker The KYZ Pulse Initiator relay output was designed for pulse applications such as this 6 kVAH Pulse This mode assigns the relay to operate as a pulse initiator with a user defined number of kVAH per pulse Since kVA has no sign there is only one mode for kVAH pulse The KYZ Pulse Initiator relay output was designed for pulse applications such as this 1996 Square D All Rights Reserved 47 Bulletin 30801M9601 48 7 KWH In Pulse This mode assigns the relay to operate as a pulse initiator with a user defined number of KWH per pulse In this mode only the kWH flowing into the load is considered The KYZ Pulse Initiator relay output was designed for pulse applications such as this 8 KVARH In Pulse This mode assigns the relay to operate as a pulse initiator with a user defined number of KVARH per pulse In this mode only the KVARH flowing into the load is considered The KYZ Pulse Initiator relay output was designed for pulse applications such as this 9 kWH Out Pulse This mode assigns the relay to operate as a pulse initiator with a user defined number of KWH per pulse In this mode only the kWH flowing out ofthe load is considered The KYZ Pulse Initiator relay output was designed for pulse applications suc
38. Reserved 135 Bulletin 30801M9601 Chapter 17 Diagnostics Performing a System Communications Test To verify that SMS is communicating to devices you can perform a system communica tions test The system communications test forces SMS to attempt to communicate to each device in the online system then returns the status of each device To perform a system communications test follow these steps 1 On the Control menu click Diagnostics gt System Communications Test SMS displays the System Communications Test dialog box System Communications T est x Route Add On Status Fail 2250 wF Log 30 17 1 16 007 Pass 2250 wF Log 30 17 2 1044 16 007 Pass CM 2050 Basic 30 17 3 1044 16 007 Pass CM 2050 Basic 30 17 4 1044 16 007 Pass Circuit Monitor 2000 30 22 1 Fail 2350 wF Log 30 22 6 1044 16 007 Pass Click on column titles to sort by device type route etc Time Elapsed hh mm ss 00 00 09 2 To start the test click Start Testing If you have a large system testing may take several minutes To pause a test in progress click Pause As SMS tests each device it lists the device and its status System Device Status SMS automatically displays the System Device Status dialog box when SMS detects while going online that the basic configuration data stored in the device does not match the basic configuration data stored in the SMS database 136 1996 Square D All R
39. Rights Reserved 109 Bulletin 3080IM9601 Chapter 13 Control Outputs This chapter tells how to apply and operate control outputs using SMS it does not tell how to configure circuit monitor relay outputs See Setting Up Relay Outputs in Chapter 5 for instructions on configuring relay outputs Overview Control outputs allow manually initiated password protected control of the following Relay outputs for Series 2000 Circuit Monitors an additional add on Input Output Module must be mounted to the rear of the circuit monitor Relay outputs for Series 100 200 Circuit Monitor models CM 144 and CM 244 Bit control for a given register in a SY MAX programmable logic controller PLC from Square D or other SY MAX compatible device In a PLC system this bit is typically used in custom programmable logic to perform some other action Example Applications and Definitions of Terms 110 A Manual Control Output is a control output for any series 2000 Circuit Monitor relay that is rot enabled for on board operation a CM 144 or CM 244 relay aSY MAX PLC or other SY MAX compatible device e Manual control output examples manually close and open circuit breakers see example in Appendix D manually energize and de energize contactors An Override Control Output is a control output for a CM 2150 or higher relay that is enabled for on board operation See the next section More About the Series 2000 Circuit
40. Rights Reserved 21 Bulletin 30801M9601 22 Adding a SY LINK Route 1 After you add a device with a SY LINK connection name SMS displays the SY LINK dialog box SY LINK Connection Name SYLINK gt Rt2 Rt3 Di Rt5 D Di D Cancel Help 2 Add the SY LINK route information Add SY LINK table At this field Do this 1 Connection Name SMS displays the name of the PC port to which this device connects This name was established when adding the device 2 Rt1 Rt8 Enter the route For help in creating routes refer to the Power Monitoring and Control System Planning Guide order no 3000CT9601 3 Click OK to save the route information and return to the Device Setup dialog box The information entered to this point allows you to access information collected from devices However you can perform additional setup that you would otherwise perform at the device This feature allows you to set up devices from one PC within SMS rather than having to waste time entering setup information at each device For this setup information see Additional Device Setup later in this chapter Adding a Serial Port Route 1 After you add a device with an RS 232 serial port connection name SMS displays the SY MAX RS232 Route dialog box SY MAX RS232 Route Connection Name Serial Port d Phone tt Rt2 Rt3 Rt4 ALS DE DI ALS Cancel Help 1996 Square D All Rights Reserved Chapter 3
41. Setup and Operation 13 POWERLOGIC Metering Device Models eene nnns 14 Metering Device Feature Comparteon n r 14 Input Output Modules for Series 2000 Circuit Monitors esi 15 Minimum Setup Requirements n n a 15 Greating a New Syst m u uu a c ect gen iu shuts erc kasqas adabi aus sa deed ee 15 Setting Up The PC Interface a a a 16 Adding a New PC Interface suite aee teen aie terere pe tte 16 SY HNKBo ard RE EE 18 SY MAX RS 232 Serial Port Setup Ren 19 Setting Up Devices and Routes n 20 Series 2000 Circuit Monitor Setup esee enne nns 24 Series 100 200 Circuit Monitor Setup n u 26 Power Meter S6tup vaccinia a ee 27 Working with the System nas ensis enne 29 eroe 29 Going Online with a System a nnns stets nnns nnne 29 Going Online with a Workspace n 29 Device Status Checks uk 30 Opening a Working System senten nennen nennen innen sentent nnns senten 30 Changing the Working System eene enne nennen nennen 31 Closing the Working System iniii aiii da aaide aaa aaa iais 31 een ER 31 Bulletin 30801M9601 Setting the Sampling Mode AAA 31 scheduled Update et ettet det eren ced aie OE UAE en Ee eR Eee RE oer 32 Manual Update uu asum 32 Chapter 4 Displaying Real Time Data 34 D
42. Size PlugSize Breaker Rating Plug Multiplier PlugMult Long Delay Pickup Slope LDPUSlope Long Delay Pickup Amp Setting LDPUAmps Long Delay Pickup Time Delay LDPUDelay Short Delay Pickup Slope SDPUSlope Short Delay Pickup Amp Setting SDPUAmps Short Delay Pickup Time Delay SDPUDelay Instantaneous Pickup Amp Setting InstPUAmps Ground Fault Pickup Slope GFPUSlope Ground Fault Pickup Amp Setting GFPUAmps Ground Fault Pickup Time Delay GFPUDelay Fourth Pole Protection Option 810DFourthPole Frequency Select Option 810DFreqSel Long Delay Memory Option 810DLDMem Long Delay Option 810DLD Ground Fault Option 810DGF Short Delay Option 810DSD Discriminator Option 810DDisc Instantaneous Protection Option 810DInst Phase CT Ratio 5 PhCTRatio Ground CT Ratio 5 GFCT Ratio Phase Pickup Time Delay PhPUTD Phase Inst Pickup Time Delay PhlnstPUTD Ground Pickup Time Delay GFPUTD Phase Pickup Amp Setting PhPUAmps Ground Inst Pickup Time Delay GFInstPUTD Phase Inst Pickup Amp Setting Ground Inst Pickup Amp Setting PhinstPUAmps GFInstPUAmps Phase Relay Time Current Curv PhTCC Ground Relay Time Current Curve GFTCC 1996 Square D All Rights Reserved 163 Bulletin 30801M9601 Quantity Abbreviation Total Breaker Trips Since Counter Reset N810D Trips Number Long Delay Trips Since Reset NLDTrips Number Short Delay Trips Since Reset NSDTrips Number Inst Trips Since Reset NinstTrips Number G F Trips Since Reset N810DGFTrips N
43. Voltage B C THDVBC THD Voltage C A THDVCA thd Current A thd IA thd Current B thd_IB thd Current C thd_IC thd Current N thd_IN thd Voltage A N thd_VAN thd Voltage B N thd_VBN thd Voltage C N thd_VCN thd Voltage A B thd_VAB thd Voltage B C thd_VBC thd Voltage C A thd_VCA K Factor A KFA K Factor B KFB K Factor C KFC Crest Factor A CFA Crest Factor B CFB Crest Factor C CFC Crest Factor N CFN Fundamental Current Mag A flMagA Fundamental Current Ang A flAngA Fundamental Current Mag B IMagB Fundamental Current Ang B flAngB 1996 Square D All Rights Reserved Appendix B Abbreviations for Quantities Quantity Abbreviation Fundamental Current Mag G flMagC Fundamental Current Ang C flAngC Fundamental Current Mag N fIMagN Fundamental Current Ang N flAngN Fundamental Current Mag G flMagG Fundamental Current Ang G flAngG Fundamental Voltage Mag A N fVMagAN Fundamental Voltage Ang A N fVAngAN Fundamental Voltage Mag B N fVMagBN Fundamental Voltage Ang B N fVAngBN Fundamental Voltage Mag C N fVMagCN Fundamental Voltage Ang C N fVAngCN Fundamental Voltage Mag A B fVMagAB Fundamental Voltage Ang A B fVAngAB Fundamental Voltage Mag B C fVMagBC Fundamental Voltage Ang B C fVAngBC Fundamental Voltage Mag C A fVMagCA Fundamental Voltage Ang C A fVAngCA Fundamental Real Power A fkWA Fundamental Real Power B fkWB Fundamental Real Power C fkWC Fundamental Real Power Total fkWTtl Fundamental Reactive Power A fkVARA Fundamen
44. Waveform 1996 Square D All Rights Reserved 107 Bulletin 3080IM9601 SMS displays the Import Waveform dialog box Import Waveform 2x Look in C Export H z ii Femme J Files of type DaDisp Format dat d Cancel Help 3 Double click the name of the waveform you want to view SMS displays the waveform Retrieving a Stored V veform File File Option Clients should not use this option because it does not provide a path for retrieving files from other computers Clients should use the following option Importing a Stored Waveform File To retrieve a stored waveform file follow these steps 1 On the Display menu click Waveform Plots or click the Waveform toolbar icon Pl SMS displays the Waveform Source dialog box Waveform Source x WFC Source All Devices D Finishing D Import Waveform D Paintline 2 Select the device from which you want to view a waveform file open the group to which the device belongs Then double click the device name 108 1996 Square D All Rights Reserved Chapter 12 Working with Waveforms SMS displays the Acquire Waveform dialog box Acquire Waveform x Acquire From Extended E File nboard Cancel 3 Click File SMS displays the stored waveform files that you can view 4 Double click the name of the waveform file that you want to view SMS displays the file 1996 Square D All
45. When used with Ethernet TCP IP networks SMS can be used in a client server arrangement to provide users clients real time and historical informa tion as needed 1996 Square D All Rights Reserved 5 Bulletin 30801M9601 Technical Support When you register your software you are entitled to 6 months of free technical phone support If you have any questions about this instruction bulletin or other POWERLOGIC products contact the POWERLOGIC Technical Support Center Hours are Monday Friday 7 30 AM 4 30 PM CST The fax number is available seven days a week 24 hours a day Phone 615 287 3400 Fax 615 287 3404 Before you call have the product serial number ready The serial number is located on the label of your original program diskettes What You Should Know Before You Begin This manual assumes that you know how to use Microsoft Windows NT are familiar with Windows terminology know how to use a mouse and are familiar with mouse terminology such as point ing and clicking have already successfully installed SMS see the SMS 3000 System Administrator s Guide chapter 4 If you need help using Windows or a mouse refer to the Microsoft Windows documentation Start With the SMS Info txt File Read the SMS INFO TXT file included on the program diskette before you install System Manager You can open this file using any program capable of reading a standard ASCII text file such as the Notepad
46. a digital function for fan status you would probably select On Off for circuit breaker status you would select Open Closed Click the desired bits in the bitmask until they are set to 1 or 0 as required Leave an X for any unused bits When you set these bits you are defining the bit pattern that coincides with the True status In other words when the bits in the specified register exactly match the bitmask you define here the status is True this is equivalent to the Equal condition being true in the Digital Function Setpoint Edit dialog box When one or more bits in the device register excluding the bits you set to X in your bitmask do not match the bits in your bitmask the status is False this is equivalent to the Non Equal condition being true in the Digital Function Setpoint Edit dialog box 1996 Square D All Rights Reserved Chapter 16 Customizing the Software 12 Click OK SMS returns to the Apply Quantities tab 13 If SMS is online take it offline by clicking the Offline command on the File menu Exit the SMS client software then shut down the POWERLOGIC Network Server Restart the POWERLOGIC Network Server Restart the SMS client software and put your system back online You can now use the newly defined custom quantities Note You must do this last step each time you create a new custom quantity or edit an existing custom quantity otherwise your changes will not take effect 1996 Square D All Rights
47. all other network devices NIMs PNIMs and SY LINK boards on the network RS 422 Baud Rate This sets the baud rate of the SY LINK board s RS 422 port This value must match the baud rate of the device connected to the SY LINK board s RS 422 port For example if the device connected to the RS 422 port is set to 9600 baud then choose 9600 here Network Address This sets the network address of the SY LINK board If the Network Size described in step 6 is 100 then this value must be an integer from 0 99 If the Network Size is 31 then this value must be an integer from 0 30 Each network device on a common network must be assigned a unique network address For example a SY LINK board cannot have the same address as a PNIM on the same network 1996 Square D All Rights Reserved Chapter 3 Basic System Setup and Operation 6 Network Size This number indicates the maximum number of network interfaces SY LINK boards and NIMs on a single network If the network contains 31 or fewer network interfaces select 31 If the network contains more than 31 network interfaces select 100 This number must match the DIP switch settings on all PNIMs to enable communication 7 Click Test Port If the test fails examine the Memory Address box to verify that you have selected the correct SY LINK memory address The address selected in the Memory Address list box must match the SY LINK board s DIP switch setting If the t
48. aq ue enpea ynodoiq jnodorp y puueyp 1ndul Sopeuy 1340 901 uei 8 ss f 10 Anisod rour aq jsnur pue Anisod puueyp indu Sopeuy 1340 COL aq w n eA dnypig sy puesnoy 10 sy parpuny sujuaj run users sippuesnou o Z puueyp mdu So euy 1340 T L dm s ypoyy O 19un ur v sovp uorsp rd qoyeur o s n eA eutt29 p 19jug anyea 3oyeuy 1 puueyp ynduy Sopeuy 1940 COL te sty Jo uoneordde 103 un Inq uononasur 103u0 A 312117 0002 Salas ay o 19jey WTR sty o Apdde jou op 5 eum pue syutodyas ep qeorddy 1oN lepdn jo puq 201 urte e sty JO uoneordde Joy unepnq uononujsur JoyUOP y si 0002 S H S ay o Jayay eTe sry o A dde you op 5 eur pue syutodyag jqe rddy Jon eA19ju pueuu q Jo puq IOI sjasaz 10 dn sx mod 1ojruoJA FMD eu eum Aue sxreur were styg urepe snp Adde you op 8 awy pue syutodyag qe rlddv 1oN s yi dn r Moq 001 sty Jo v np ridde oy un rinq uon nnsur JoUOP 312117 pasau 0007 SALAS ay o Jayay WIETE sty o Adde jou op s e p oum pue qeorlddv 1oN Jo puq 66 96 L6 96 G6 v6 66 C6 16 HO 01 uo uonisut1 g Jndu 06 HO 01 uo uonisuern 1ndu 68 HO 01 uo uontsut1 9 induy 88 HO 01 uO uonisuez c jndug 48 po o uo uonisuez y induy 98 ejejs UO au 0 sasueyp snjejs jndur t u ym no dorp JO 01
49. baud rate CT and PT ratios stored in each device vvith the basic device setup information stored in the SMS database on your computer s hard disk If SMS sees that the information in any device does not match the information in the database SMS takes the device out of service To view the devices that are not in synch with the database click the Database Status tab System Device Status x Database Status Communication Status Service Status Setup Data Mismatch Selected Devices Es cm feeder 3 Update Device 2 Update Database Note Update is for basic device settings only 1996 Square D All Rights Reserved 137 Bulletin 30801M9601 To synchronize one or more devices with the database follow these steps 1 In the System Device Status dialog box click the Database Status tab If you are not already viewing the System Device Status dialog box click Diagnostics gt System Device Status on the Control menu to display it 2 In the Setup Data Mismatch box click the desired devices and drag them to the Selected Devices box or use the gt gt gt buttons 3 If you believe that the information stored in the devices is preferable to the informa tion stored in the SMS database click the Update Database button Enter your username and password then click OK SMS copies the information from the devices to the database OR If you believe that the information in the SMS database is preferable to the informa tion
50. command on the File menu open the system to edit 2 On the Setup menu click Custom Quantities SMS displays the Quantity Edit dialog box The dialog box has two tabs You ll use the Quantity Setup tab to define custom quantities and the Apply Quantities tab to assign custom quantities to specific device types 3 Click the Quantity Setup tab Any custom quantities that you ve previously defined appear in the Quantities list If you ve not previously defined any custom quantities the Quantities list is empty If you uncheck the Show Custom Quantities Only check box SMS displays the standard quantities preceded by an S along with the custom quantities preceded by a C You cannot edit predefined quantities but you can select them to view their register numbers units and format 1996 Square D All Rights Reserved 131 Bulletin 3080IM9601 Quantity E dit x Quantity Setup Apply Quantities Quantities Properties Tv User Defined T Writable 12 Loggable T Digital Function 7 Analog Function 4 On the Quantity Setup tab click Add SMS displays the Quantity Name dialog box Quantity Name Paintline Total Demand Paintline Total D emand 5 Enter a name and description for the new quantity then click OK The description appears in the Quantities list on the Quantity Setup tab The descrip tion also appears in other quantities list boxes throughout SMS The name is
51. devices and displays the status of each If SMS communicates successfully with a device that was previously out of service due to a communications error it compares the basic settings configuration of the device to the information stored in the SMS database If the data matches SMS places the device back in service If the data does not match the device remains out of service You will need to synchronize the data in the device with the data in the database See the previous section Correcting Mismatches in Device Setup Data for instructions 5 Click Close to return to the System Device Status dialog box Note Periodically SMS performs a health check at which time it attempts to restore communica tions to non communicating devices You can change the interval at which SMS performs a health check using the SMSCfg program that is located in the SMS 3000 directory on the server PC To change the health check interval start SMSCfg click on the Intervals tab and enter the desired interval in the Health Check box Placing Devices In and Out of Service SMS allows you to place devices in and out of service If for instance you needed to perform maintenance on a circuit you d likely remove control power from the circuit monitor SMS would still try to communicate to the circuit monitor causing communica tion errors To temporarily suspend monitoring functions for the circuit monitor you could place it out of service To place a devi
52. dialog box The ON Action button is immediately above it i f the Override and Release buttons are both grayed out then you have selected a manual control output You cannot override the relay you can only turn it ON and OFF 122 1996 Square All Rights Reserved Chapter 14 Reports Chapter 14 Reports SMS allows you to create and print custom data reports You can print reports manually and you can schedule repotts to print automatically at a user defined interval For example you might create a report that includes energy usage for the past month then schedule it to print monthly The following are important points about the report feature Report definitions are specific to the client software and PC you used to define them For example assume that you ve installed SMS client software on three PCs in your facility including the plant engineer s PC If you define reports using the SMS client software installed on the plant engineer s PC the following things are true The report definitions are stored on the plant engineer s PC Youcanonly view or edit the report definitions using the SMS client installed on the plant engineer s PC Any scheduled reports that you define using the plant engineer s PC will print automatically only if the SMS client on the plant engineer s PC is running If the SMS client on the plant engineer s PC is not running at the time a report is scheduled to print the report will
53. is long enough to ensure a state change If the time delay is not long enough the message SMS displays indicating success or failure could be incorrect Be sure that your equipment responds in the time you specify and allow two seconds or more for communicating to the device for verification 1996 Square All Rights Reserved 119 Bulletin 30801M9601 13 In the Properties box select the option button for the condition that you want to associate with the On 1 Action In the Associated Condition dialog box above we have selected the Input 1 On option button We did this because in our example when relay R1 is On input S1 should be On 14 Click OK SMS returns to the Configure Control Output dialog box 15 In the Off 0 Action box click the Associate button 16 Repeat steps 10 14 to create an association with the Off 0 Action except at step 13 select the option button for the condition that you want to associate with the Off 0 Action For our example we would select the Input 1 Off option button Executing Manual Control Outputs 120 SMS must be online to execute control outputs You execute a control output using the Control Outputs command on the Control menu If you are using the Interactive Graphics Interface GFX 700 you can also execute a control output using a control block For instructions on executing control outputs from a diagram refer to the Interactive Graphics Interface instruction bulletin To exe
54. l Yayo jou oq FUMI v Jo apnyrusew ayy uo paseq dn yord weqe ayy aavy o jue no J 0 SUL Jo sdwy Sec enn N PIM Sec eseuq mam Seg g aseyg juan 366 y aseyg am VIC an SUODE n TE IW Snonunuo3 uo p seq SI uone1 do uueV swere asay asn o p rmb t st 194814 10 OSETIO 930N ur s e p um Jam nodorp dnyord 3nodoip uey 134314 anqea 14 p p u JI sue o1 juao1ed Joy sanyea eutt2 p eAnrsod am Xoq xpatp AEN at xau spearayur IP Suut u c 162 ay 19A0 pajerno eo a8eyoa o3e1oAe ay pue aleng A SIA Juasard ay xl q eoue1agrip Waad ay uo p seq dn yord ut ay eAeu o JueA no J 3nodoip yoa gr dnypid gop 3nodoip uey Jamoy dnyotd sanjea Jam anisod Jayuq Xoq xpatp AHET N BY xpaup jou od a8eyOA ay apnyuseur ay uo p seq dn yord uere ayy ab 03 no J sejdurex3 sjueuiuo sy1e ula 0 Sugar 10 SjOA spun nodoig dnydid Ses 9 9 N D aseyg ILOA Seg N g aseyg adeyo Ses q V N V 9seug a2ejoA uonduos q 012 602 802 ON uue v 173 1996 Square D All Rights Reserved Bulletin 3080IM9601 Appendix D Control Output Examples This appendix contains examples for both manual and override control outputs The examples are presented simply to help illustrate the differences between manual and override control outp
55. located in the SMS 3000 data file To enable clients to easily access exported waveform files we recommend that you export all waveform files to a common file on the server PC See the note under Retrieving a Stored Waveform at the beginning of this chapter 4 Type the file name you want to use for this waveform 5 Choose the data type dat or csv 6 Click Save SMS exports a copy of the waveform file to the location you specified Retrieving a Stored Waveform File 106 Previously acquired waveforms can be stored on board the circuit monitor see the waveform capture section in your circuit monitor instruction bulletin or in system data files see Exporting the Waveform File to Disk earlier in this chapter Note When you export waveform files SMS assumes a default destination directory of c sms 3000 V export If you accept this default you will be able to retrieve these stored files only from the PC on which they are stored Thus we recommend that you store all waveforms on a common file on the server PC This will ensure that all clients can retrieve all stored waveform files Also note that SMS saves waveforms captured in automated tasks in the Export file of SMS 3000 on the server PC Although these filenames will display when using the File option they are only accessible through the Import option You can retrieve stored waveform files according to the following instructions 1996 Square D All Rights Reserved
56. m Lo wos Dm 72 1996 Square D All Rights Reserved Chapter 6 Setting Up Functions and Alarms 40 Highest Pickup High Pickup Tank Level Low Pickup 20 Lowest Pickup l l l l l l l l l l l l le lt Level OK Tank Spill Imminent Tank High 4 Level OK H H H Alarm Logged Alarm Logged Alarm Logged Level5Alarm Level 1 Alarm Level 5 Alarm E Mail Boss E Time Analog Function Tank Level Example 1996 Square D All Rights Reserved Highest Dropout High Dropout 73 Bulletin 30801M9601 74 Defining Setpoints for Digital Functions After you have created a digital function see Creating Functions earlier in this chapter you must define its setpoints The setpoints are the conditions under which SMS generates alarms and executes tasks The procedure below tells how to define setpoints for a digital function An example digital function definition follows To define the setpoints for a digital function follow these steps 1 In the Functions Setup dialog box click the Functions tab 2 In the Functions box click the desired digital function then click Setpoints SMS displays the Digital Setpoint Edit dialog box Digital Setpoint Edit ix Device Type Circuit Monitor 2000 Function Delay 5 Poll nterval 5 sec Equal Severity Level 1 hd Annotation Name Current Phase Loss Seel
57. not print the next time you start the SMS client the report will print immediately When SMS automatically prints a scheduled report that contains historical data for example historical data tables the report includes historical data from present to the last time the scheduled report printed For example if the report were printed a month ago SMS would print only the last month s data even if the SMS database contained many months of historical data Creating a Report and Scheduling It for Automatic Printing To create a report follow these steps 1 On the Reports menu click Schedule Print SMS displays the Report dialog box Click Add SMS displays the Create Report dialog box 1996 Square D All Rights Reserved 123 Bulletin 3080IM9601 124 Report Name cose Demand Report Cancel Displays in report play Typ View Demand Readings Add Display Delete Display Schedule r nterval Report Start Time C 6 Week Date 3718 36 C Daly C Monthly 4 Time 11 56 23 AM C Oe Months In the Report Name box type a name for the new report At this point you must select the information to be included in the report You do this by adding displays To add a display click Add Display SMS displays the Add Display dialog box Add Display SMS 3000 Table Select the desired display then click OK What happens next depends on the type of displ
58. of the devices to which you are connecting 2 Serial Port Click the port to which the cable is attached 1996 Square D All Rights Reserved 19 Bulletin 3080IM9601 SY MAX RS 232 Serial Port Setup cont 3 Baud Rate Click the baud rate that the serial port will use This value must match the baud rate of all other devices on the network 4 PC Connected to NIM PNIM If the PC is connected to a NIM or PNIM check this box 5 Timeout Enter the amount of time SMS waits before retrying to communicate with the devices Default 5000 msec 6 Network Address This sets the network address for the PC on which the POWERLOGIC network server is installed This value must be an integer from 0 99 Each network device on a common network must be assigned a unique network address For example a PC cannot have the same address as a PNIM on the same network 7 To test the port click Test Port This ensures that the communications port passes the system s internal test If the test fails examine the Network Address box to verify that you have selected a valid number 8 Click OK to return to the Setup Comm Server Interface dialog box Setting Up Devices and Routes 1 Adding a Device You must set up a PC interface see previous section before you can add a device You can add devices when online or offline Note DDE device setup is described in Chapter 18 Using Dynamic Data Exchange DDE See chapter 18 for instructions o
59. only the meter accumulates kWh and kVarH as energy out of the load Power Demand PM 620 only Used in the average demand power calculations Enter a value between 1 and 60 in 1 minute increments 1 2 3 60 This creates a sliding block demand with the following characteristics from 1 15 minutes there is a 15 second subinterval from 16 60 minutes there is a 1 minute subinterval 10 Wiring Click to select 4 Wire if the power meter is wired in a 3 phase 4 wire system 3 Wire w 2CT if the power meter is wired in a 3 phase 3 wire system using 2 CTs 3 Wire w 3CT if the power meter is wired in a 3 phase 3 wire system using 3 CTs 11 Nominal Frequency Select 60 Hz or 50 Hz depending on the frequency of the electrical system 12 Mode Select the KYZ pulse to correspond with the mode you are using kWH kVarH kVAH or disabled 13 28 kXHr Pulse Disabled if the Mode is disabled Otherwise enter the pulse weight that corresponds with the mode you set 1996 Square D All Rights Reserved Chapter 3 Basic System Setup and Operation Working with the System Going Online Before you can communicate to the devices in a system you must load a system file The process of loading a system file is referred to as going online The Online command in the File menu is used to go online to a system that you have created The online system is the system that all clients conn
60. operations are usually much faster than this This requires taking the circuit monitor key switch to SETUP establishing communications with the unit and writing values to registers 400 and 401 See the circuit monitor instruc tion bulletin for more details 176 1996 Square D All Rights Reserved Appendix D Control Output Examples Override Control Output Example The following example describes how you could transfer load to a generator for the Over KW Demand Level 1 alarm condition Situation You have a CM 2350 metering your incoming utility service You have named this circuit monitor Utility Main You are using Over KW Demand Level 1 Alarm Number 67 in Appendix C to automatically energize relay R1 when KW Demand on the utility exceeds 2000 KW for 5 minutes The normally open R1 contact is wired to an auto matic transfer switch Upon R1 contact closure the transfer switch controls start a genera tor and the transfer switch switches to the emergency position Load is thereby automati cally transferred from utility power to your generator when KW Demand exceeds the 2000 KW pickup setpoint for 5 minutes When utility KW Demand subsequently decreases below a dropout setpoint of 1500 KW for 10 minutes the R1 relay de energizes and opens its contact The transfer switch controls then cause the transfer switch to switch back to the normal position and the transfer switch controls handle generator cooldown and shutd
61. relay makes it unsuitable for some control outputs applications Device 2150 SY MAX 1 or higher Device relay to operate Yes automatically based on Circuit Monitor onboard Alarm r I Online VO 1 Enable Onboard Operation 1 Enable Onboard Operation I Module Setup box must be checked box mustnot be checked Relay Mode must be 1 Requirements 2 Relay Mode must be 2 Relay Mode must be Normal Latched 1 CM2000 relays only Normal Latched Normal Latched or Timed I See Chapt 5 or Timed or Timed I capability to temporarily override relay operation from your computer Follovv the instructions in Before Setting Up Manual Control Outputs Follovv the instructions in Before Setting Up Override Control Outputs Do not set up a Control Output for the relay Follow the instructions in Setting Up Control Outputs 112 1996 Square D All Rights Reserved Chapter 13 Control Outputs Before Setting Up Manual Control Outputs If you are defining a control output for a CM 144 CM 244 or SY MAX PLC go straight to the section Setting Up Control Outputs If you are defining a manual control output for a Series 2000 Circuit Monitor you must first perform the required I O module setup as described in the control outputs setup flowchart and summarized below For a CM 2050
62. reopened and the data update mode is restored For example let s say that the following conditions were true SMS was in scheduled update mode with a 5 second update interval You were viewing a table of instantaneous current data for Feeder 1 You could then save the workspace exit SMS reenter SMS and open the workspace SMS would automatically display the table of instantaneous current data for Feeder 1 and begin taking data samples at 5 second intervals To save a workspace follow these steps 1 On the File menu click Save Workspace As SMS displays the Save As dialog box Save As 2 x Save in aga vi Pie name Plant1 Real Time Save as type V orkSpaces wks 2 2 Type a name for the workspace Be sure to use the file extension WKS 3 Click Save To open a workspace follow these steps 1 On the File menu click Open gt Workspace or click on the toolbar SMS displays the Open dialog box 2 Select the workspace to open 3 Click Open 1996 Square D All Rights Reserved 129 Bulletin 30801M9601 Creating Custom Tables 130 SMS provides a wide variety of pre defined tables In addition SMS allows you to define custom tables There are two ways you can create custom tables e You can use the New gt Quick Table command on the File menu to create a table with multiple quantities from a singe device You can then use the Save As command to save the table After you
63. setup tasks in the Functions Setup dialog box You access the Functions Setup dialog box by clicking Functions Alarms on the Setup menu The Functions setup dialog box has two tabs Functions and Function Assignment The two general tasks that you must complete to set up alarms are 1 Create global analog and digital functions for a device type such as the Series 2000 Circuit Monitor This is the heart of the alarm definition process In this step you will choose the quantities to alarm upon define the setpoints assign severity levels and assign tasks to execute when alarms occur The section Creating Global Functions in this chapter tells how 2 Assign the global functions you created in step 1 to specific devices After you ve created global functions for each device type you must assign them to specific devices in your system so that they can warn you of alarm conditions The section Assigning Functions to Specific Devices in this chapter tells how Note It is important to understand the concept of global functions and how they are assigned to specific devices The next section Understanding Global Functions provides further explanation 66 1996 Square D All Rights Reserved Chapter 6 Setting Up Functions and Alarms Understanding Global Functions You first define global functions per device type The illustration below helps to clarify the concept of global functions For the purpose of clarit
64. stored in the devices click the Update Device button Enter your username and password then click OK SMS copies the information from the database to the devices Reestablishing Communication with Devices 138 When you perform a system communications test or when you bring a system online SMS attempts to communicate with each device in the system SMS automatically takes devices that fail to communicate out of service Click on the Communication Status tab to view a list of devices that have lost communications You can attempt to reestablish communications with these devices System Device Status xj Communication Status Service Status Lost Communication Selected Devices CM Main IE cm feeder 6 Bring in Service lt To reestablish communication with devices that have lost communications follow these steps 1 In the System Device Status dialog box click the Communication Status tab If you are not already viewing the System Device Status dialog box click Diagnostics gt System Device Status on the Control menu to display it 1996 Square D All Rights Reserved Chapter 17 Diagnostics 2 In the Lost Communication box click the desired devices and drag them to the Selected Devices box or use the gt gt gt buttons 3 Click the Bring In Service button SMS displays the System Communications Test dialog box 4 Click the Start Testing button SMS attempts to communicate to each of the selected
65. suue y swepe asayy o Aqdde jou op sKejop aum pue syutodjas 30N UO 0 HO uonisuer 1 1ndu GZ epp op 0 MOY UO UOTI29ITD 107 Haf uoronjsut IOUO FMND 0002 Salas ay 01 z y r fEUNOU V g O APU oj peurure1do1doz aq ued OJUO 312211 ay D g V Jo pe lsut euturou sr aseyd y g J 3J0N O g V Jou st uonejor aseyd wojaaem a3eyfOA aseyd Va smooo uonesedo wiepy were sry o Aqdde jou op sXeyap eum pue syutodyas ejqeorddy TEST A N seUd 9L MYOS 1e 11200 jrm 3nodoap MY007 1e 10200 ITA dnyoid urere syutodyas mo dorp pue dnypid durex ay 104 suonrpuoo Jamod aayesau 10 2519421 luo puo m oo filM uonezedo wey jnodorp Ayo ny rd vam edurexq nodorp ue oun dnyptd sanqea 19833ur Anisod sayy MY I9MOq ST A N Cu r di s dnypid am MN eayesau 10 aaytsod uo dn yprd qm J Os My JO anrea aynjosqe ayy uo paseq sr uonerado uuepy 3nodoip my 0007 dmpid My 06 1 aide nodorp uey Jamoy angea dnyprg sanjea Jasaqut Anisod om MN OL MM 1 pun ZZ nodorp 6 dnypid 6 ad nodoup g g dnyoid 3nodoip ce dnyord gg durexg dnypid uey 8urpeay zouu aq asnu pue 3ur83e Jo Surpeay anisod aq ue anpeA modorq nodozp uey Surpeay ss aq 1snur pue Sur89e aateSau 10 Surpeo Anisod aq ue3 enjeA dnypig p p u J supuesnot 01 enpeA eurpep Jam s n eA 10128 ano snoeuequejsur uo paseq are PM
66. the circuit monitor s memory that has been allocated The colors in the bar show how the allocated memory is divided among the different log file types event waveform and data logs and the portion of the circuit monitor memory still available Bar Color Indicates the allocated device memory blue Used by the event log red Used by the data logs green Used by the waveform capture logs black Still available To display the Memory Usage Summary click the Memory Usage Summary button at the bottom of the On board Data Storage tab The Memory Usage Summary dialog box contains two tabs Calculated The Calculated tab shows how the memory allocation choices you ve made on the Onboard Data Storage tab will affect memory usage if you choose to update the circuit monitor SMS does not send the memory allocation information to the circuit monitor until you either click Update or click Close and save the changes You can use the Calculated tab to try different memory allocation scenarios before you update the circuit monitor Actual The Actual tab shows how the circuit monitor s memory is presently allocated The Calculated and Actual tabs display the following information Status of each file Number of records allocated to each file Number of registers used by the allocated records Percentage of the circuit monitor s total available memory that is used by each log file Percentage of the circuit monitor s total availab
67. the voltage signals Enter the PT Ratio in terms of X 120V For example if the PT ratio is 288 120 enter 288 6 Accumulated Energy Circuit monitors can accumulate energy in two modes absolute or signed In absolute the circuit monitor accumulates energy based on the absolute value of real power regardless of the direction of power flow In signed the circuit monitor accumulates energy with regard to sign that is for reverse power flow the accumulated energy value is reduced 1996 Square D All Rights Reserved Chapter 3 Basic System Setup and Operation At this field Do this 7 Connection Refers to the system wiring Click 3 Wire if the circuit monitor is wired in a 3 phase 3 wire system Click 4 Wire if the circuit monitor is wired in a 3 phase 4 wire system 8 Current Precision Determines whether all current values are returned in amps or tenths of amps Amps 10 Select Amps 10 when greater precision is required 9 Demand Interval Used in the average demand power calculations enter a value between 5 and 60 in 5 minute increments 5 10 15 60 Default is 15 minutes Power Meter Setup When you select Power Meter SMS displays the power meter Device Setup dialog box Power Meter Setup Device Accumulated Energy Label PM Absolute H Nameplate POWER METER SPHWERDENTSRH r Metering Internat 54 Minutes cr 5 x r Witing Range
68. to create additional reports Manually Printing a Report To manually print a report follow these steps 1 On the SMS menu bar click Reports SMS displays the Report dialog box 2 Select a report from the list of defined reports then click Print Even if you ve scheduled a report to print automatically you can still print it manually For example you might schedule a report to print at the first of each month then decide you d like a mid month printout Simply print the scheduled report manually as de scribed above If the report contains historical data SMS includes historical data from the last time the report printed automatically to present When you manually print a report that is not scheduled for automatic printing SMS prints the data from the last time the you manually printed the report to present 1996 Square D All Rights Reserved 125 Bulletin 30801M9601 Chapter 15 Getting Data To and From Other Places This chapter describes ways to get SMS data to and from other places using the clip board printing and saving to a file Copying Waveforms Using the Clipboard Printing 126 The clipboard is a standard feature of virtually all Windows applications The clipboard allows you to copy waveforms and paste them into other Windows applications that support the clipboard format To use the clipboard follow these steps 1 Display the waveform to be copied 2 Click in the waveform window to make it the ac
69. window follows Control Box The Control Box has seven commands which involve resizing moving closing and switching to other Windows applications Menu Bar The Menu Bar displays all of the pull down menus available in an applica tion Each menu item can be accessed either by clicking on a menu item name or by holding the ALT key down and then pressing the key that corresponds to the underlined letter in the menu item name Once the menu is open choose a command either by clicking the command name or by pressing the key that corresponds to the underlined letter in the name 1996 Square D All Rights Reserved 9 Bulletin 30801M9601 Parts of a Window cont Title Bar The Title Bar displays the name of the application or window You can display more than one window at a time but only one of them can be active To avoid confu sion the title bar of the active window is a different color than the rest of the windows on the screen To activate a window you can do one of two things click the window to bring it to the front from the Window menu click the name of the window to be displayed Sizing Boxes Click these boxes to minimize maximize the active window or to close the window Toolbar The toolbar includes two parts the toolbar icons and the sampling mode line Each of these parts is dockable meaning the user can click on it and move it to various positions on the screen for example along the left side
70. you must Select a mode normal latched or timed for the relay For a CM 2150 or higher you must do two things Select a mode normal latched or timed for the relay Verify that the Enable Onboard Operation checkbox on the I O module tab in the CM 2000 Device Setup dialog box is not checked If you have not previously completed these setup tasks see Setting Up Relay Outputs in Chapter 5 for instructions After you ve completed the required I O module setup follow the instructions in the section Setting Up Control Outputs in this chapter to define control outputs Before Setting Up Override Control Outputs Before you can define an override control output for a CM 2150 or higher you must follow these steps Select a mode normal latched or timed for the relay Verify that the Enable Onboard Operation checkbox on the I O module tab in the CM 2000 Device Setup dialog box is checked Setup the desired alarm conditions to operate the relay output If you have not previously completed these setup tasks see Setting Up Relay Outputs in Chapter 5 for instructions on completing the first two tasks in the list above See Setting Up Onboard Alarm Events in Chapter 5 for instructions on completing the third task In addition to the required setup tasks described above we recommend that you define two digital functions for the relay one for relay on off status and one for relay over ride status By defining th
71. 0 865 Lag 0 987 Lag 0 994 Lag Phase C 0 865 Lag 0 986 Lag 0 994 Lag 3 Phase Total 0 866 Lag 0 987 Lag 0 994 Lag To change the update mode click the Control menu and set the update to scheduled or manual See instructions in Setting the Sampling Mode in Chapter 3 Basic System Setup and Operation Displaying a Bar Chart SMS can display real time data in the form of bar charts Although only one type of data can be viewed at a time for example load phase currents or power flows but not both you can change the displayed data with a single mouse click You can display data from more than one device or group of devices For example you might want to view load phase currents for all three feeders in a group The bar chart will contain three sets of three bars Each set will correspond to phase A phase B and phase C of the feeders 1996 Square D All Rights Reserved 37 Bulletin 30801M9601 Displaying a Bar Chart cont The following table lists by device type the real time data that SMS can display Bar Chart Displays by Device CM CM Power Digital Data 2000 1100 200 Meter 810D PIF 3 Relay Powerlink PIF 85 Load phase currents X X X X X X Average load current X X X X Demand phase currents X X X X X Peak demand phase currents X X X X X System phase voltages L L X X X System phase voltages L N X X X Power flows X X X X Demand power flows X X X X Phase power factors X X X Powe
72. 11 Displaying On Board Log Files 17 Creating and Executing Control Outputs 13 Displaying Waveforms 12 Displaying Real Time Data meters bar charts tables 4 Displaying Historical Data history tables trend plots 10 Using Tasks to Automate Processes 7 Viewing Alarms and Events 8 Setting up Data Logging devices without onboard memory 9 Creating and Printing Reports 14 Performing Diagnostics 17 Customizing Software 16 Using Dynamic Data Exchange 18 1996 Square D All Rights Reserved 7 Bulletin 3080IM9601 Chapter 2 The SMS Interface Logging on to the System Before you can log on to SMS you must first start the server and client If you are not sure how to do this see SMS 3000 Startup in chapter 4 of the SMS 3000 System Administrator s Guide If SMS has lost communication with a device or if device setup information has been changed so it does not match the SMS setup information the System Device Status dialog box displays The procedures for bringing devices and SMS back into communi cation are covered in Chapter 17 Diagnostics SMS displays the SMS client main window Sizing Title Bar Sampling pos Control Box Mode Line Menu Bar SMS 3000 Client New Workspace Edt View Setup Conttol Display Repons Tools Window Hep Dockable 4 az d l El SS Toolbar Minimized Windows Event Log is D xi E F sIE3 kama Alarms System Informa
73. 145 setting up SMS as aDDE server 144 Devices adding 20 setting up 20 Diagnostics 136 Digital functions defining setpoints for 74 Bulletin 30801M9601 Displaying a 4 cycle waveform data block 103 104 active functions 43 bar charts 37 history tables 96 meters 40 on board data 141 real time data 34 tables 35 time trend plots 96 Dynamic Data Exchange See DDE E Edit system See Working System Enable on board operation 111 Event log setting up the circuit monitor 56 viewing 89 Executing a manual control output 120 an override control output 121 Exporting waveforms to an SMS data file 105 F File services 146 Functions assigning to specific devices 77 defining setpoints for analog 69 defining setpoints for digital 74 displaying active 43 editing 77 setting up 65 G Global functions creating 68 defined 67 Going Offline 31 Going Online with a system 29 with a workspace 29 Groups 128 H Help using online 2 History tables displaying 96 saving data to a file 127 Input output module feature comparison 15 setting up 45 Inputs setting up circuit monitor analog 48 L Log templates assigning to devices 94 Logging See Data logging Logging on to SMS 8 Mail tasks creating new 80 Manual control output example 174 executing a 120 Manual update 32 Memory usage summary 55 Menu bar 9 Meters displaying 40 Mode setting the sampling 31 Offline See Going Offline On board alarms entering s
74. 2 device not responding 43685 RS 232 unable to comply 1996 Square All Rights Reserved 185 Index A Acknowledging alarms 87 Add on modules 2 Adding devices 20 routes 21 Alarms defined 65 entering setpoints for cm 2000 on board 165 examples 65 setting up 65 setting up circuit monitor on board 60 setting up severity levels 76 silencing 88 viewing and acknowledging 87 viewing the alarm log 88 Analog functions defining setpoints for 69 example 71 Analog inputs example 50 setting up 48 Analog outputs examples 52 setting up 51 Assigning functions to devices 77 log templates to devices 94 Associating an input with a control output 117 Bar charts displaying 37 C Circuit monitor feature comparison 14 I O modules comparison 15 series 100 200 setup 26 series 2000 basic setup 24 Index Circuit monitor alarms entering setpoints for 165 Clipboard using the 126 Command line parameters 182 Communications re establishing 138 testing 136 Control box 9 Control output 110 associating with an input 117 definitions 110 manual example 174 executing 120 override example 177 executing 121 settingup 115 setup flow chart 112 Custom quantities 131 Custom tables 130 D Data logging 91 creating log templates 93 default data log template 59 organizing log files 59 setting up circuit monitor on board 57 setting up PC based 92 DDE 143 abbreviations for creating DDE links 147 184 changing the DDE update interval
75. 3 Click Acquire New then click whether you want a 4 cycle or extended capture The size of the extended waveform 12 24 36 48 or 60 cycles is established in the Onboard Data Storage tab when setting up a Series 2000 Circuit Monitor The default is 12 cycles Click OK SMS captures the waveform data and then displays it The figure below illustrates a 4 cycle waveform for the device named CM main 4 Cycle Waveform cm main 10 04 96 16 35 49 A al va vb ve ta i ic L L E 2 Phase A N Voltage y 3 Phase B N Voltage Phase Current 7 3 Phase B Current y 3 Phase C N Voltage il 3 3 Phase C Current 3 Waveforms display with the date and time of capture from the circuit monitor clock To view additional information or to export the waveform to a data file in your SMS network see Toolbar Buttons Displaying a 4 Cycle Waveform Data Block and Exporting the Waveform to Disk later in this chapter 102 1996 Square D All Rights Reserved Chapter 12 Working with Waveforms Toolbar Buttons The toolbar at the top of the waveform window contains buttons that you can click to change the view to acquire and to export The figure below illustrates these buttons Show All Graphs all 3 voltage 2 F Zoom out Export displays hases and all 3 99mm p Show current by Export Waveform current 57 a b c Acquire Waveform MIEL displays Acquire
76. 5 7 8 E LM MN IN q q LM NN CN C x x Blue danger zl Help Black 7 vi Red 7 ka 7 s EEA S ee 2111 1 2 gt E Alarm Level table At this field Do this Audible Check this box to make the PC sound when the alarm occurs The sound alerts the user to examine the Alarms List window A sound can be any wave file wav Select a specific sound from the Sound list box described below Visible Check this box to make the Active Alarms window display when an alarm occurs If the Active Alarms window is reduced to an icon the icon will flash To assign a color to the text that appears in the Active Alarms entry select a color from the Color drop down list box described below Acknowledge Check this box to force the user to respond to the alarm When an alarm occurs the Alarm Acknowledgment window displays To clear the window the operator must acknowledge each alarm in the list The Alarm Log lists the date time and user name of the user who acknowledges an alarm Password Check this box to force the operator to enter a password to acknowledge the alarm Color Click the color that you want the alarm entry to be in the Active Alarms and Alarm Acknowledgment windows To add colors click the Color button Sound Click the sound that you want to hear when the alarm occurs To add a sound click the Sound button and select a wave wav file Note We recommend that
77. 96 Title bar 10 Toolbar 10 icon descriptions 12 Trend plot saving data to a file 127 U Update interval setting 32 V Viewing active alarms 87 active functions 43 alarm log 88 bar charts 37 event log 89 history tables 98 meters 40 on board data 141 tables 35 time trend plots 98 waveforms 101 W Waveform log setting up circuit monitor 56 Waveform upload tasks 83 Waveforms acquiring new 101 changing the view 103 displaying a 4 cycle waveform data block 103 104 exporting to an SMS data file 105 retrieving stored 106 from circuit monitor 107 Working system 9 changing 31 closing 31 opening 30 Workspace 129 automatically opening at startup 183 going online using 29 Writing and reading registers 140 Index
78. Control Output named Gen Load Xfer for the circuit monitor Utility Main as described below The dialog boxes below illustrate the defined control output and associations Predefined Relay 1 On 1 Action name Gen Xfer On Off 0 Action name Gen Xfer Off Association for On 1 Action Gen Xfer On Device Utility Main Digital Function Xfer Sw Position Delay 15 seconds to allow time for generator start and transfer to generator power Select option button for Emergency condition Association for Off 0 Action Gen Xfer Off Device Utility Main Digital Function Xfer Sw Position Delay 15 seconds to allow time for transfer back to utility power Select option button for Normal condition Associated Condition Lx Control Output Gen Load Xfer Devices Conditions Defined Add Control Output x Control Output Name Gen Load xfer X lt No Association m 75 Status Pre defined Rela 1 d E D All Devices tatus D Bi ui Xfer Sw Position C User Defined 1 power meter m mOn 1 Action Gen xfer On Device Utility Main Properties Condition fer Sw Position ol gency i 1 Delay fil seconds Bui _Associate Status Emergency C Normal m Off Action Cancel Help Device Utility Main fecal ES mm Condition fer Sw Position Associated Condition x Status Normal Control Output Gen Load Xfer Devices Conditions Defined 2
79. Counters X X 1996 Square D All Rights Reserved 99 Bulletin 30801M9601 To reset device data follow these steps 1 On the Control menu click Resets 100 The Device Resets dialog box displays Device Types Circuit Monitor 2000 T Devices Available Devices Chosen 2 All Devices ea Close Help Ea ES Resets Available Resets Chosen J 4 Cycle Wave Form Log Accumulated Energy J Conditional Energy Device Date Time Incremental Energy Interval Min Max Onboard Data Log 1 Onboard Data Log 10 S C C C From the Device Types box click the type of device you want to reset Note that the resets that can be made ate listed in the Resets Available box at the bottom left of the dialog box From the Devices Available list click the specific device s that you want to reset You can reset any set of individual devices of the type selected in step 2 any group of devices of the type selected in step 2 all devices resetting all devices in the system that are the type selected in step 2 Click gt or drag the devices to the Devices Chosen box From the Resets Available box click the reset s you want to include Click gt or drag the devices to the Devices Chosen box Click Reset The message Reset Operation s passed displays Click Close to return to the SMS main window 1996 Square D All Rights Reserved Chapter 12 Worki
80. DVBC Max THD Voltage C A MaxTHDVCA Max thd Current A Maxthd IA Max thd Current B Maxthd IB Max thd Current C Maxthd IC Max thd Current N Maxthd IN Max thd Voltage A N Maxthd VAN Max thd Voltage B N Maxthd VBN Max thd Voltage C N Maxthd VCN Max thd Voltage A B Maxthd VAB Max thd Voltage B C Maxthd VBC Max thd Voltage C A Maxthd VCA Max K Factor A MaxKFA Max K Factor B MaxKFB Max K Factor C MaxKFC Max Crest Factor A MaxCFA Max Crest Factor B MaxCFB Max Crest Factor C MaxCFC Max Crest Factor N MaxCFN Max Fundamental Real Power A MaxfkWA Max Fundamental Real Power B MaxfkVVB Max Fundamental Real Povver C MaxfkVVC Max Fundamental Real Povver Total MaxfkWTtl Max Fundamental Reactive Power A Maxfk VARA Max Fundamental Reactive Power B Maxfk VARB Max Fundamental Reactive Power C MaxfkVARC Max Fundamental Reactive Power Total MaxfkVARTtI Max Harmonic Factor A MaxHFA Max Harmonic Factor B MaxHFB Max Harmonic Factor C MaxHFC Max Harmonic Factor Total Real Power A MaxhkWA 1996 Square D All Rights Reserved 153 Bulletin 30801M9601 154 Quantity Abbreviation Max Harmonic Real Power B Max Harmonic Real Power C Max Harmonic Real Power Total Max Analog Input 1 Value Max Analog Input 2 Value MaxhkWB MaxhkWC MaxhkWTtl MaxAnalogln1 MaxAnalogIn2 Max Analog Input 3 Value Max Analog Input 4 Value Real Energy Into the Load MaxAnalogln3 MaxAnalogln4 kVVHr 1 Reacti
81. Entering Pickup and Dropout Setpoints and Delays Appendix C Entering Pickup and Dropout Setpoints and Time Delays for CM2000 On Board Alarms This appendix lists permissible values for pickup and dropout setpoints and time delays for CM 2150 and higher on board alarms and events with Version 14 firmware and later Exact values must be determined by the user based on the application The Series 2000 Circuit Monitor instruction bulletin lists detailed definitions for alarms and events The following tables list more specific guidelines for entering pickup and dropout setpoints and time delays from this software General Rules The following are general rules for entering the setpoints and time delays Do not enter commas for any value For example enter 10000 not 10 000 Time delays can be set from zero to 32767 seconds in whole second increments except as noted for the Swell and Sag events which are in cycles Differences Between Software and Front Panel Displays Important The pickup and dropout setpoints downloaded to the circuit monitor from the software may differ from the setpoints viewed from the front panel LED display on the circuit monitor itself This is because the software displays scaled values while the circuit monitor displays register values Two examples of this With PT ratio set at 138000 120 and an undervoltage alarm set at 130000 volts a pickup value of 130000 is entered and downloaded from the softwar
82. Event Check the 4 Cycle checkbox if you want the circuit monitor to perform a 4 cycle waveform capture each time the alarm condition occurs Check the Extended checkbox if you want the circuit monitor to perform an extended waveform capture 12 24 36 48 or 60 cycles each time the alarm condition occurs If you check the Extended checkbox you can enter the number of pre event cycles CM 2350 and higher only The number of pre event cycles you enter applies to all extended waveforms captured by this device Only the high speed input events and event numbers 201 214 use the pre event cycle selection and allow date time stamping to the millisecond For I O modules IOM 18 and 1 44 status input S2 is the high speed input For any of the four I O modules with analog I O all four status inputs S1 through S4 are high speed inputs Note A CM 2250 can store only one 4 cycle and one 12 cycle waveform capture in volatile memory If the circuit monitor is a CM 2350 or higher you can specify multiple waveform captures in nonvolatile memory See Setting Up the Circuit Monitor On Board Waveform Capture Logs in this chapter for instructions on setting up a waveform log file 1996 Square D All Rights Reserved 63 Bulletin 30801M9601 64 Assigning a PC Action The PC Action button lets you assign a task to automatically execute when the selected alarm condition becomes true Note By default SMS checks for onboard alarms at 60 second inter
83. File Services will run If you need instructions on installing a printer see your Windows documentation To use the File Services program do the following 1 Click File Services on the Tools menu to start the File Services program As the program starts you ll see the Microsoft Access opening screen File Services uses Microsoft Access to generate reports The SMS 3000 File Service dialog box displays amp File Services File View Tools Window Help EE SMS 3000 File Service xj 1 C Onboard events from selected system and device Analog functions assiqned from selected system Double click on a device group or template from the list In the Report box select the desired report If the report requires you to select other options such as a specific device or driver additional boxes will appear Make the appropriate selections To view the report click Preview Report Files Services displays the formatted report To print the report click Print on the File menu 1996 Square D All Rights Reserved Appendix B Abbreviations for Quantities Appendix B Abbreviations for Quantities You will use these abbreviations when creating DDE links in Microsoft Excel spreadsheets The abbreviations also appear in tables as column heads The abbreviations are case sensitive when being used in Excel to set up DDE quantities Quantity Abbreviation Update Interval Updateint Frequency Hz T
84. In the Onboard Alarm Check box enter the desired interval in seconds 4 Click OK to save your changes and exit the configuration program 1996 Square D All Rights Reserved Chapter 6 Setting Up Functions and Alarms Chapter 6 Setting Up Functions and Alarms What are Alarms One of the System Manager software s most powerful features is its ability to generate alarms Alarms are how SMS warns you that an event of interest has occurred in your power system You can define an alarm based on any quantity provided by your power monitoring system Here are a few examples Quantity Alarm defined to Benefit Current Warn you of an overcurrent condition Prevent costly shutdowns and damage to equipment Voltage unbalance Warn you that phase voltages are Voltage unbalance over 3 can cause not balanced premature failure of induction motors Voltage Warn you of an undervoltage condition Low voltage can make equipment more susceptible to shutdown during voltage sags Demand Warn you of high peak demands Warn you in advance of peak demands so that you can shed loads and avoid costly peak demand charges Transformer Temperature Warn you of overly high temperatures Prevents transformer overloading and damage Circuit breaker status Warn you that a circuit breaker Enables you to quickly locate has tripped a power problem and repair it Total harmonic distortion Warns you of high levels of Can identify harmonic
85. KYZMode R1 Relay Mode R1Mode R2 Relay Mode R2Mode R3 Relay Mode R3Mode Analog Output 1 Label AnalogOutLabel1 Analog Output 2 Label AnalogOutLabel2 Analog Output 3 Label AnalogOutLabel3 Analog Output 4 Label AnalogOutLabel4 Analog Input 1 Units AnalogIn1 Units Analog Input 2 Units AnalogIn2Units Analog Input 3 Units AnalogIn3Units Analog Input 4 Units AnalogIn4Units High Speed Event Pickup Mode HiSpeedPickupMod Oldest Record Event File EvntOldRecord Newest Record Event File EvntNewRecord Maximum Current Limit MaxlLimit Maximum Voltage Limit MaxVLimit Maximum Power Limit MaxPLimit Energy Accumulation Mode AccumMode Energy Management Level 1 Status EMLvI1Status Energy Management Level 2 Status EMLvl2Status 156 1996 Square D All Rights Reserved Appendix B Abbreviations for Quantities Quantity Abbreviation Energy Management Level 3 Status EMLvi3Status nput 1 Status Input Input 2 Status Input2 Input 3 Status Input3 Input 4 Status Input4 Input 5 Status Input5 Input 6 Status Input6 Input 7 Status Input7 Input 8 Status Input8 Input 9 Status Input9 Input 10 Status Input10 Input 11 Status Input11 Input 12 Status Input12 Input 13 Status Input13 Input 14 Status Input14 Input 15 Status Input15 Input 16 Status Input16 Input 17 Status Input17 Input 18 Status Input18 Input 19 Status Input19 Input 20 Status Input20 Input 21 Status Input21 Input 22 Status Input22 Input 23 Status Input23 Input 24 Status I
86. Outputs command on the Control menu If you are using the Interactive Graphics Interface GFX 700 you can also execute a control output using a control block For instructions on executing control outputs from a diagram refer to the Interactive Graphics Interface instruction bulletin To execute an override control output follow these steps 1 If SMS is not online to your system click the Online gt System command on the File menu to go online Then set the sampling mode to Scheduled Update 2 On the Control menu click Control Outputs SMS displays the Control Outputs dialog box Control Outputs x Devices All Devices Close Bi E Help Control Names Open Main 1 Bisse ham 3 In the Devices box select the desired device The Control Names box shows all control outputs defined for the selected device 1996 Square All Rights Reserved 121 Bulletin 30801M9601 4 In the Control Names box select a control output to execute 5 Click a button corresponding to your intent based on the table below SMS displays the security box Enter your username and password then click OK Override can be thought of as taking the relay out of auto operation mode and putting it into manual operation mode After you have placed a relay in Override you can force it On and Off using the On Action and Off Action buttons While in override the relay will not respond to automatic control requests based on the circuit mo
87. Square D All Rights Reserved 117 Bulletin 3080IM9601 Digital Setpoint Edit x Device Circuit Monitor 2000 Function Input 1 Status Delay fo Pall Interval seconds Equal Severity uo ALARM 1 Annotation Name Jesu Dn Tasks no TASK d Non Equal Severit NO ALARM Annotation Name Input 1 Off JI z motion Tasks No Task Close Help The procedure that follows tells how to create an association It uses the illustration above as an example For the example assume that we have already create a control output called Contactor 1 Open Close that is used to operate relay R1 and that we have defined a digital function called Input 1 Status as shown in the dialog box above To associate an input with a control output follow these steps 1 On the File menu click Open gt System and select a system to edit 2 On the Setup menu click Control Outputs SMS displays the Defined Control Outputs dialog box Defined Control Outputs x Devices All Devices Close HET Rcgi H PM Hep iH power meter Control Names Contac 1 Open Close Configure Delete 6 In the Devices box select the desired device 7 In the Control Names box select the control output for which you will create an association For our example we selected the control output called Contac 1 Open Close 8 Click Configure SMS displays the Configure Control Outpu
88. State Overridden Not Overridden Yes 1996 Square All Rights Reserved Chapter 13 Control Outputs Function Name R2 Override Status Quantity R2 Relay Override State Equal Condition Name Overridden Non Equal Condition Name Not Overridden Alarm Yes Function Name R3 Override Status Quantity R3 Relay Override State Equal Condition Name Overridden Non Equal Condition Name Not Overridden Alarm Yes After you ve completed the required setup follow the instructions in the section Set ting Up Control Outputs below to define control outputs Setting Up Control Outputs It may be helpful for you to read Appendix D Control Output Examples before setting up control outputs To define a new control output follow these steps 1 2 On the File menu click Open gt System then select the system to edit On the Setup menu click Control Outputs SMS displays the Defined Control Outputs dialog box shown below Defined Control Outputs x Devices All Devices BB cm feeder 3 H cm feeder 4 BB cm feeder 5 H om feeder 6 Ra zl Control Names In the Devices box select the desired device The Control Names box updates to show any previously defined control outputs for the selected device Click the Add pushbutton SMS displays the Add Control Output dialog box 1996 Square D All Rights Reserved 115 Bulletin 30801M9601 116 Configure Control Output x Control O
89. Status Over Voltage Ph C A Alarm Alarm18Status Under Voltage Ph A N Alarm Alarm19Status Under Voltage Ph B N Alarm Alarm20Status Under Voltage Ph C N Alarm Alarm21 Status Under Voltage Ph A B Alarm Alarm22Status Under Voltage Ph B C Alarm Alarm23Status Under Voltage Ph C A Alarm Alarm24Status Voltage Unbalance Ph A N Alarm Alarm25Status Voltage Unbalance Ph B N Alarm Alarm26Status Voltage Unbalance Ph C N Alarm Alarm27Status Voltage Unbalance Ph A B Alarm Alarm28Status Voltage Unbalance Ph B C Alarm Alarm29Status Voltage Unbalance Ph C A Alarm Alarm30Status Voltage Phase Loss Alarm Alarm31 Status Over KVA Alarm Alarm32Status Over KW Into the Load Alarm Alarm33Status Over KW Out of the Load Alarm Alarm34Status Over KVAR Into the Load Alarm Alarm35Status Over KVAR Out of the Load Alarm Alarm36Status Over Demand Current Ph A Alarm Alarm37Status Over Demand Current Ph B Alarm Alarm38Status Over Demand Current Ph C Alarm Alarm39Status Over Demand Current Average Alarm40Status Over Frequency Alarm Alarm41 Status Under Frequency Alarm Alarm42Status Lagging Power Factor Alarm Alarm43Status 1996 Square D All Rights Reserved 159 Bulletin 30801M9601 160 Quantity Abbreviation Leading Power Factor Alarm Alarm44Status Lagging Displacement P F Alarm Alarm45Status Leading Displacement P F Alarm Alarm46Status Over THD Current Ph A Alarm Alarm49Status Over THD Current Ph B Alarm Alarm50Status Over THD C
90. T K Factor Dmd Peak Product B DTCoinKFDB D T K Factor Dmd Peak Product C DTCoinKFDC D T Peak Demand Reactive Power DTPkkVARD D T Peak Demand Apparent Power DTTPkkVAD Incremental Energy Start Time of Day IEStartTOD D T Clear of Conditional Energy DTCECIr D T Last Increment Energy Update DTIEUpdate 1996 Square D All Rights Reserved 155 Bulletin 30801M9601 Quantity Abbreviation D T Peak Demand Current Avg DTPkIDAvg D T Peak Demand Current N DTPkIND D T Max KWD in Last Inc Energy Intvl DTIEMaxkWD D T Max KVARD in Last Inc Energy Intvl DTIEMaxkVARD D T Max KVAD in Last Inc Energy Intvl DTIEMaxkVAD D T Last Write to Registers 2000 2999 DTR2000 2999 Source of Last Write Reg 2000 2999 SourceR2000 2999 D T Last Write to Registers 5600 6999 DTR5600 6999 Source of Last Write Reg 5600 6999 SourceR5600 6999 D T Last Write to Registers 7000 7399 DTR7000 7399 Source of Last Write Reg 7000 SourceR7000 7399 Label DeviceLabel Nameplate DeviceNP Incremental Energy Interval IncEnergylnt Power Demand Interval PovverDmdint Power Demand Sub Interval PovverDmdSubint Current K Factor Demand Interval CurrentDmdint Input Output Module Installed IOModule Energy Mgmt Setpoint Level 1 EMLvliSP Energy Mgmt Setpoint Level 2 EMLvI2SP Energy Mgmt Setpoint Level 3 EMLvISSP Energy Mgmt Level 1 Highest Demand EMLvI1Worst Energy Mgmt Level 2 Highest Demand EMLvl2Worst Energy Mgmt Level 3 Highest Demand EMLvI3Worst KYZ Relay Mode
91. USER S MANUAL System Manager Client Server Version 3 0 Square D POWERLOGIC POWERLINK MICROLOGIC LIFEGARD and D are Registered Trademarks of Square D Company System Manager is a Trademark of Square D Company Other names are trademarks or service marks of their respective companies 1996 Square D Company all rights reserved This bulletin may not be copied in whole or in part or transferred to any other media without the written permission of Square D Company Contents Contents Chapter 1 Introduction zu ordner neuen 1 Register Your Software NOW n stress enne nnne nnns 1 AJ RE EET 1 Add On Modules uu s tette dett cutter sicot s o TA a aaa 2 Notational GonVentlons rie deer I du ee aan e ee dv de 2 ll lee RE 2 Abee deht a ec Eeer Ee 3 Technical Support ayga X A eget cena cU eer c Waaa UL 6 What You Should Know Before You Begin a 6 Start With the SMS Info txt File 6 System Requirements tere detegit etie i eee dere petere Ear ipee re ER ied 6 Chapter 2 The SMS Interface UU U a a aa Rana 8 Logging on Io Gvstem iaasa aaan eee eee aaa eee ara aya A aeaa Eaa EEn aei 8 The Online System saccis rate Ett o orat Cete pd pied 9 The Worklng System c eee aa eR E ERR eR NE cep a tee HE En 9 P atie 6f VVindoy em 9 Parts of the IoolDar iie ien e E er Ree Eee E ee E DR e ERE SERERE 12 Chapter 3 Basic System
92. Voltage L L Avg MaxVLLAvg Max Voltage A N MaxVAN Max Voltage B N MaxVBN Max Voltage C N MaxVCN Max Voltage L N Avg MaxVLNAvg Max Voltage Unbalance A B MaxVUnbalAB Max Voltage Unbalance B C MaxVUnbalBC Max Voltage Unbalance C A MaxVUnbalCA Max Voltage Unbalance L L Worst MaxVUnbalLL Max Voltage Unbalance A N MaxVUnbalAN Max Voltage Unbalance B N MaxVUnbalBN Max Voltage Unbalance C N MaxVUnbalCN Max Voltage Unbalance L N Worst MaxVUnbalLN Max Power Factor A MaxPFA Max Power Factor B MaxPFB Max Power Factor C MaxPFC Max Power Factor Total MaxPFTtl Max Displacement Power Factor A MaxDPFA Max Displacement Power Factor B MaxDPFB Max Displacement Power Factor C MaxDPFC Max Displacement PF Total MaxDPFTtl Max Real Power A MaxKWA Max Real Power B MaxKWB Max Real Power C MaxKVVC Max Real Povver Total MaxKWTtl Max Reactive Power A MaxkVARA Max Reactive Power B MaxkVARB Max Reactive Power C MaxkVARC 1996 Square D All Rights Reserved Appendix B Abbreviations for Quantities Quantity Abbreviation Max Reactive Power Total MaxkVARTII Max Apparent Power A MaxkVAA Max Apparent Power B MaxkVAB Max Apparent Power C MaxkVAC Max Apparent Power Total MaxkVATtl Max THD Current A MaxTHDIA Max THD Current B MaxTHDIB Max THD Current C MaxTHDIC Max THD Current N MaxTHDIN Max THD Voltage A N MaxTHDVAN Max THD Voltage B N MaxTHDVBN Max THD Voltage C N MaxTHDVCN Max THD Voltage A B MaxTHDVAB Max THD Voltage B C MaxTH
93. Voltage Phase C Current 7 3 69 3 2 Place the cursor on the title Phase A Current for example of a single waveform plot 3 Double click the title of the single waveform plot SMS displays the waveform data block for the selected waveform plot shown in the figure below The waveform and the data block can be printed at this point Separate printouts of each will print automatically Harmonics RMS Fundamental 10 60 RMS 1202 RMS H 5 67 Peak 21 42 br 1 78 ASUM 2878 THD 53 51 IT 10603 74 104 1996 Square D All Rights Reserved Chapter 12 Working with Waveforms The following table lists definitions of the data illustrated in the data block on the previous page Waveform Data Block Fundamental Fundamental Frequency Component Magnitude 60 Hz The rms magnitude or root mean square rms value of the fundamental component the fundamental value for 60Hz systems is 60Hz RMS RMS Magnitude The magnitude of the waveform including effects from the fundamental and harmonic components RMS H RMS Magnitude of Harmonic Components The magnitude of the square root of the sum of the squares of the magnitudes of the individual harmonic components of the waveform Peak Peak Magnitude The largest value absolute value the waveform reaches in the acquired sample CF Crest Factor The peak magnitude of the waveform divided by the rms value of the waveform ASUM
94. Yno suere o puods t MOJS J AHLT I st 11 10J 1 U eA193U1 supuesnou ur 1301 101554 pueur p ayy 19A0 10126 Jamod a8esaae uo paseq st WIETE SIU Jey YON ope 1oMoq 3u133871 1940 IZ r d s dnyprd ayy ye puewap wy Ay de AA Dau 10 Surpeer aantsod uo dn yord jT Jt os puetu p dv Ay 10 anea anjosqe ay uo p seq st uoqesado uy nodorp NV AY 0671 dny td YYAY 0007 9 durexq nodorp ueu Aan dnyprg sengea s 3 ur eAnrsod om YVAN puewaq NVAM 1240 02 sejduiex3 sjueuuo syeuiag spun 1nodojg dnyotg uonduoseg ON Wey 169 1996 Square D All Rights Reserved Bulletin 30801M9601 jnodoip 10j 007T 10 0T 10 dnyaid 103 097 CZ AT ye no pue Ac ye were 03 jueA no Ji sujporpunu ur uoispaid pue A00 6 puny t Ao pue A00 6G mu Joddn epdurexg 0007 10 0077 O P 10 p dnyord soy SZ6 193U9 AP 1e 3no do1p pue AG 6 7 1e utte e o prem noA yi 5 ur o spp rd pue A00071 PUH amo pue 4000 S MUY q ddin UYA 10j 006 dnypid 10 Dep 19409 Ted 006 1e Nodosp pue Ted 0S6 1e uute e JueA no Jt ein ur uotst2 1d pur Sq 007 HUN 19M0 pue 154 0001 Hum s ddn yyy yndut Sopeue au 107 uorspeid pue s n eA puny Jamoy pue Jaddn y dn yas no moy uo pu d p jm sjutodjog aage8au 10 anisod
95. You are not required to define condition settings for all five conditions for example you may only want to define settings for the High and Low conditions 3 In the Condition box click the desired condition 4 Enter the desired settings in the Condition Settings box as described in the Analog Function Condition Settings table on the next page 5 Repeat steps 3 and 4 for the desired conditions When you ve finished defining settings for each of the conditions click Close 1996 Square D All Rights Reserved 69 Bulletin 30801M9601 Analog Setpoint E dit x Device Type Circuit Monitor 2000 Function At this field Name Condition q High Normal Low Lowest El Poll nterval R sec Condition Settings Name fA CurentHioh oo Pickup fso Pickup Delay 10 Dropout 450 Dropout Delay b Severity Level1 x Annotation Tasks Capture Wave 2 Close Help Analog Function Condition Settings Table Do this Enter a descriptive name for the selected condition For example if you ve defined an analog function based on Phase A Voltage you might name the Highest condition Phase A Overvoltage Pickup Pickup Delay Enter the level at which the condition becomes true The High and Highest conditions become true when the metered value equals or exceeds the pickup level for the time specified in the Pickup Delay box The Low and Lowest conditions become true when the metered value eq
96. a for only one device at a time you can select multiple devices and toggle between them to display the data The four meter panel includes the following data voltage each phase line line and line neutral amperage each phase and 3 phase kilowatts real reactive and apparent power factor each phase and 3 phase To display a meter follow these steps 1 On the Display menu click Meters or click the toolbar icon l l SMS displays the Open Meter Display dialog box Open Meter Display x Devices Available Devices Selected D All Devices E Id Cancel Help 2 In the Devices Available box click the device s for which you want to see meter data Drag the devices or click gt to move the devices to the Devices Selected box 1996 Square D All Rights Reserved Chapter 4 Displaying Real time Data 3 Click OK to display the Meter window SS Meter cm 6 cm main1 4 To display meter data for a device click the desired device in the list at the left of the window Meter data displays in the large window on the right The current reading for the quantity being logged displays just above the quantity title located at the bottom of each meter 5 To view different phase quantities double click the quantity title For example on the voltage meter upper left double click the Voltage Phase AN title to change between AN BN CN AB BC and CA Note Meter data displa
97. abled to log basic metered values SMS is shipped with a default logging template named Basic Values that matches the circuit monitor s default data log 1 configuration Therefore in order to import basic values from circuit monitors into SMS you need only define an auto upload task to get data log 1 from the circuit monitors See Creating a New CM2000 Onboard Data Log Waveform Upload Task in Chapter 7 for instructions on defining a task to automatically retrieve on board data logs 1996 Square D All Rights Reserved 59 Bulletin 30801M9601 Setting Up On Board Alarms Events 60 Series 2000 circuit monitors models CM 2150 and higher can detect over 100 alarm conditions including over under conditions and status input changes The circuit monitor can perform actions in response to these alarm conditions The available actions are Force data log entries in up to 14 circuit monitor data log files Operate one or more mechanical relays Perform a 4 cycle waveform capture CM 2250 and higher Perform an extended 12 24 36 48 or 60 cycle waveform capture CM 2250 and higher The Onboard Alarms Events tab of the Series 2000 Circuit Monitor device setup dialog box is used to set up the circuit monitor s onboard alarms On this tab you ll enable the desired alarm conditions assign a priority level to each define pickup and dropout setpoints and assign actions to be executed when the alarm condition occurs
98. ail able in the SMS database If you want to limit the range of data displayed enter the desired start and end dates and times in the Available Range box If you picked a Table in step 2 select the desired device or devices in the Devices Available box Only devices for which you ve logged data appear in the list In the Display box click either Table or Trend plot Click OK SMS displays the table or trend plot 1996 Square D All Rights Reserved Chapter 11 Resetting Device Data Chapter 11 Resetting Device Data The Resets feature provides the capability to reset data for a device or group of devices The resets available will vary depending on the device type You can perform a reset manually using the instructions in this chapter or as a scheduled task see Chapter 7 Using Tasks to Automate Processes Note Resets are logged in the Event Log The following table lists the available resets for each type of device Device Type Reset 810D CM Digital Power Powerlink Trip Unit 100 2000 Relay Meter Panel PIF 3 PIF 85 Accumulated Energy X X X X Device Date Time X X X X X X X X Min Max X X X X Peak Demand Current X X X X X Peak Demand Power X X X 4 Cycle Waveform Log X X Extended Waveform Log X Energy Mgmt Levelt X Energy Mgmt Level2 X Energy Mgmt Level3 X Conditional Energy X X Incremental Energy Interval X Onboard Data Logs 1 14 X Trip
99. al 0 5 kilowatthours have been consumed by the circuit being monitored enter 0 5 in this box See Calculating the Watthour Per Pulse Value in the Series 2000 Circuit Monitor instruction bulletin for instructions on calculating the KxHR Pulse value for your application 1996 Square D All Rights Reserved Chapter 5 Advanced Series 2000 Circuit Monitor Setup Circuit Monitor Relay Operation Modes 1 Normal Externally Controlled The user must energize the relay by issuing a command from a remote PC or programmable logic controller The relay remains energized until a command to de energize is issued from a remote PC or programmable logic controller or until the circuit monitor loses control power On Board Controlled When an alarm condition assigned to the relay occurs the relay is energized The relay is not de energized until a alarm conditions assigned to the relay have dropped out or until the circuit monitor loses control power 2 Latched Externally Controlled The user must energize the relay by issuing a command from a remote PC or programmable logic controller The relay remains energized until a command to de energize is issued from a remote PC programmable logic controller the front panel of the circuit monitor or until the circuit monitor loses control power On Board Controlled When an alarm condition assigned to the relay occurs the relay is energized The relay remains energized even after all
100. alarm conditions assigned to the relay have dropped out until the Priority 1 Log is cleared from the front panel of the circuit monitor or until the circuit monitor loses control power See Clearing the Priority 1 Log in Chapter 4 of the Series 2000 Circuit Monitor instruction bulletin 3 Timed Externally Controlled The user must energize the relay by issuing a command from a remote PC or programmable logic controller The relay remains energized until the timer expires or until the circuit monitor loses control power If a new command to energize the relay is issued before the timer expires the timer restarts On Board Controlled When an alarm condition assigned to the relay occurs the relay is energized The relay remains energized until the timer expires or until the circuit monitor loses control power If the alarm condition is still true when the timer expires the circuit monitor reestablishes the relay causing the relay to cycle off and on during a prolonged alarm period 4 Absolute kWH Pulse This mode assigns the relay to operate as a pulse initiator with a user defined number of KWH per pulse In this mode both forward and reverse energy are treated as additive as in a tie breaker This is the mode that the KYZ relay assumes when watthours per pulse is set up from the front panel of the circuit monitor The KYZ Pulse Initiator relay output was designed for pulse applica tions such as this 5 Absolute kVARH
101. and 60 in 5 minute increments this value must be evenly divisible into the value entered in step 10 A setting of 0 yields a 15 second continuous sliding subinterval starting a new interval every 15 seconds A setting of 5 minutes or greater yields a rolling block subinterval starting a new interval every 5 minutes 12 Demand Method This box displays the circuit monitor methods for calculating demand power Thermal default The only method available for Series 100 200 Circuit Monitors This method calculates demand based on a thermal response and updates its demand calculation every 15 seconds on a sliding window basis The interval can be from 5 to 60 minutes in 5 minute increments Block Applies to Series 2000 Circuit Monitors only The Block demand method calculates demand based on a fixed block of time equal to the demand interval selected 5 to 60 minutes in 5 minute increments The demand calculations are performed at the end of the interval so the demand values displayed are the values for the last completed demand interval Sync to S1 Applies to Series 2000 Circuit Monitors only This method is equivalent to setting the demand interval to zero step 10 This sync pulse input is commonly used to ensure that the circuit monitor is in sync with a utility watt hour meter and can be used to verify the utility s peak demand charges Sync to Comms Applies to Series 2000 Circuit Monitors only The circuit monitor uses t
102. anual sampling mode click Manual Update on the Control menu SMS takes a sample only when you click Take A Sample on the Control menu or when you click the Manual Update toolbar icon lvl 32 1996 Square D All Rights Reserved Chapter 3 Basic System Setup and Operation Where To Next After completing the procedures described in this chapter you should have a basic understanding of how to set up a system and the devices included in it You should also know how to go online and offline and how to take data samples from system devices If your system includes Series 2000 Circuit Monitors you need to read Chapter 5 Advanced On Board Setup for Series 2000 Circuit Monitors after you have established online communications Refer to the table of contents or index for information on specific topics for which you need information 1996 Square D All Rights Reserved 33 Bulletin 30801M9601 Chapter 4 Displaying Real Time Data Real time data is information that SMS displays as soon as possible after it is collected The speed with which SMS can display data depends on such factors as how many devices are being polled and how many quantities are requested Use SMS to display information in a variety of real time formats tables bar charts meters active function list To begin any display click the desired display type on the Display menu or click the corresponding toolbar Follow the steps for the type of displ
103. are packages SMS 1000 This bulletin does not provide detailed instructions for using these packages with SMS 3000 For instructions on using the add on modules see to the instruction bulletins included with the modules Notational Conventions This bulletin uses the following notational conventions Bullets Bulleted lists like this one provide information but not procedural steps Multiple Step Procedures Each procedure is presented as a numbered list of steps Angle brackets gt Angle brackets are used to denote a sub menu for a command in a pull down menu For example in the Setup menu under the Administrative command there is a sub menu that contains the User Accounts command This is written as Administrative gt User Accounts SMS SMS 3000 This version of the System Manager Software is named SMS 3000 However throughout this bulletin we ll refer to the software as SMS Online Help System SMS provides an online help system to aid you in using the program To view an index of help topics click F1 or click Help gt SMS 3000 Help on the SMS main menu The Help Topics window displays You can access help information through three tabs The Contents tab lists information in books These books are listed in logical sequence for example Getting Started Setting Up Your System and Going Online with your System Each book contains chapters that break down the informa tion into
104. ata Update Fate cime estie e ate Me Ae aes 34 Displaying a Table usan iced asit cose dtt esae dle p ra ue HN 35 Displaying a Bar Ghart x ctetu et desean 37 Operating Range Indication enne nnne nnns intent nsn nennen 39 Displaying a Meter tine ento EE 40 Operating Range Indication n nn 41 Displaying a List of Active Functions 43 Chapter 5 Advanced On Board Setup for Series 2000 Circuit Monitors 44 Setting Up Input Output Modules eene nennen sen nen tnnt en 45 Setting Up OUTPUTS A 45 Setting Up Analog Inputs a ricche Rec a ei da Mine da eee a ANE 48 Setting Up Analog Outputs 5 n nn 51 Setting Up On Board Data Storage n 54 Circuit Monitor Storage Considerations I 54 Setting Up the Circuit Monitor On Board Event Log 56 Setting Up the Circuit Monitor On Board Waveform Capture Logs 56 Setting Up the Circuit Monitor On Board Data LogS 57 Organizing Data Log Files ss arannana meyara aA E anaana aSa ea ar a ay entren 59 The DefaultLo ging Tempie Pk e t ER o PR re a 59 Setting Up On Board Alarms Events eene enne sen nensis 60 Assigning PO Acton uuu ate fs trate et e ertet iade rete tod esee aue
105. ay you are creating instruc tions for each type of display begin on the next page Data Update Rate 34 You control the rate at which SMS displays new real time data You can see updated data continuously or at scheduled intervals or you can manually update seeing only the sample of data that is taken at the time of update For more information on setting update intervals see Setting the Sampling Mode in Chapter 3 Basic System Setup and Operation 1996 Square D All Rights Reserved Chapter 4 Displaying Real time Data Displaying a Table SMS lets you display real time data for the devices that it identifies The figure below lists the standard tables and their characteristics Standard Table Types Devices Supported Table Name Power Dig CM2000 CM1 Meter 810D PIF 3 PIF 85 Instantaneous Readings X X X X X X Load Current Summary 9 X X X X X X 810D Circuit Breaker Status X 810D Unit Set History X Analog Input Readings X Basic Reading Summary X X X X X X Demand Current Summary X X X3 X X Demand Readings X X XQ X X Digital Relay Settings Hlstory X Energy Readings Summary 2 X X X X Energy Readings X X X X Fundamental Phasor Readings X X MICROLOGIC C B Trip Unit Data X Phase Unbalance Readings X Power Factor Readings D X X X Power Factor Summary X X X Power Flow Summary X X X X Power Quality R
106. ay you select If you select the Alarm Log or Event Log SMS returns to the Create Report dialog box and adds your selection to the list of displays in the report If you select Historical Data Table or Historical Trend Plot SMS displays the Historical Data dialog box Select the desired query or table from the Tables Queries box If you select a table select the device s then click OK If you select SMS 3000 Table SMS displays the Open Table Display dialog box Select the desired SMS 3000 table and device s then click OK Repeat steps 4 6 to add additional displays to your report In the Schedule Interval box select how often you want the report to print If you do not want the report to print automatically at a regular interval select the Manual option button If you select Manual you ll need to manually print the report when you want it See the next section Manually Printing a Report for instructions 1996 Square D All Rights Reserved Chapter 14 Reports 9 In the Report Start Time box enter the date and time on which the report will first print For example if you selected the Monthly option button and entered the date 6 1 96 and time 5 00 PM in the Report Start Time box the report would print first on 6 1 96 at 5 00 PM The report would then print on the first day of each month at 5 00 PM 10 Click Close when you re done creating the report SMS returns to the Report dialog box Repeat steps 2 10
107. below The device model determines which features are active in SMS It is important to know which features your device model supports as you use SMS especially when setting up a Series 2000 circuit monitor Refer to this table to identify which features apply to your system Metering Device Feature Comparison Series 100 Series 2000 Power Meter Feature CM108 CM150 200 CM208 CM250 CM2050 CM2150 CM2450 PM600 PM620 Full Instrumentation X X X Front Panel LED Display X RS 485 Comm Port X X X Front Pnl Optical Comm Port X 1 Accuracy Class 0 2 Accuracy Class 0 3 Accuracy Class X X Status Inputs Relay Outputs Analog Inputs Analog Outputs On board Relay Functions X X X X On board Data Logging X X X X Downloadable Firmware X X X X X X Date Time for each Min Max X X X X 4 Cycle Waveform Capture X X X Extended Waveform Capture X X Extended Memory X X Sag Swell Detection X X CM Programming Language X Optional Hardware Input Output Module required Refer to Input Output Modules for Series 2000 Circuit Monitors on the next page for more information on I O Modules 14 1996 Square D All Rights Reserved Chapter 3 Basic System Setup and Operation Input Output Modules for Series 2000 Circuit Monitors The following table presents the various Class 3020 input output modules available for
108. below summarizes the locations of information related to setting up logging and displaying historical data To learn how to See the section In chapter Set up data logging Setting Up Data Logging 9 Set up circuit monitor on board memory Setting Up On board Data Storage 5 Display historical data in a table or trend plot Displaying a History Table or Time Trend Plot 10 Display circuit monitor on board data Displaying Circuit Monitor On board Data 17 Delete historical data from the SMS database System Administrator s Guide Archive historical data from the SMS database System Administrators Guide Circuit Monitor On Board Data Log Files Series 2000 POWERLOGIC Circuit Monitors have on board memory for logging histori cal data The amount of memory available depends on the circuit monitor model You can set up a circuit monitor s on board memory using SMS the section Setting Up On Board Data Storage in Chapter 5 tells how SMS can automatically retrieve the data from circuit monitor on board data log files and store it in the SMS database on the computer s hard disk This combines the data logged by the circuit monitor with the data logged from devices that do not have on board logging capabilities When you view a history table or time trend plot SMS retrieves the 1996 Square D All Rights Reserved 91 Bulletin 30801M9601 historical data from the database the data retrieved includes both data automatically re
109. ble and so on depends on the severity level you choose To edit the severity levels click the Alarms button SMS displays the Alarms dialog box See Setting Up Alarm Severity Levels in this chapter for instruc tions on editing severity levels Click this button to attach an annotation to the alarm A user can then read the annotation when viewing the active alarms list You might use this feature to record written instructions that an operator could follow when an alarm occurs Tasks Select a task if you want SMS to execute the task when the condition becomes true Choose from the list of predefined tasks or click the Tasks button to create a new task For instructions on creating tasks see Chapter 7 Using Tasks to Automate Processes 1996 Square D All Rights Reserved 75 Bulletin 30801M9601 76 Setting Up Alarm Severity Levels Follow these steps to set up alarm severity levels 1 In the Analog Setpoint Edit or Digital Setpoint Edit dialog box click the Severity button SMS displays the Severity dialog box 2 Enter alarm information for up to ten levels as described in the Alarm Level table below For each severity level there are six characteristics that you can apply To select a characteristic click the corresponding checkbox or choose from the drop down list box Er Level Audible Visible Acknowledge Password Color Sound WM v M K Nw Mk SI q q q lt q q a D 1 2 3 4 5
110. ce out of service follow these steps 1 On the File menu click Offline to take your system offline Note This takes the SMS network server offline and disconnects all active clients 2 On the Control menu click Diagnostics gt System Device Status SMS displays the System Device Status Dialog box 3 Click on the Service Status tab 1996 Square D All Rights Reserved 139 Bulletin 3080IM9601 System Device Status x Service Status Devices In Service Devices Out of Service Update Database Note System must be taken offline to place devices out of service Close Help 4 In the Devices in Service box click the devices to take out of service and drag them to the Devices Out of Service box or use the gt button 5 Click the Update Database button to update the SMS database To place a device back in service drag the device from the Devices Out of Service box back into the Devices In Service box then click the Update Database button Take the system offline then place it back online SMS places the device back in service Reading and Writing Registers 140 SMS allows you to read from and write directly to device registers For example you could use this feature to read a value that is not supported in SMS s standard tables Refer to the instruction bulletin for a specific device for register numbers To read registers follow these steps 1 On the Control menu click Diagnostics Read Wri
111. ch should switch to the Emergency position You will have to acknowledge the success or failure of this control action the criteria being that the transfer switch actually switched to the Emergency position as you set up in the Control Output Associate function Load has been automatically transferred from utility power to the generator You let the generator run for some period of time After the generator run period you want to return load to the utility source and shut down the generator You can do this in one of two ways Since KW Demand is presently below the 2000 KW pickup setpoint you can release the Override on relay R1 and be assured that R1 will not pick up again automatically when on board control is restored 1996 Square D All Rights Reserved Appendix D Control Output Examples You can first force relay R1 off by executing the Gen Xfer Off Control Output and then release the Override at some later time You might want to use this method to ensure that the generator did not start regardless of KW Demand level on the Utility Main Circuit Monitor You choose to use the first method from the preceding list because KW Demand is presently below the 2000 KW pickup setpoint and you are satisfied that the system is fully ready to operate automatically To end the system test described in the preceding paragraph follow these steps 1 On the Control menu click Control Outputs 2 In the Devices box choose Utility
112. circuit monitor logs the second set of current and voltage values record 2 The circuit monitor continues logging records of data at the specified interval until it reaches the maximum number of records that you specify When it reaches the maximum it either stops logging new data if you selected Fill Hold in step 4 or continues logging by discarding the oldest record and storing the newest if you selected FIFO Organizing Data Log Files There are many ways to organize data log files One possible way is to organize log files according to the logging interval You might also define a log file for entries forced by alarm conditions For example you could set up four data log files as follows Data Log 1 Voltage logged every minute File is large enough to hold 60 entries so you can look back over the last hour s voltage readings Data Log 2 Voltage current and power logged hourly for a historical record over a longer period Data Log 3 Energy logged once daily File is large enough to hold 31 entries so you can look back over the last month and see daily energy use kilowatt hours for example Data Log 4 Report by exception file File contains data log entries that are forced by the occurrence of an alarm condition Set the log interval in the log template to zero for this purpose The Default Logging Template Series 2000 circuit monitors that have on board logging memory are shipped with data log 1 pre configured and en
113. circuit monitor via communications This external source could be either a person using SMS to control outputs or a SY MAX programmable controller or other SY MAX compatible device Override as described in the previous paragraph does not apply because the relay is not enabled for on board operation In SMS when you select a control output that is not enabled for onboard operation the Override and Release buttons are grayed out When you receive a new Series 2000 Circuit Monitor and install an Input Output Module on it the default for all relays is not enabled for on board operation 1996 Square D All Rights Reserved 111 Bulletin 3080IM9601 Control Outputs Setup Flow Chart Refer to the flow chart below for a representation of the setup requirements described in previous sections of this chapter The flow chart requires CM 2000 relays to be configured for normal latched or timed mode Control outputs cannot function correctly if the controlled relay is operating in one of the seven pulse modes such as Absolute KWH Pulse listed in the Setting Up Relay Outputs section in Chapter 5 We recommend that you use relays R1 R2 and R3 for Series 2000 Circuit Monitor control outputs The KYZ relay output is designed for the billions of operations required in the pulse modes The KYZ relay can also be configured for normal latched or timed mode and used for a control output but the low contact current rating of the KYZ
114. cribed in the Scheduled Task Edit table on the next page 3 Click OK when you ve finished entering information in the Scheduled Task Edit box The new reference time appears in the Reference Time list box 4 Assign one or more tasks to the reference time as described on the next page 84 1996 Square D All Rights Reserved Scheduled Task Edit x Reference Time Date 7 15 1996 Cancel Time 5 00 00 PM m Help Interval C Once C Dal C Othe x Log Event At this field Do this Chapter 7 Using Tasks to Automate Processes Scheduled Task Edit Table Date Enter the date MM DD YY format on which the task will begin running If you start a monthly task on the 31st of a month the task will not execute on a month with 29 or 30 days Time Enter the time of day at which the task will run SMS executes tasks based on the POWERLOGIC Network Server PC s clock Interval Click the button for the desired interval once one time only at the specified time daily seven days a week at the specified time weekly once a week the same day every week beginning with the specified date monthly once a month on the same day beginning with the specified date other enter a number and choose an interval from the drop down list box for example 3 Days Log Event Check this box to cause the task to be logged in the event log each time it runs Assigning Tasks to a Reference ime To assi
115. cuit Monitors Using the Functions Alarms command on the Setup menu define three global digital functions for the device type Series 2000 Circuit Monitor as described below After defining the functions assign all three to the circuit monitor Utility Main Digital function name R1 Status Quantity R1 Relay Status Equal condition name On Non Equal condition name Off Delay 0 Alarm Visual and acknowledge not necessary use factory default Level 9 Digital function name R1 Ovride Status Quantity R1 Relay Override State Equal condition name Overridden Equal condition alarm Choose an alarm level that is set up for visual and acknowledge required Non Equal condition name Not Overridden Non Equal condition alarm Level 9 factory default Poll Interval 0 Note This next function is based on the assumption that you have a transfer switch auxiliary contact closed when the switch is in emergency position open when the switch is in normal position to physically wire to input 1 Digital function name Xfer Sw Position Quantity Input 1 Status Equal condition name Emergency Non Equal condition name Normal Delay 0 Alarm Not necessary but most users would likely alarm on the Emergency condition 1996 Square D All Rights Reserved Appendix D Control Output Examples After defining and assigning the digital functions you must use the Control Outputs command on the Setup menu to set up an Override
116. cute a manual control output follow these steps 1 If SMS is not online to your system click the Online gt System command on the File menu to go online 2 On the Control menu click Control Outputs SMS displays the Control Outputs dialog box Control Outputs x Devices E All Devices Close RE Help Control Names 3 In the Devices box select the desired device The Control Names box updates to show all control outputs defined for the device 1996 Square D All Rights Reserved Chapter 13 Control Outputs 4 In the Control Names box select a control output to execute Note The Override and Release buttons are grayed out if you selected a manual control output If the Override and Release buttons are not grayed out you are operating a CM 2000 relay that is enabled for on board operation If you do not understand why the relay is enabled for on board operation click the Close button at the top of the dialog box and review the preceding sections of this chapter 5 Click the button to the right of the Control Names box that corresponds to the action you desire Enter your Username and Password then click OK SMS displays a message telling you whether the control action has succeeded or failed 6 Click OK to acknowledge the action SMS records the control action in the event log Executing an Override Control Output SMS must be online to execute control outputs You execute a control output using the Control
117. d 1ojuq sdury V seyq uaz s pun 9 u rm 1340 G PAM 1340 T 3nodoup dure czy dnypid dure 00 durexg 2 aseyg Wan ISAO jnodoup ucu n eA dou g aseyg Wan 1940 7 s n eA 198ojur Antsod Lou sduy V aseyg au 1940 I sejduiex3 sjuauiui02 SXeuaH suun 1nodoug dnyoiq uonduoseg ON wey 1996 Square D All Rights Reserved 166 Appendix C Entering Pickup and Dropout Setpoints and Delays 3nodoip ue dnypid e opdurexq ynodosp c6 dnypid cg durexq dnyoid ucu 3utpe ss y aq snul pue Sur83e 10 Surpeay aq ued n eA Jnodoiq modorp uey Sutpe azow pue S3utpe aanisod sy puesnoy ur aq snut dnypig p p u Jt syypuesnoyj 03 s n eA europ Aa 103584 T MOQ 183011 Joye Jamog BurpesT Ki ynodosp g 6 dnypid 6 odurexq 3nodojp cze dnyord og dnypid uey Sur3Sey ss aq isnur pue 3ur83e ane3 u Jo Surpeo IA sod aq ueo ange Jnodoiq 3nodojp urun Sur33ey arow pue 3ur336 aaye sipuesnot ur 3au eq1snuranpeA dnypig p p u yi suypuesnot 03 senpeA europ 103204 18301 103554 Jamog 3ur33eE7 cy 3nodozp zH 09 dnypid zH 6 766 e durexq nodoip up dnyorg p p u yi sujpoapuni 03 senqeA 1 3 lJur Antsod am 11 2 Kouonbezj 1opuf c 3nodoip zH 09 dn
118. d box Click OK SMS displays a table with the selected quantities To save the table click Save As on the File menu SMS displays the Save As dialog box 1996 Square D All Rights Reserved Chapter 16 Customizing the Software 7 Enter a name for the table and click OK Once you have saved your quick table you can display it like any other standard SMS table On the Display menu click Tables Your table appears in the list of avail able tables in the Open Table Display dialog box Defining Custom Quantities For each supported device type SMS provides a list of standard quantities SMS lets you extend the list of quantities for a device type by defining custom quantities You might need to define custom quantities when You have a new PowerLogic compatible product You ve create custom register values in a model CM 2450 circuit monitor You want to display individual harmonics from circuit monitor models CM2350 amp up You want to use DDE to import data from another software package such as Excel Once you ve defined a custom quantity it appears in the Quantities list boxes in SMS dialog boxes along with the standard quantities You can log the quantity alarm upon it and use it in custom tables and interactive graphics diagrams In short you can use the custom quantity as you would use a standard quantity of the same type To define a new custom quantity follow these steps 1 Using the Open gt System
119. d capabilities of your circuit monitor s POWERLOGIC Power Meter Compact meter for basic industrial power monitoring See power meter instruction bulletin for features and capabilities POWERLOGIC Digital Relay Three phase and ground overcurrent protection for application on medium voltage circuit breakers POWERLOGIC Trip Unit for low voltage power circuit breakers Digitrip RMS810D MICROLOGIC Circuit Breakers Square D molded case circuit breakers with the MICROLOGIC full function trip system and the PIF 3 product interface to POWERLOGIC Model 85 Transformer Temperature Controller Life Gard Model 85A Transformer Temperature Controller with PIF 85 product interface to POWERLOGIC for Square D PowerCast or conventional dry type power transformers POWERLINK AS Remote Power Switching System Lighting control for Square D NQOD or NEHB panelboards POWERLOGIC Compatible Devices Other devices used with custom quantities to create a custom device type This device type allows you to communicate with devices that are compatible with POWERLOGIC devices the quantities for monitoring the device must be manually defined SY MAX programmable logic controller PLC or SY MAX compatible device other third party devices with compatible protocol 1996 Square D All Rights Reserved 13 Bulletin 30801M9601 POWERLOGIC Metering Device Models POWERLOGIC metering device models contain some or all of the features shown in the table
120. drag the item to the other list Let go of the mouse button to complete the move Edit Box In an edit box you type your own value unlike the list from which you must select a predetermined value To enter a value in an edit box click the box then type the value 1996 Square D All Rights Reserved Chapter 2 The SMS Interface Minimized Windows Use minimized windows to display the SMS logs such as the Event Log that have been reduced or minimized To restore the log to its original size click the middle sizing box of the corresponding minimized window System Information Line The System Information Line indicates several things When you pull down a menu and move the pointer over a command SMS displays text that describes the command Theonline system displays in the middle of the line This is the SMS system for which you are currently displaying data The working system the system for which system setup data can be entered displays to the right of the online system You need to open a working system only when you want to make setup changes to that system Option Buttons Click option buttons to make selections within dialog boxes Only one option button for each choice can be selected at a time Check Box Click the check boxes to make multiple selections in a dialog box Unlike option buttons you can select as many check boxes as you like in each dialog box Named Push Buttons Push buttons are used to co
121. e D All Rights Reserved Chapter 18 Using Dynamic Data Exchange DDE The quantity For standard quantities use the quantity abbreviation from The name of the device Appendix B or use the register number or DDE logical device that you preceded by R For custom quantities Your system name assigned in System Manager enter the exact name of the custom enclosed in single quotes enclosed in single quotes quantity enclosed in single quotes systemname devicename VLLAvg A required prefix Pipe symbol used as a Exclamation for Excel delimiter between the point delimiter system name and the device name The pipe symbol is located above the Enter key on most keyboards Note We recommend that you use the quantity abbreviations from Appendix B instead of register numbers in the link text When you use the quantity abbreviations SMS returns the data formatted when you use register numbers SMS returns the data unformatted For example if you used the quantity abbreviation Temp for device temperature in degrees C in the link text SMS would return the data with a decimal point in the correct position for example 33 68 But if you used the register number 1002 in the link text SMS would return the data without the decimal point for example 3368 4 Repeat step 3 for other cells until you have defined links for all desired quantities Save your spreadsheet then close it 5 Start the PowerLogic Network S
122. e all entries or enter a date range then click OK SMS deletes the specified data 90 1996 Square D All Rights Reserved Chapter 9 Data Logging Chapter 9 Data Logging SMS can log historical data to a computer s hard disk You can view historical data in table format or as a time trend plot Chapter 10 Displaying Historical Data tells how to display history tables and time trend plots Historical data is useful for troubleshoot ing problems identifying trends in usage tracking equipment loading to identify excess capacity and more SMS logs all historical data to the SMS database on your computer s hard disk This is the same database that stores all of the device setup information function definitions and other user defined data Depending on the choices made during installation the database may be stored on the server computer or on any other computer on the local area network The computer on which the database is installed must have enough available hard disk space for data logging The amount of disk space needed depends on the limits you ve set for the data log such as the maximum number of quantities selected the polling interval 10 minutes 15 minutes etc and the total number of days to store in the database For instructions on database configuration see the System Administrator s Guide The guide also offers instructions on archiving historical data and deleting it from the database The table
123. e analog input has been configured as follows Input Type 0 5V Upper Limit 500 Lower Limit 100 Offset Voltage 1 Volt Precision Units Units PSI The figure below shows the analog input configured as described above Circuit Monitor Reading Upper 500 PSI Lower Limit 100 PSI Input 1V 5V Voltage Offset Maximum nput Voltage Voltage Not User Definable The table belovv shovvs circuit monitor readings at various input voltages nput Voltage Analog nputs 2000 Table Reading 0 5V N A belovv offset voltage 1V 100 PSI 2V 200 PSI 2 5V 250 PSI 5V 500 PSI 5 5 V 500 PSI above max input voltage 50 1996 Square D All Rights Reserved r Analog Outputs M Enabled Upper Limit 200 Lower Limit 100 Chapter 5 Advanced Series 2000 Circuit Monitor Setup Setting Up Analog Outputs You will configure analog outputs in the Analog Outputs box on the I O Module tab The outputs are either 0 1 mA or 4 20 mA depending on the I O Module type SMS shows the output type in the upper left corner of the I O module tab If the I O module you are configuring does not have analog outputs the fields in this box will be greyed out Important Any change to either analog inputs or analog outputs will cause the circuit monitor to restart Be aware that any energized relay outputs will de energize as the circuit monitor restarts The procedure below tells how to set up analog
124. e to the circuit monitor From the circuit monitor front panel the pickup value displays as 13000 because the maximum raw register value allowed in the circuit monitor is 32767 the circuit monitor then applies a scale factor of 10 to the 13000 register value for actual pickup at 130000 volts For any alarm codes that are set in tenths of percent such as Alarm 9 Current Unbal ance Phase A you can enter for example 16 2 percent pickup from the software and download that value to the circuit monitor However the circuit monitor front panel will display a value of 162 Any perceived conflict such as those between the software settings and the circuit monitor front panel displayed settings can be resolved by referring to the Series 2000 Circuit Monitor instruction bulletin 1996 Square D All Rights Reserved 165 Bulletin 3080IM9601 s seud aay Je uo sso 10 sno uezmurns uo dn xpid you tu ut 3nodozp oa sz dnypid yoa 001 durexq nodorp uey Jamoy n eA dnypig sanea Joo aanisod am SHOA 1 Auy sso aseyg 3320A TE V D eseug 29ue equn IOA 0 S U 10A eseud sang Up jo 2 1 sbuq oue equn 3e oA 6C a o adsar YIM e3e3 oA aseyd ay usaM3aq a8eyuaorad g V aseyg exuerpequf 82 ay uo p seq st dnxprd uue v modomp dnypid 9 07 epdurexq 2 aseyg aourpequy BLOA 12 nodoip uey Jaysry d
125. eadings X X Power Readings X X X X System Voltage Summary 9 X X X THD Current Summary X THD Voltage Summary 9 X X Transformer Readings X Transformer Summary 9 X Single device multiple quantities Q Multiple devices single quantity Model PM 620 only 1996 Square D All Rights Reserved 35 Bulletin 30801M9601 Displaying a Table cont You display a table you must select the device s and quantities to include When a table supports multiple devices you can include individual devices or entire groups When a table suppotts a single device only you can include multiple devices but the system displays data for only one device at a time To display a standard real time table follow these steps 1 Click Tables on the Display menu or click the toolbar icon The Open Table dialog box displays Open Table Display x Name 810D Breaker Status EPS 3000 Power Quality R 810D Trip Unit Settings History Fundamental Phasor Readings Power Readings Analog Input Readings Instantaneous Readings System Voltage Basic Readings Summary Load Current Summary THD Current Su Demand Current Summary Micrologic Breaker Trip Unit Data THD Voltage Su Demand Readings Phase Unbalance Readings Transformer Rec Digital Relay Settings History Power Factor Readings Transformer Sur Energy Readings Power Factor Summary Energy Summary Power Flow Summary 4 Devices Available Devices Selected gt
126. ecked the quantity appears in the dialog box used to define analog functions Units Code Select the appropriate units code for the quantity Format Code Select the appropriate format code for the quantity To assign custom quantities to a specific device type follow these steps 1 2 Using the Open gt System command on the File menu open the desired system On the Setup menu click Custom Quantities Click the Apply Quantities tab In the Device Type box select the device type to which you will assign custom quantities SMS lists the available custom quantities in the Available User Defined Quantities box To list both custom and standard quantities uncheck the Show Custom Quanti ties Only check box In the Available User Defined Quantities box select the desired custom quantity and drag it to the Device Supported Quantities box or use the gt button SMS displays the Device Quantity Setup dialog box In this dialog box you must specify the register or registers that the custom quantity is stored in Non Sequential Register Numbers 1 2 x 4 bg p fe fe Se Number of Registers 17 Scale Multiplier Unity El Cancel 1996 Square D All Rights Reserved 133 Bulletin 30801M9601 134 6 If the custom quantity uses multiple registers and the registers are in sequence enter the first register number in the register 1 box Then check the In Sequence check box and enter the number of re
127. ected to the same POWERLOGIC network server will view Once you place a system online all clients that connect to that server will access the same database with the same devices logging etc A client cannot view another system s data unless the current system is taken offline and the new system is placed online Going Online with a System To go online with a system follow these steps 1 Before you place a system online the online system field in the center of the bottom of the SMS main window displays the message No online system On the File menu dick Online gt System SMS displays the Place System Online dialog box Place System Online x Systems 2 Click the system name of the system you want to place online Click OK SMS displays a message telling you that the selected system is online Notes All clients connected to this server will go online with this system If the server is shut down then started up the system that was online at the time of shutdown will automatically be online You can change the system to another or to no online system use the Diagnostics tab of SMS Configuration Smscfg This change will take effect only for the next startup Going Online with a Workspace The workspace feature lets you save a snapshot of the SMS client window such as open windows data update mode etc and reload the snapshot when you go online with SMS This gives you quicker access to dialog boxes that you ne
128. ed C User Defined Eau X lt No Association amp D Al Devices r On 1 Action ELE Device CM Feeder 1 cm main Close B Condition Feeder 1 Status Status Closed Properties Df 0 Acti Closed r ion Delay b seconds c Device lt No Association ZE e Condition Associate Status Cancel Help OK Cancel Help Add Control Output x Associated Condition xl Control Output Name Open Feeder 1 Control Output Open Feeder 1 per Pre defined Relay 2 gt Devices Conditions Defined C User Defined hk JX lt No Association gt amp D Al Devices n 1 Action BE Feeder 1 Oren Device CM Feeder 1 Bid omman Condition Feeder 1 Status Status Open Properties Off 0 Act r tion C Closed Delay zi seconds e N A Device lt No Association Condition Associate Status OK Cancel Help Setup continued The circuit monitor relays must behave like a momentary push button or a spring return breaker control switch so the relays need to be set for timed mode Series 2000 Circuit Monitor relays Both relays not enabled for on board control Both relay modes Timed with hold time set to 1 second breaker close and open operations are usually much faster than this CM 144 CM 244 relays Both relays must be set up for fail safe mode with a fail safe duration of 1 second breaker close and open
129. ed to access often 1996 Square D All Rights Reserved 29 Bulletin 30801M9601 30 To go online with a workspace you must first save a workspace File gt Save Workspace As see Chapter 16 Saving a Workspace Then follow these steps 1 On the File menu click Online gt Workspace The Open dialog box displays 2 Click the name of the workspace that you want to take on line SMS takes the workspace on line Device Status Checks When a system is placed online SMS checks the status of each device in the system A device will fail an SMS device status check if SMS is unable to communicate with it A comparison of the basic settings of the database and the device does not match for example something in the basic setup has been changed since the last time the device was brought online If one or more devices do not pass the SMS device check the System Device Status dialog box displays It gives you information about the working status of the system devices The procedures for bringing devices and SMS back into communication are covered in Correcting Mismatches in Device Setup Data in Chapter 17 Diagnostics See this chapter for instructions on performing a system communications test and restoring communication between the system and its devices Opening a Working System The working system EDIT system displayed at the bottom right of the SMS main window is the system to which you can make changes O
130. efined for the device type Series 2000 Circuit Monitor appear in the Functions Available box 4 In the Functions Available box click a function that you want to assign to the selected device then drag it to the Functions Selected box or use the gt button 5 Repeat step 4 to assign additional functions to the selected device Editing a Function After You ve Assigned It to a Device When you choose a global function from the Functions Available box and assign it to a specific device SMS makes an exact copy of the function and associates it with the selected device The functions that appear in the Functions Selected box are copies of the global functions Because they are copies you can edit their setpoints without affecting the original global function 1996 Square D All Rights Reserved 77 Bulletin 30801M9601 78 For example you could assign an analog function called Overcurrent Phase A to the device called Assmbly CM1 You could then select the Overcurrent Phase A func tion in the Functions Selected box and edit its setpoints The changes you make to the function affect only the copy of the Overcurrent Phase A function that is assigned to the device Assmbly CM1 the global Overcurrent Phase A function which appears in the Functions Available box remains unchanged To edit the global Overcurrent Phase A function you must go to the Functions tab of the Functions Setup dialog box since that is where you def
131. emperature Temp Current A IA Current B IB Current G IC Current N IN Current G IG Current Avg IAvg Current Apparent rms IApp Current Unbalance A IUnbalA Current Unbalance B IUnbalB Current Unbalance C IUnbalG Current Unbalance Worst IUnbalW Voltage A B VAB Voltage B C VBC Voltage C A VCA Voltage L L Avg VLLAvg Voltage A N VAN Voltage B N VBN Voltage C N VCN Voltage L N Avg VLNAvg Voltage Unbalance A B VUnbalAB Voltage Unbalance B C VUnbalBC Voltage Unbalance C A VUnbalCA Voltage Unbalance L L Worst VUnbalLLW Voltage Unbalance A N VUnbalAN Voltage Unbalance B N VUnbalBN Voltage Unbalance C N VUnbalCN Voltage Unbalance L N Worst VUnbalL NW Power Factor A PFA Power Factor B PFB Power Factor C PFC Power Factor Total PFTtl Displacement Power Factor A DPFA Displacement Power Factor B DPFB 1996 Square D All Rights Reserved 147 Bulletin 30801M9601 148 Quantity Abbreviation Displacement Power Factor C DPFC Displacement Power Factor Total Real Power A kWA Real Power B kWB Real Power C kWC Real Power Total kWTtl Reactive Power A kVARA Reactive Power B kVARB Reactive Power C kVARC Reactive Power Total kVARTII Apparent Power A kVAA Apparent Power B kVAB Apparent Power C kVAC Apparent Power Total kVATII THD Current A THDIA THD Current B THDIB THD Current C THDIC THD Current N THDIN THD Voltage A N THDVAN THD Voltage B N THDVBN THD Voltage C N THDVCN THD Voltage A B THDVAB THD
132. en eA eurpep anisod am XOQ YOY ATET Y au pau SIAS IP ZUAI c 1se ayy 19A0 oSe1oAe ay pue aleng A SIA JUasard ay xl q eoua1agrp Juadsad ay uo peseq dn xpid wee ayy ab 03 jue no J nodozp yoa 087 drpid gey o durexq nodorp ue an enpeA dnyotd s n eA sa8aqur aanisod 1ejuq xoq YOY ai IP PAP Jou oq 8e oA au jo pmru3eui ayy uo peseq dn yord vie au eAe jue no Jf se duex3 sjuauiuo syeulaH SquaT JO SJOA sliun 1nodoug dnyoid TOMS g O N aseyd IO IPMS N g aseyg a3e3 0A PMS g V N V 9seug 380A uonduos q 602 202 102 ON ULE V 1996 Square D All Rights Reserved 172 Appendix C Entering Pickup and Dropout Setpoints and Delays 912 012 Suone nope SPA snonunuo3 uo p seq SI uone1 do sure asay asn o p rmmb t st 194814 10 06 zIN2 330N s pp O ur s e p Jam nodorp dnyord c durexqg nodorp uey Jaysry anqea dru p p u sue o1 Ju 319d 1oJ saneA europ aantsod s yuq XOQ YOY ARPT Y eu peu s eA1 Jut IP ZUTU c 1891 PU 1040 p yern yg jua1mo aseraav ay pue am SY JUasard ay xl q eoua1agrrp Ju oz d y uo p seq dn yord uee ay eAeu o JueA no J 3nodoip dwe ggg domad dwe ojduexq uey Jamoy dru sanpea anisod s yuq Xoq xpatp ATET N
133. erride State R2Override R3 Relay Override State R3Override Voltage Swell Ph A B A N Alarm Alarm201 Status Voltage Swell Ph B N Alarm Alarm202Status Voltage Swell Ph C N C B Alarm Alarm203Status Voltage Swell Ph A Alarm Alarm204Status Voltage Swell Ph B Alarm Alarm205Status Voltage Swell Ph C Alarm Alarm206Status Current Swell Neutral Alarm Alarm207Status Voltage Sag Ph A B A N Alarm Alarm208Status Voltage Sag Ph B N Alarm Alarm209Status Voltage Sag Ph C N C B Alarm Alarm210Status Current Sag Ph A Alarm Alarm211Status Current Sag Ph B Alarm Alarm212Status 1996 Square D All Rights Reserved Appendix B Abbreviations for Quantities Quantity Abbreviation Current Sag Ph C Alarm Alarm213Status Current Sag Neutral Alarm Alarm214Status Over Current Ph A Alarm Alarm1Status Over Current Ph B Alarm Alarm2Status Over Current Ph C Alarm Alarm3Status Over Current Neutral Alarm Alarm4Status Over Current Ground Alarm Alarm5Status Under Current Ph A Alarm Alarm6Status Under Current Ph B Alarm Alarm7Status Under Current Ph C Alarm Alarm8Status Current Unbalance Ph A Alarm Alarm9Status Current Unbalance Ph B Alarm Alarm10Status Current Unbalance Ph C Alarm Alarm11Status Current Phase Loss Alarm Alarm12Status Over Voltage Ph A N Alarm Alarm13Status Over Voltage Ph B N Alarm Alarm14Status Over Voltage Ph C N Alarm Alarm15Status Over Voltage Ph A B Alarm Alarm16Status Over Voltage Ph B C Alarm Alarm17
134. erver 6 Start the SMS client software and put your system online 7 Start the SMS DDE Server that is located on the same computer as your newly created Microsoft Excel spreadsheet 8 Open your Microsoft Excel spreadsheet After several seconds you should see data in the cells The rate at which data updates depends on the size of the spreadsheet and the DDE update interval The next section tells how to change the DDE update interval Changing the DDE Update Interval By default SMS updates the Microsoft Excel spreadsheet every 15 seconds You can change the DDE update interval using the SMSCfg program The SMSCfg program is located in the SMS 3000 directory on the server machine To change the update interval follow these steps 1 Start the SMSCfg program 2 Click on the Intervals tab 3 In the DDE Update Interval box enter the desired interval in seconds 4 Click OK to save your changes and exit the configuration program 1996 Square D All Rights Reserved 145 Bulletin 3080IM9601 Appendix A Viewing and Printing System Information 146 Included with SMS is a program called File Services The File Services program was installed in the SMS 3000 directory when you installed SMS The File Services program lets you view and print system information such as device configuration analog and digital function definitions data log template definitions and so on Note A printer must be installed on the PC on which
135. erver while setting the PC s clock 1996 Square D All Rights Reserved Chapter 8 Viewing Alarms and Events Chapter 8 Viewing Alarms and Events Viewing and Acknowledging Active Alarms When an alarm becomes active SMS adds it to the Active Alarms list Depending on the selections you made when setting up the alarm levels SMS may also do any or all of the following sound an audible signal flash the alarm list icon automatically display the active alarms list and force you to acknowledge the alarm require you to enter a password to acknowledge the alarm To view the active alarms list at any time click Active Alarms on the Window menu SMS displays the Active Alarms list shown below The top part of the alarm list shows all active alarms The bottom part shows required acknowledgment alarms that have not yet been acknowledged If an alarm becomes active and its assigned alarm level has been set up for required acknowledgment and or visible you won t need to display the alarm list SMS will display it automatically It will even interrupt you and display the alarm list if you are working in another Microsoft Windows application such as Microsoft Excel or Microsoft Word Z Active Alarms D x UNACKNOWLEDGED ALARMS Time Device Type Function State Level 07 23 96 16 08 CM mai D Inp Dff to On Alarm Cooling 1 acknowledged To acknowledge an active alarm follow th
136. es in Substation 1 or all devices on the paint line or all devices in building 1 Then when you need to select a specific device from a list box you can shorten the list of devices by selecting only the needed groups A device can belong to more than one group Adding a Group To add a group follow these steps 1 On the Setup menu click Groups to display the Group Setup dialog box D Psintine H cm feeder 6 H cm feeder 3 M em main 2 B em feeder 5 H em maint lt M em feeder 4 MCM Main 2 Click Add to display the Add Group dialog box Enter the name of the group you are adding then click OK to return to the Group Setup dialog box Add Group x Enter new group name Paintine Cancel 3 In the Devices Available menu click the devices to be included in the group and drag them to the Devices Selected box then click Update 4 Click Close 128 1996 Square D All Rights Reserved Chapter 16 Customizing the Software Saving a Workspace A workspace is a picture of the following things The data update mode manual scheduled or continuous The type and position of open document windows tables charts and so on When you save a workspace SMS stores the above information in a workspace file on the hard disk of the client PC Then when you open the workspace at a later date SMS automatically restores the workspace That is the windows that were open when you saved the workspace are
137. ese digital functions and setting them to log state changes and generate alarms you ll ensure comprehensive system event logging and alarming 1996 Square All Rights Reserved 113 Bulletin 30801M9601 114 Digital Functions for Relay On Off Status Note For the four following digital functions choose an alarm level that is not set up for visual acknowledge or audible Factory default level 9 is appropriate Function Name Quantity Equal Condition Name Non Equal Condition Name Alarm Function Name Quantity Equal Condition Name Non Equal Condition Name Alarm Function Name Quantity Equal Condition Name Non Equal Condition Name Alarm Function Name Quantity Equal Condition Name Non Equal Condition Name Alarm KYZ Status KYZ Relay Status On Off Yes R1 Status R1 Relay Status On Off Yes R2 Status R2 Relay Status On Off Yes R3 Status R3 Relay Status On Off Yes Digital Functions for Relay Override Status Note For the four following override digital functions choose an alarm level that is set up for visual indication and requires user acknowledgment Function Name Quantity Equal Condition Name Non Equal Condition Name Alarm Function Name Quantity Equal Condition Name Non Equal Condition Name Alarm KYZ Override Status KYZ Relay Override State Overridden Not Overridden Yes R1 Override Status R1 Relay Override
138. ese steps 1 Click the alarm in the Unacknowledged Alarms list 2 Click the eye glasses icon to acknowledge only one active alarm or click the double eye glasses icon to acknowledge all active alarms If the alarm requires a password enter your assigned user id and password The alarm disappears from the Unacknowledged Alarms list It will remain in the Active Alarms list as long as the alarm condition is true When the alarm condition is no longer true it will disappear from the Active Alarms list To view a history of alarms see Viewing the Alarm Log below 1996 Square D All Rights Reserved 87 Bulletin 30801M9601 Using Operator Assistance Procedures During an Alarm When defining functions you can enter text called an annotation that is saved with the function definition The text can include step by step procedures telling an operator what to do when the alarm is active To view the annotation double click the desired alarm or click the alarm then click Remote Acknowledgment One of the benefits of SMS s client server architecture is that a remote PC equipped with a modem and a client version of SMS can dial in to the server PC and acknowledge alarms For example a plant engineer could install a client version of SMS on a PC in his home Using a modem he could dial in to the server at the plant The engineer could then view the alarm list and acknowledge active alarms exactly as he would if he were at the plan
139. est still fails open your computer and check the DIP switch setting on the SY LINK board If the setting is correct either the SY LINK board is bad or the PC has already allocated memory in this location or another device is using the location If no address appears in the Memory Address box start the Smscfg program located in the 5MS 3000 BIN directory then click the SY LINK tab and enter the memory address that matches the SY LINK board s DIP switch setting Restart the PC to cause the changes to take effect 8 When you have updated all items and the memory address test has passed click OK to return to the Setup Comm Server Interface dialog box Click Close to return to the SMS main window 9 Repeat the steps for any additional SY LINK card s or click Close to return to the SMS main window To add SY LINK cards you must use the Smscfg utility Remember to restart the PC SY MAX RS 232 Serial Port Setup After selecting SY MAX RS 232 Driver in step 4 and completing step 5 in Adding a New PC Interface SMS displays the PC Interface SY MAX RS232 dialog box PC Interface SY MAX RS232 x PC Interface Connection Name 232 port Parity ITE INS Serial Port CoM r PC Connected to Baud Rate 9600 d NIM PNIM Timeout 2000 ms Network Address 0 99 30 2 Cancel Test Port Help eee Eee To set up serial communications complete the following steps 1 Parity Click Even or None to match the parity
140. etpoints for 165 setting up circuit monitor 60 On board data displaying circuit monitor 141 On board data logs 91 setting up 57 On board data storage setting up 54 Online help 2 Opening a working system 30 Operating range indication for bar charts 39 for meters 41 Option buttons 11 Outputs See Relay outputs setting up analog 51 Override control output example 110 177 executing 121 P PC Interface settingup 16 SY LINK board setup 18 Placing devices in out of service 139 Power meter models feature comparison 14 settingup 27 28 Printing an open window 126 reports 125 Program tasks creating new 81 Push Buttons 11 Q Query defining a new historical data 97 Quick tables 130 R Re establishing communications with devices 138 Reading and writing registers 140 Real time data displaying 34 Registering your software 1 Relay outputs operation modes 47 Index settingup 45 Reports creating and scheduling 123 manually printing 125 Resets tasks creating new 82 Resetting device data 99 Routes adding 21 a serial port route 22 a SY LINK route 22 setting up 20 RS 232 port setting up 19 s Sampling mode manual update 32 scheduled update 32 setting 31 Saving table or trend plot data to a file 127 Saving a workspace 129 Scheduled update 32 Scheduling reports 123 Scheduling tasks 84 Serial port settingup 19 Setpoints entering pickup and dropout 165 for analog functions 69 for digital functions 74 Se
141. gic controllers PLCs The following table lists the features that SMS supports by device 2 E 5 tse bed ers Device 9 E E Sc 0 5 2 s lli Se esc es allel s od o ee Circuit Monitor X X X X X X X Power Meter X X X X X MICROLOGIC Circuit Breaker X X X X Model 85 Trnsfrmr Temp Cntrl X X X X SY MAX PLC X X X X Digitrip 810D Trip Unit X X X X Digital Relay X X X X POWERLINK AS Panelboard X X X X POWERLOGIC Compatible X X X X The two SMS 3000 instruction bulletins SMS 3000 System User s Guide and SMS 3000 System Administrator s Guide provide all of the information you will need to operate SMS 3000 You can read them in their entirety or use them for reference To locate information on a specific topic see the table of contents or the index of each bulletin The System Administrator s Guide tells how to install the software It also describes other administrative tasks including working with the SMS database and setting up user accounts The SMS User s Manual describes the tasks involved with using the software on a daily basis It does not include installation instructions 1996 Square D All Rights Reserved 1 Bulletin 30801M9601 Add On Modules You can expand the functionality of SMS 3000 by using add on modules POWERLOGIC currently offers two add on modules that enhance the capabilities of SMS 3000 They are Interactive Graphics Client GFX 1000 Additional SMS Client softw
142. gisters used in the Number of Register box For example if the custom quantity is a 3 register date time and it is stored in device registers 150 151 and 152 you would enter 150 in the box for register 1 check the In Sequence check box and enter 3 in the Number of Registers box If the custom quantity uses multiple registers and the registers are not in sequence enter the register numbers in the Non Sequential Register Numbers boxes For example if the custom quantity is a 3 register date time and it is stored in device registers 150 155 and 156 you would enter 150 in the box for register 1 155 in the box for register 2 and 156 in the box for register 3 If when you defined the custom quantity you chose the Scaled Register Value format select a scale multiplier from the Scale Multiplier box Click OK If the custom quantity is a digital function format SMS displays the Setup Bitmask dialog box Complete the rest of this procedure If the custom quantity is not a digital function skip to step 13 Setup Bitmask Registertwo N A 31416 gt x ff ff f l l l l l l l l Status Names True False uz I Note Steps 10 12 apply only if the custom quantity is a digital function format quantity 10 In the Status Names box select the pair of status names that accurately describes the 1 A purpose of the custom quantity For example if the quantity will be used to define
143. gn tasks to a reference time follow these steps 1 In the Reference Time box click the desired Reference Time 2 In the Tasks Available box click a Task you want to assign to the selected Reference Time and drag it to the Tasks Selected box or use the gt button 3 Repeat step 2 to assign additional tasks to the reference time 1996 Square D All Rights Reserved 85 Bulletin 30801M9601 86 Changing and Deleting a Reference ime To change a reference time follow these steps 1 Click the reference time then click Change 2 Make the desired changes in the Scheduled Task Edit dialog box then click OK Any tasks that you ve assigned to the reference time will now run at the new time and interval To delete a reference time follow these steps 1 Click the reference time in the Reference Time box then click Delete Any tasks that you had assigned to the reference time will no longer run at the reference time Note This does not delete the task it only stops the selected tasks from automatically executing at the deleted reference time Setting the PCS Clock SMS executes scheduled tasks based on the POWERLOGIC Network Server PC s clock To set the clock on the Network Server PC use the Windows NT control panel called Date Time If the Network Server is running when you advance the PC clock past a task s schedule execution time the task executes immediately To avoid this shut down the POWERLOGIC Network S
144. h as this 10 KVARH Out Pulse This mode assigns the relay to operate as a pulse initiator with a user defined number of KVARH per pulse In this mode only the kVARH flowing out of the load is considered The KYZ Pulse Initiator relay output was designed for pulse applications such as this Setting Up Analog Inputs You ll configure analog inputs in the Analog Inputs box on the I O Module tab If the I O module you are configuring does not have any analog inputs the fields in this box will be greyed out Important Any change to either analog inputs or analog outputs will cause the circuit monitor to restart Be aware that any energized relay outputs will de energize as the circuit monitor restarts To set up an analog input follow these steps 1 In the Analog Inputs box select the analog input to configure from the drop down list box 2 Select either the 0 5V or 4 20mA radio button The button you select depends on how the selected analog input is wired Refer to the Series 2000 Circuit Monitor instruction bulletin for wiring instructions 0 5V or other mA external resistor By default the circuit monitor s analog inputs accept 0 5 volts dc The phrase or other mA external resistor means that you could apply for example a 0 1 mA signal through 5000 ohms of resistance to obtain 0 5 volts 4 20 mA jumper 250 ohm internal resistor The 4 20 mA option passes the input current through a 250 ohm internal resisto
145. has been reached The Fill Hold mode stores new events until the event log file reaches the maximum number of events it then stops storing new events until you clear the event log using the Resets command on the Control menu Setting Up the Circuit Monitor On Board Waveform Capture Logs The model CM 2250 circuit monitor stores one 4 cycle and one 12 cycle waveform capture in volatile memory Volatile memory means that the waveforms are lost when the circuit monitor loses control power Circuit monitor models CM 2350 and higher can store multiple waveform captures from 4 to 60 cycles in length in non volatile memory You ll set up the circuit monitor s on board waveform capture logs in the Waveform Capture Logs box in the Series 2000 Circuit Monitor On Board Data Storage dialog box Keep in mind that the number of waveforms the circuit monitor can store depends on how you allocate the available memory among the event log waveform capture logs and data logs Refer to the Allocated Memory Color Bar indicator and the Memory Usage Summary to ensure that you don t exceed the available memory 1996 Square D All Rights Reserved Chapter 5 Advanced Series 2000 Circuit Monitor Setup Waveform Capture Logs 4Cycle Ez Captures e FIFO C Fill Hold Extended Type Captures FIFO C Fil Hold To set up the Waveform Capture Logs follow these steps 1 In the 4 Cycle Captures box enter the maximum number of 4 cycle wavefor
146. he Start of Interval command received over the RS 485 communications chain from an external source such as a programmable logic controller PLC 13 Wiring Click to select 4 Wire if the circuit monitor is wired in a 3 phase 4 wire system 3 Wire if the circuit monitor is wired in a 3 phase 3 wire system Neutral CT Installed if a neutral CT is connected 2 1 2 Element Wye Metering if the circuit monitor is wired in a 3 phase 4 wire system and there is no B phase PT installed When you ve entered all the information in this tab the setup for basic operation of the CM 2000 series circuit monitor is complete Advanced circuit monitor information is contained in the remaining three tabs of this dialog box For instructions on advanced setup of the CM 2000 series circuit monitor see Chapter 5 Advanced On Board Setup for Series 2000 Circuit Monitors 1996 Square D All Rights Reserved 25 Bulletin 30801M9601 Series 100 200 Circuit Monitor Setup 26 When you select the Circuit Monitor 100 200 type the Device Setup dialog box displays after you establish the route Device Setup CM Main CM100 200 Setup r Energy Management Levels Levell FE kw Level2 32767 kw Level3 32767 kw Metering CT Ratio 15 PT Ratio 120 Connection 4Mire 3Wie Accumulated Energy Absolute Signed Current Precision Amps 10 Amps Demand Interval 15 Mi
147. he Dropout Delay 2 the metered value must equal or fall below the Dropout setpoint for a full 20 seconds before the High condition returns to Normal Severity 70 Click to assign an alarm severity level from 0 to 9 to the selected condition When the selected condition becomes true that is when the Pickup setpoint 1996 Square D All Rights Reserved Annotation Chapter 6 Setting Up Functions and Alarms and delay have been satisfied SMS generates an alarm If you do not want the software to generate an alarm when the condition becomes true click No Alarm The manner in which SMS notifies you of an alarm for example visual audible and so on depends on the severity level you choose To edit the severity levels click the Severity button System Manager displays the Severity dialog box See Setting Up Alarm Severity Levels in this chapter for instructions on editing severity levels Click this button to attach an annotation to the alarm A user can read the annotation when viewing the active alarms list You might use this feature to record written instructions that an operator could follow when an alarm occurs Tasks Select a task if you want SMS to execute the task when the monitored value exceeds the Pickup setpoint and Pickup delay Choose from the list of pre defined tasks or click the Task pushbutton to create a new task For instruc tions on creating tasks see Chapter 7 Using Tasks to Automa
148. he circuit monitor with the data logged by SMS so that you can view the data in history tables and as time trend plots For devices that do not have on board logging capabilities such as series 100 200 circuit monitors you will need to set up SMS to log data directly to the SMS database See Chapter 9 Data Logging for instructions on how to set up data logging for devices that do not have on board logging capabilities See Chapter 7 Using Tasks to Automate Processes for instructions on how to create and schedule an Onboard Data Log Upload task Data Logs Selected Template See View Log Quantities q View Log Quantities nterval 115 Minutes Log 5 a Log 6 FIFO C Fill Hold Log 7 17 Enabled Log 8 zi Log 3 120 pel 10 Records Log 11 Ce Log 12 Log Templates Log 13 Log 14 Automatic Upload To set up a data log follovv these steps 1 In the list of data logs Log 1 Log 14 click a data log to set up 2 In the Selected Template box click a log template to assign to the data log or if you vvant to define a nevv log template click the Log Templates button See Creating Log Templates in Chapter 9 for instructions on defining log templates 3 If you want to define a task that automatically retrieves data from the circuit monitor s on board data log files and combines it with the SMS database click the Automatic Upload button See Chapter 7 Using Tasks to Auto
149. he start box and the date one month from present in the end box If you don t enter an end date SMS keeps logging until your computer s disk is full or until you deactivate the logging template The next section Assigning Log Templates to Specific Devices tells how to assign and activate log templates 7 In the Time of Day box enter the times for data logging to start and end each day or check All Day For example you might only want to log data from 8 a m to 4 00 p m daily To log continuously do not enter anything in the date time fields 1996 Square D All Rights Reserved 93 Bulletin 30801M9601 94 8 In the Interval box enter the time interval at which you want data to be logged for example every 15 minutes hourly daily etc Keep in mind that the smaller the log interval the quicker you ll consume hard disk space on your computer Be sure that you have adequate hard disk space for data logging 9 In the Quantities Available box click the desired quantities and drag them to the quantities selected box or use the gt button 10 Repeat steps 3 9 to create additional templates After you ve created templates you ll need to assign them to specific devices and activate them You ll do this on the Template Assignment tab The next section tells how Note We recommend that you assign only one log template to each device Assigning multiple templates to a single device can slow system communications
150. ident w Peak KW Demand PF_PkkWD KVAR Dmd Coincident w Peak KW Dmd kVARD_PkkWD KVA Dmd Coincident w Peak KW Dmd kVAD_PkkWD Peak Demand Reactive Power KVARD PkkVARD PF Coincident w Peak KVAR Demand PF_PkkVARD KW Dmd Coincident w Peak KVAR Dmd kWD_PkkVARD KVA Dmd Coincident w Peak KVAR Dmd Peak Demand Apparent Power KVAD PF Coincident w Peak KVA Demand KW Dmd Coincident w Peak KVA Dmd KAR Dmd Coincident w Peak KVA Dmd Predicted KW Demand Predicted KVAR Demand Predicted KVA Demand Max KWD Last Incr Energy Interval Max KVARD Last Incr Energy Interval kVAD_PkkVARD PkkVAD PF_PkkVAD kWD_PkkVAD kVARD_PkkVAD PredkWD PredkVARD PredkVAD MaxkWDLastlnt MaxkVARDLastlnt Max KVAD Last Incr Energy Interval MaxkVADLastlnt Time Remaing in Dmd Sublnterval TimeRemsSl D T Last Restart DTLastRestart D T Peak Demand Current A Peak Demand Current B DTPkIBD D T Peak Demand Current C DTPkICD D T Peak Demand Real Power DTPkkWD D T Last Reset Peak Dmd Currents D T Last Reset Min Max DTResetPkID DTResetMinMax D T Last Circuit Tracker Write DTCktTrkr D T Last Reset Peak Dmd Povver DTResetPkkVVD D T Last Reset Accum Energies DTResetEnerg D T Last Control Povver Failure DTCPFail D T Energy Mgmt Level 1 Exceeded DT EMLevel1 D T Energy Mgmt Level 2 Exceeded DT EMLevel2 D T Energy Mgmt Level 3 Exceeded DT EMLevel3 Device Clock Date Time DT 3Regs D T K Factor Dmd Peak Product A DTCoinKFDA D
151. ights Reserved Chapter 17 Diagnostics System Device Status x Database Status Communication Status Service Status Setup Data Mismatch Selected Devices cm feeder 3 Update Device Update Database The System Device Status dialog box has three tabs used to perform three functions Note Update is for basic device settings only 55 Database Status tab This tab lists the devices whose basic configuration data do not match the configuration data stored in the SMS database it lets you synchronize the devices and database The section Correcting Mismatches in Device Setup Data tells hovv This tab only appears vvhen you are placing a system online and SMS detects that the basic configuration data stored in the device does not match the basic configuration data stored in the SMS database Communication Status tab This tab lists the devices that have lost communication it lets you attempt to reestablish communication with devices The section Reestablishing Communication with Devices tells how This tab is only available vvhen the system is online Service Status tab This tab lists the devices that are in service and it lets you place devices out of service The section Placing Devices In and Out of Service tells how Correcting Mismatches in Device Setup Data VVhen you place a system online SMS compares the basic device setup information for example device address
152. ile was saved with an online system the same system must be online before the workspace can be opened If the system is not online SMS issues a warning message and the workspace is not opened Using the DELAY Parameter The DELAY parameter causes the SMS client to wait for a specified number of seconds before attempting to connect to the POWERLOGIC Network Server You will use this parameter only if you have set up the POWERLOGIC Network Server and the SMS client to start up automatically after a computer power loss The delay gives the POWERLOGIC Network Server time to start up and place a system online Enter the parameter as follows DELAY time_delay where time_delay is the number of seconds of delay before the client starts Example c SMS 3000 bin sms3000 exe LOGON JohnDoe powerguy DELAY 30 1996 Square D All Rights Reserved 183 Bulletin 3000IM9601 Appendix F Error Codes This appendix contains the most common error codes that occur in SMS 3000 Beside each code is a brief description of what happened to cause the error The code number only displays in the Event Log Code Description 015 Communications overflow 017 Remote device inactive 029 Attempt to send a message with illegal route 101 File already open 107 Record out of range 230 Pipe state is invalid 231 All pipe instances are busy 232 Pipe is being closed 233 No process is on the other end of pipe 234 More data is available
153. ined the original global function You must then reassign the edited global function to each device that you want the global function copied to To edit the copy of a function after you ve assigned it to a specific device 1 On the Function Assignment tab click the desired device in the Devices box The functions that you ve assigned to the selected device appear in the Functions Selected box 2 In the Function Selected box click a function to edit 3 Click the Setpoints button SMS displays the Setpoints Edit box 4 Make the desired changes to the setpoints and click OK 1996 Square D All Rights Reserved Chapter 7 Using Tasks to Automate Processes Chapter 7 Using Tasks to Automate Processes A task is an automated process that SMS executes The Task feature replaces the Macro feature in earlier versions of SMS There are two ways that tasks can be executed Tasks can be launched by an alarm condition For example you could define a task called GetCMlog that retrieves the on board log files from a circuit monitor and combines them with the SMS database on your PC s hard disk You could then define a function that generates an alarm and launches the task Getcmlog each time the circuit monitor has an overcurrent alarm Tasks can be scheduled to execute automatically at a user defined time For example you might create a scheduled task that automatically performs resets on the first day of each m
154. istory tables and time trend plots Note that before you can display history tables or time trend plots you must have already logged data Chap ter 9 Data Logging tells how to set up and activate data logging To display historical data click Historical Data on the Display menu SMS displays the Historical Data dialog box Historical Data x r Tables Queries Available Range Query w Multiple Devices Start Date Pe Chan Stat Time iz3002PM 2 Lee D Query w Single Device 2 Delete D Table w Multiple Devices D Table w Single Device End Date 71 EndTime 31501PM Z m du Table C Trend Plot Style lt default gt 2 Help To display a history table or time trend plot you ll select from the pre defined history tables or create your own tables from the historical data that has been logged You can also define a query Queries are similar to tables except that the device names you select are saved with the query the next time you want to display the query you won t need to select devices For a table you must pick the device or devices each time Note Tables and queries can be used to display historical data in table format or as a trend plot For example you can select a Table w Multiple Devices in the Tables Queries box then display either a table or a trend plot How do you decide if you need to define queries or tables It depends on the applica
155. itor on board functions or externally remotely by a programmable logic controller or application software such as SMS 1996 Square D All Rights Reserved 45 Bulletin 30801M9601 46 r Relay Outputs Output Relay R1 Mode V Enable Onboard Operation Hold Time In Seconds timed mode To set up a relay output follow these steps 1 Inthe Output box select a relay to configure The Pulse Initiator is the KYZ solid state Form C relay output which is rated for billions of operations at 96 milliamps suitable for pulse initiator applications R Relays R1 R2 and R3 are Form C mechanical relays rated for tens of thousands E of operations at 10 amps 120 Vac suitable for many control applications such as switchgear In the Mode box select the desired operating mode for the relay you chose in step 1 Refer to the Circuit Monitor Relay Operation Modes table on the next page for a description of the 10 modes Note that the first three modes Normal Latched and Timed function differently when the relay is externally controlled than when it is on board or internally controlled The table points out the differences All pulse initiation modes modes 4 10 are on board controlled If you want the relay to be controlled automatically by the circuit monitor in response to one or more of the circuit monitor s on board alarm conditions such as Over KW Demand or Status input S3 transitio
156. kup and dropout setpoints for high speed alarms alarm numbers 200 214 be sure to define a reasonable hysteresis between the pickup and dropout setpoints If a reasonable hysteresis is not used alarms might occur continually When the circuit monitor detects that this is happening it may suspend the operation of all high speed alarms If you suspect that the high speed alarms have been 1996 Square D All Rights Reserved Relative Chapter 5 Advanced Series 2000 Circuit Monitor Setup disabled use SMS s register read write feature to read register 2038 If register 2038 contains a nonzero value high speed alarms have been disabled To re enable high speed alarms write a zero to register 2038 then go to the Onboard Alarms Events tab in the Device Setup dialog box and check the Enable checkbox for each high speed alarm that was disabled To prevent them from being disabled in the future change the pickup and dropout setpoints on the high speed alarms to include additional hysteresis For tracking high speed events numbered 201 214 that are available for the CM 2350 or higher you can check the Relative box to provide an alarm Each time the average value is exceeded by the pickup percentage an alarm occurs The delay entered is in cycles The percent relative average is calculated over a five metering cycle interval This checkbox is only available for alarm conditions 201 214 For all other alarm conditions it is grayed out
157. lated Circuit monitors can accumulate energy in two modes absolute or signed Energy In absolute the circuit monitor accumulates energy based on the absolute value of real power regardless of the direction of power flow In signed the circuit monitor accumulates energy with regard to sign that is for reverse power flow the accumulated energy value is reduced 1996 Square D All Rights Reserved Chapter 3 Basic System Setup and Operation At this field Do this 9 Current K Factor Used in the average current and K factor demand power calculations for Demand Interval Series 2000 Circuit Monitors Enter a value between 5 and 60 in 5 minute increments 5 10 60 Default is 15 10 Power Demand Used in the average demand power calculations Enter a value between Interval 5 and 60 in 5 minute increments 5 10 15 60 the default is 15 minutes You can also enter a zero which causes the circuit monitor to look to status input S1 on the optional attached Input Output Module for an external synchronizing pulse for its block interval described below demand method calculation This sync pulse input is commonly used to ensure that the circuit monitor is in sync with a utility watt hour meter and can be used to verify the utility s peak demand charges 11 Subinterval Used only when the demand method below is block to determine the start point for each new interval Enter a value between 0
158. le memory that is used by all log files 1996 Square D All Rights Reserved 55 Bulletin 30801M9601 56 Setting Up the Circuit Monitor On Board Event Log Each Series 2000 Circuit Monitor model CM 2150 and higher has an on board event log to record the occurrence of important events The circuit monitor can be configured to log the occurrence of any on board alarm condition as an event The section Setting Up On Board Alarms Events later in this chapter tells how to set up the circuit monitor to log the occurrence of on board alarm conditions in the event log You ll set up the circuit monitor s on board event log in the Event Log box in the Series 2000 Circuit Monitor On Board Data Storage dialog box The number of events the circuit monitor can store depends on how you allocate the available memory among the event log waveform capture logs and data logs Refer to the Allocated Memory Color Bar indicator and the Memory Usage Summary to ensure that you don t exceed the available memory r Event Log Events E FIFO C Fil Hold To set up the event log follow these steps 1 In the Events box enter the maximum number of events that the event log will store 2 Select either the FIFO recommended or Fill Hold radio button to specify the way the event log file will store information The FIFO First In First Out mode stores information continuously and overwrites the oldest data with the newest data after the maximum
159. list Once you ve completed the steps above to create a new function and assign the desired quantity you re ready to define the function s setpoints The setpoints are the conditions under which SMS generates alarms and executes tasks For example if you ve defined an analog function called Overcurrent Phase A so that you can monitor your Main 1 circuit breaker for abnormal current levels you ll need to define setpoints that define the abnormal levels In other words just how high do you want the current to rise before SMS activates an alarm to notify you Defining Setpoints for Analog Functions After you have created an analog function see Creating Functions above you must define its setpoints The setpoints are the conditions under which SMS generates alarms and executes tasks The procedure below tells how to define setpoints for an analog function The section following this one shows an example analog function definition To define the setpoints for an analog function follow these steps 1 In the Functions Setup dialog box click the Functions tab 2 In the Functions box click the desired analog function then click Setpoints SMS displays the Analog Setpoint Edit dialog box For each analog function there are five conditions highest high normal low and lowest You can define condition settings for each of the five conditions although you cannot enter pickup and dropout setpoints and delays for the Normal condition
160. lose the data string in double quotes If the data string does not contain spaces quotes are not required For example ANORKSPACE c myworkspace wks No space in data string quotes not required WORKSPACE c my workspace wks Space in data string after my quotes required Using the LOGON Parameter The LOGON parameter causes the SMS client to bypass the usual login dialog by providing the username and password at the command line as follows LOGON username password Separate the username and password by a comma with no spaces If the username or password is invalid SMS displays the login dialog box Example c SMS 3000 bin sms3000 exe LOGON JohnDoe powerguy Note When you use this parameter you are disabling the login security feature Any person could start the SMS client without a password or username Also a person could look at the command line and find out the username and password 182 1996 Square D All Rights Reserved Appendix E SMS Client Command Line Parameters Using the WORKSPACE Parameter The WORKSPACE parameter causes the SMS client to automatically open a workspace on program startup Enter the parameter as follows WORKSPACE workspace file where workspace file is the complete path statement to the workspace file Examples c SMS 3000 bin sms3000 exe WORKSPACE c basicviews wks c SMS 3000 bin sms3000 exe LOGON JohnDoe powerguy WORKSPACE c basic views wks Note If the workspace f
161. ls 1 2 3 and 0 correspond to High Medium Low and Action Only Refer to the table below for a description of the operator notification provided by each priority level Note Any priority level including Priority 0 can trigger waveform captures force data log entries and operate relay outputs Priority level selection affects only the methods by which the operator is informed that an alarm condition has occurred Circuit Circuit SMS SMS Monitor Monitor Software Software Front Panel On Board Alarm Event Log Alarm LED Event Log Operation Entry Operation Entry Priority 1 Level 1 Yes LED flashes upon Yes occurrence of event continues to flash after event condition clears until operator clears the P1 Log from the front panel of the circuit monitor Priority 2 Level 2 Yes LED flashes upon Yes occurrence of event stops flashing when event condition clears Priority 3 Level 3 Yes Same as Priority 2 Yes Priority 0 No Alarm No No operation No Pickup amp Dropout Setpoints Delays 62 For each alarm condition that you set up you must specify pickup and dropout setpoints and delays An analog alarm becomes active when the metered value exceeds the setpoint for the specified pickup delay The alarm becomes inactive when the metered value falls below the dropout setpoint for the specified dropout delay See Appendix C for a guide to entering pickup and dropout setpoints and delays Note When defining pic
162. mate Processes for instructions on creating and scheduling an Onboard Data Log Upload task 4 In the Log Interval box enter the number of minutes from 0 1440 between log entries 5 Click either the FIFO recommended or Fill Hold radio button If you select FIFO the circuit monitor logs data until it reaches the maximum number of records then each time it logs a new record it discards the oldest record and logs the new If you select Fill Hold the circuit monitor logs data until it reaches the 1996 Square D All Rights Reserved Chapter 5 Advanced Series 2000 Circuit Monitor Setup maximum it then stops logging new data until you clear the data log using the Resets command on the Control menu 6 Check the Enabled checkbox to enable the selected data log When the Enabled box is checked the circuit monitor begins logging data at the date and time specified in the log template The circuit monitor will not log data to the selected data log unless the Enabled box is checked Note The date and time are 7 In the Records box enter the maximum number of records from 1 to 472 to be stored in the selected data log A record is one set of the quantities that are specified in the log template For ex ample assume a log template is set up to begin logging current and voltage values hourly beginning at 8 00 AM the following day At 8 00 AM the circuit monitor logs the current and voltage values record 1 At 9 00 AM the
163. mpiq N q aseyg oue equr e3e3 oA 9c p p u Jt 5 01 eur ap aantsod am of gua NV aseyg oue equn 3eyoA GC 2 aseyg e3ejoA s pun 2 2 4 aseyg 3 l oA s pun Ez g V eseug a3eyo 19pun c 3nodoap oa dnypid yoa 09r N D aseyg aleng 1 pun 12 3nodoip uey Jamoy dou N g aseyg a8eyfo s pun 0c saneA 1 3 lur Antsod 19juq SHOA NV aseyg Beyo s pun 61 2 aseyg a3e 0 A 19AQ 9I 2 4 seud eSeyoA 19AQ ni g V aseyg ILOA 19AQ 9I jnodojp yoa cgp dnypid cer N O aseyg adepoA 194 GI nodorp uey 134814 enpea dou N q aseyg eSepoA 1940 Tl sanea Jagaqut Anisod s yuq SHOA NEV eseug sSeyoA 19AQ el Mu rm aseyd jsa81e 03 juaxmo aseyd 1s etus Jo uo paseq st dnypid uuepy ynodorp z6 dnypid 0g ajdurexg 3nodoip uey Jamoy anjeA dnyptg p p u jt suu s n eA etuut9 p Anisod am suua 1 Auy ssoT seuq 1u umo ZI syu rm seud oon Ip Jo o3e1oAe dy 0 12ads21 UA Ju rmop aseyd ay Ml q e2ua13grp aseyuadsad y uo O seuq e uepequr juam I p seq s dmy rd wey Jnodoip 2 6 7 dnypid 07 durexg gnodorp ucu q aseyg oue equn Jurn OL 1 u8n n eA d yi p p u Jt syjua sanyea eurpop aanisod am spu V aseyg z2ue equn Ju rmo 6 ynodosp dure ggg dnypid dure cz durexg 2 aseyg 1u 1mO s pun 9 nodorp uey s Mof dou g aseyg 1uaxm s pun 2 s n eA Lamm Antso
164. ms to store Then click either the FIFO or Fill Hold radio button If you select FIFO the circuit monitor logs 4 cycle waveforms until it reaches the maximum number of 4 cycle waveforms then each time it logs a new 4 cycle wave form it discards the oldest 4 cycle waveform and logs the new If you select Fill Hold the circuit monitor logs 4 eycle waveforms until it reaches the maximum it stops storing new 4 cycle waveforms until you clear the log using the Resets com mand on the Control menu 2 Inthe Type box select the type of extended waveform capture to log 12 24 36 48 or 60 cycle Select the number of extended captures Then click FIFO or Fill Hold Setting Up the Circuit Monitor On Board Data Logs Circuit monitor models CM 2150 and higher can store historical data in on board data log files You can set up the circuit monitor to log data at a user defined interval In addition you can set up the circuit monitor to automatically force entries into the data logs when alarm conditions occur the section Setting Up On Board Alarms Events later in this chapter tells how You ll set up the circuit monitor s on board data logs in the Data Logs box in the Series 2000 Circuit Monitor On Board Data Storage dialog box Keep in mind that the amount of data the circuit monitor can store depends on how you allocate the available memory among the event log waveform capture logs and data logs Refer to the Allocated Memory C
165. n from OFF to ON check the Enable On Board Operation box The circuit monitor will check for alarm conditions and operate relays even when your computer is turned off Note When you receive a new Series 2000 Circuit Monitor and install an I O module on it the default for all relays is Not Enabled for on board operation Also on board operation is supported only by circuit monitor models CM 2150 or higher If the relay will be controlled by a device external to the circuit monitor such as a SY MAX programmable controller or from a computer using SMS s control outputs feature do not check the Enable On Board Operation box Note Before automatic operation can occur you must enable the desired on board alarm conditions and specify the relays to be automatically operated when each alarm occurs The section Setting Up On Board Alarms in this chapter tells how Chapter 13 Control Outputs has more details on the implications of enabling a relay for on board operation and how you can use SMS to override on board relay operation If in step 2 you selected Timed mode enter the desired number of seconds 1 to 32 767 for the relay to stay energized If in step 2 you selected any of the pulse initiation modes modes 4 through 10 enter the pulse value from 0 0 to 3 276 7 For example if the relay mode is Absolute KWH Pulse and you determine that each relay change of state is to signify that an addition
166. n in the Analog Setpoint Edit or Digital Setpoint edit dialog box 1996 Square D All Rights Reserved 79 Bulletin 3080IM9601 80 In both cases SMS displays the Tasks dialog box shown below Use the Tasks dialog to create new tasks as described in the following sections CM100 Wave Form Trigger and Upload CM2000 Onboard Data Log Waveform Upload CM2000 Wave Form Trigger Add Program EXE DE 0 BAT CMD Resets Creating a New Mail Task The following instructions assume that Microsoft Mail is already installed and working properly See your Microsoft documentation for instructions on installing and using Microsoft Mail To create anew mail task follow these steps 1 Click Add The New Task dialog box displays Task Name E mail Boss a Help 2 Type the Task Name up to 255 ASCII characters no spaces 3 In the Task Type box select Mail then click Continue SMS displays the Mail Task Type Edit dialog box Mail Task Type Edit x Task Name Mail Subject OverCurent on Substation Cancel Mail Note Addresses Check current on sub 1 Report to Roger Attachments Mail Logon Help 1996 Square D All Rights Reserved Chapter 7 Using Tasks to Automate Processes 4 Enter information in the dialog box as described in the Mail Task Edit table Click OK when done SMS returns to the Tasks dialog b
167. n setting up a DDE device On the Setup menu click Devices Routing to display the Device Setup dialog box This dialog box lists all previously defined devices along with their device types and routes Follow these steps to add and route a device Note You can sort the information in this box listing it in an order that is convenient for you To sort click the title bar Device Type or Route 20 1996 Square D All Rights Reserved Chapter 3 Basic System Setup and Operation To add a new device click Add to display the Add Device dialog box Add Device x Device Name Device Type Circuit Monitor 2000 M Connection Name SYLINK Add the following device information Add Device table At this field Do this 1 Device Name Type a descriptive name for this device maximum 32 characters no apostro phes for example Stamping Line Feeder 1 2 Device Type Click the type of device you are adding 3 Connection Name Click the PC port to which this device connects The connection name is the name you assigned when adding the new PC port Click OK to save the device information you just typed 2 Adding a Route A route statement defines the path from the personal computer to one specific device You must assign a unique route statement for each device ina POWERLOGIC system Route statements are stored in the SMS database along with the rest of the setup information 1996 Square D All
168. n that you want to monitor such as voltage A N or Current B choose the device at which you want to monitor the function establish setpoints with pickup and dropout points to define the limits of each range You must establish at least two setpoints for a function for example you might set high alarm and low alarm with pickup and dropout points to establish the range The pickup values determine when green changes to yellow and yellow changes to red For instructions see Creating Global Functions in Chapter 6 Setting Up Functions and Alarms The following figure illustrates a C N voltage meter indicating the normal high and low ranges established for that function Note If you establish only two setpoints high and low you will not see the yellow bar just green for normal and red for both low and high Normal C N voltage green Low C N voltage High C N voltage yellow yellow Highest C N voltage 5 red EH 278 Voltage Phase CN 1996 Square D All Rights Reserved Chapter 4 Displaying Real time Data Displaying a List of Active Functions You can display a list of all active functions in a system Active functions are analog or digital functions that are set up with some level of alarm assigned to them To view this list follow these steps 1 From the Display menu click Function Tables or click the toolbar icon sl SMS displays the list EB Active Functions m x
169. n the Onboard Alarm Events Tab table on the next page Device Setup CM main CM2000 Basic Setup 1 0 Module Onboard Data Storage Onboard Alaims Events enab Over Current Phase ver Current Phase B Over Current Phase C ver Current Neutral Over Current Ground r Alarm Setpoints Delays Iv Enable Priority C 0 ActonsOnp 1C 2C 3 Pickup Setpoint p Dropout Setpoint o Pickup Delay b Dropout Delay b Relat tpoints are vo of aya value PC Action r Force Data Log Entries on Event deci ee wi ii RO ER NE AR Er at ad NM m EM EN M M M NM M gd Operate Relays on Event Capture Waveforms on Event lisez I Iv 4 Cycle ER EH H3 id Pie Every eles 210 E 1996 Square D All Rights Reserved 61 Bulletin 30801M9601 Onboard Alarms Events Bb At this field Do this Enable Check this box to enable the selected alarm condition or uncheck this box to disable the alarm condition When the Enable check box is first checked the prefix lenabl and an asterisk appear in the Enabled column next to the selected alarm condition When you disable a previously enabled alarm condition the enab prefix disappears but the asterisk stays to indicate that changes were made to the alarm condition during the setup session Priority Click a radio button to Select a priority 0 1 2 or 3 for the selected alarm condition The priority leve
170. n the Setup menu click Devices Routing SMS displays the Device Setup dialog box 3 In the Devices box click a Series 2000 Circuit Monitor that is equipped with an I O module then click the Configure button 4 Click the I O Module tab CM2000 Basic Setup 1 0 Module Onboard Data Storage Onboard Alarms E vents Module Type 7 Analog Inputs 10M 4444 20 Analog Input 1 B Discretes 1 KYZ 3 Relays 4 Inputs or other mA input extemal resistor Analogs 4 Outputs 20 mA 4 Inputs 4 20mA jumper 250 ohm intemal resistor 4 Upper Limit fo Precision imit 10 it 4 Output en 42 Lower Limit Units Offset Voltage 0 00 Units Lampe r Relay Outputs Mode Timed Analog Outputs V Enable Onboard Operation Analog Output 1 B Hold Time In Seconds 5 17 Enabled timed mode H Pulse io Upper Limit 200 POR Lower Limit 100 1003 Close Update Help The upper left hand corner of the tab shows the type of I O module installed on the circuit monitor It also lists the inputs and outputs that the module provides The rest of the tab is divided into three boxed areas used to configure relay outputs analog inputs and analog outputs These are described in the following sections Setting Up Relay Outputs Each relay can be configured independently For each relay you can determine the mode of operation and whether the relay will be controlled automatically by circuit mon
171. nd so on Create custom interfaces including menus macros and dialog boxes Automate your reports to management SMS Serving Data to Microsoft Excel SMS as a DDE Server The figure SMS Serving Data to Microsoft Excel on the next page shows how SMS serves POWERLOGIC device data to Microsoft Excel The POWERLOGIC Network Server reads data directly from registers in POWERLOGIC devices The PowerLogic Network Server then serves the data to the SMS DDE Server which serves the data to the Microsoft Excel spreadsheet The following are some important facts to know about using SMS as a DDE server You must install a copy of the DDE server on each computer that you want to serve data to In the illustration on the next page data is being served to Microsoft Excel spreadsheets on two PCs therefore the DDE server is installed on each PC The maximum number of DDE servers that can serve data from one POWERLOGIC Network Server is equal to the number of licensed SMS clients For example if the PowerLogic network server is licensed for 5 SMS clients the maximum number of DDE servers is 5 The SMS client software does not need to be installed on the DDE Server PCs see PC 1 in the illustration This is because the SMS client is not involved in the transfer of data Data flows from the devices to the PowerLogic Network Server to the DDE Server to Microsoft Excel When would you rot want to install the SMS client on a PC In the illust
172. ne of the serial ports on your machine The SY LINK board requires that your computer have an AT bus structure and a spare long expansion slot Adding a New PC Interface Before you can establish a PC interface you must take the system offline The first step in establishing a new PC interface is adding the interface defining the name and interface type SY LINK or RS 232 16 1996 Square D All Rights Reserved Chapter 3 Basic System Setup and Operation Follow these steps to add the PC interface 1 On the SMS main menu click Setup gt PC Interface The Setup Comm Server Interface dialog box displays Setup Comm Server Interface x Communications Hardware Installed Configure 2 Click Add to display the New Communications Port dialog box Comm Connection Name Protocol Sylink Driver x 3 Type a unique name for the communication connection up to 31 characters such as SY LINK CARD This name will be assigned to this SY LINK card when it is refer enced in later system operations 4 Select an interface type from the Protocol pulldown box DDE Requestor to set up communication between SMS and the Dynamic Data Exchange DDE application e SY LINK Driver to set up communication for a SY LINK card e SYMAX RS 232 Driver to set up serial communication You can have multiple SY LINK cards in a computer but you must follow the complete setup procedure for each card 5 Click Continue to p
173. nfirm cancel or perform other functions in dialog boxes In many cases clicking a push button will cause you to exit the dialog box containing that push button Each push button is referred to by its name only For instance the instructions will say Click Add not Click the Add button LED Indicators The LED Indicators are two colored lights that alert you to the status of communications activity The left hand light flashes to indicate the health of the POWERLOGIC network server communication when flashing the client is communi cating with the server The right hand light flashes to indicate that the alarm event manager is communicating 1996 Square D All Rights Reserved 11 Bulletin 30801M9601 Parts of the Toolbar 12 To access commands quickly click on a toolbar icon Each icon corresponds to a command in the menus The toolbar is shown on the first page of this chapter A description of each icon follows Note When SMS is offline most of the toolbar icons are grayed out disabled To activate the icons go online using the Online command in the File menu The Diagrams icon is only active when you have installed the Interactive Graphics add on module Icon Name Function Print Prints the window that is currently el displayed Scheduled Update Toggles from Scheduled Update to Manual Update sampling mode v Take Sample Takes a single data sample when in Manual U
174. ng with Waveforms Chapter 12 Working with Waveforms POWERLOGIC circuit monitors have an optional waveform capture feature which allows the circuit monitor to capture current and voltage waveforms and store the data in registers SMS also provides data for troubleshooting harmonic problems such as THD telephone interference factor and harmonic magnitudes SMS can acquire new waveform plots from a circuit monitor and display them on your PC export waveform files to disk retrieve and display waveform files that are stored in onboard circuit monitor memory import and display waveform files that have been exported to disk import option retrieve and display device specific waveform files that have been exported to disk file option Acquiring a New Waveform To acquire a new waveform plot and display it for viewing follow these steps 1 On the Display menu click Waveform Plots or click the Waveform toolbar icon El SMS displays the Waveform Source dialog box WFC Source All Devices D Finishing D Import Waveform D Paintline 2 Select and click the circuit monitor from which you want view the waveform Click OK 1996 Square D All Rights Reserved 101 Bulletin 30801M9601 Acquiring a New Waveform cont The Acquire Waveform dialog box displays Acquire Waveform x Acquire From 4 Cycle Extended Bi File nboard Cancel
175. nitor s on board alarm conditions the relay stays in its current state until you force it into the opposite state The relay stays in Override until you click the Release Override button to place it back into auto mode Once you ve released the relay it will again respond to auto matic control requests based on the circuit monitor s on board alarm conditions Note When you release an overridden relay the relay may unintentionally operate For example if the relay is overridden off and you click Release while a controlling alarm condi tion is true the relay energizes 6 Click OK to acknowledge the action SMS records the control action in the event log Override Availabl Grayed Grayed Grayed Grayed Button vailable raye raye raye raye Release Override Grayed Available Available Grayed Grayed Button ON Action Grayed Available Grayed Available Grayed Button OFF Action Grayed Grayed Available Grayed Available Button Relay is not Relay is Relay is Relay is Relay is presently presently presently not enabled not enabled Relay overridden overridden overridden for on board for on board Status On board Relay is Relay is operation operation CM2000 OFF ON Relay is Relay is control is in OFF i ON effect The text that appears on the ON Action and OFF Action buttons depends on the names you assigned to the output actions when defining the control output The OFF Action button is the bottom button in the
176. nly one client can open a working system at one time Opening a working system puts SMS in edit mode allow ing you to modify setup parameters When you first go online there is no working system To open a working system follow these steps 1 Click File gt Open gt System The Open System dialog box displays 2 Click the name of the system you want to open 3 Click OK The working system changes to EDIT system name any changes you make apply to that system only Note While online you cannot edit the PC interface or change device routing but you can add devices to the system 1996 Square D All Rights Reserved Chapter 3 Basic System Setup and Operation Changing the Working System To change the working system simply open the second system SMS closes the first system and opens the new system for you Closing the Working System To close the working system click File gt Close Working System SMS closes the working system Going Offline Once you are online with a system the Online command under the File menu changes to Offline To take the online system offline click Offline SMS asks you to verify the action Click No to leave the system online click Yes to take it offline Note When you go offline the server stops communicating with devices All logging alarm monitoring and scheduled tasks will stop All connected clients stop receiving updates If SMS is shut down the last online sys
177. nput 5 On to Off Alarm Alarm87Status Input 6 On to Off Alarm Alarm88Status Input 7 On to Off Alarm Alarm89Status Input 8 On to Off Alarm Alarm90Status 1996 Square D All Rights Reserved Appendix B Abbreviations for Quantities Quantity Abbreviation End of Incr Energy Interval Event Alarm99Status Power Up Reset Event Alarm100Statu End of Demand Interval Event Alarm101Statu End of Update Cycle Event Alarm102Statu Over Analog Input 1 Alarm Alarm103Statu Over Analog Input 2 Alarm Alarm104Statu Over Analog Input 3 Alarm Alarm105Statu Over Analog Input 4 Alarm Alarm106Statu Under Analog Input 1 Alarm Alarm107Statu Under Analog Input 2 Alarm Alarm108Statu Under Analog Input 3 Alarm Alarm109Statu Under Analog Input 4 Alarm Alarm110Statu Breaker 9 Status Control BKR9 Breaker 10 Status Control BKR10 Breaker 11 Status Control BKR11 Breaker 12 Status Control BKR12 Breaker 13 Status Control BKR13 Breaker 14 Status Control BKR14 Breaker 15 Status Control BKR15 Breaker 16 Status Control BKR16 Breaker 1 Status Control BKR1 Breaker 2 Status Control BKR2 Breaker 3 Status Control BKR3 Breaker 4 Status Control BKR4 Breaker 5 Status Control BKR5 Breaker 6 Status Control BKR6 Breaker 7 Status Control BKR7 Breaker 8 Status Control BKHR8 Breaker 25 Status Control BKR25 Breaker 26 Status Control BKR26 Breaker 27 Status Control BKR27 Breaker 28 Status Control BKR28 Breaker 29 Status Control BKR29 Breaker 30 Status Co
178. nput24 Input 25 Status Input25 Input 26 Status Input26 Input 27 Status Input27 Input 28 Status Input28 Input 29 Status Input29 Input 30 Status Input30 Input 31 Status Input31 Input 32 Status Input32 Input 33 Status Input33 Input 34 Status Input34 Input 35 Status Input35 Input 36 Status Input36 Input 37 Status Input37 Input 38 Status Input38 Input 39 Status Input39 Input 40 Status Input40 Input 41 Status Input41 Input 42 Status Input42 Input 43 Status Input43 Input 44 Status Input44 1996 Square D All Rights Reserved 157 Bulletin 30801M9601 158 Quantity Abbreviation Input 45 Status Input45 Input 46 Status Input46 Input 47 Status Input47 Input 48 Status Input48 Input 49 Status Input49 Input 50 Status Input50 Input 51 Status Input51 Input 52 Status Input52 Input 53 Status Input53 Input 54 Status Input54 Input 55 Status Input55 Input 56 Status Input56 Input 57 Status Input57 Input 58 Status Input58 Input 59 Status Input59 Input 60 Status Input60 Input 61 Status Input61 Input 62 Status Input62 Input 63 Status Input63 Input 64 Status Input64 KYZ Relay Status KYZStatus R1 Relay Status R1Status R2 Relay Status R2Status R3 Relay Status R3Status R4 Relay Status R4Status KYZ Relay Control KYZControl R1 Relay Control R1Control R2 Relay Control R2Control R3 Relay Control R3Control KYZ Relay Override State KYZOverride R1 Relay Override State R1 Override R2 Relay Ov
179. ntrol BKR30 Breaker 31 Status Control BKR31 Breaker 32 Status Control BKR32 Breaker 17 Status Control BKR17 Breaker 18 Status Control BKR18 Breaker 19 Status Control BKR19 Breaker 20 Status Control BKR20 Breaker 21 Status Control BKR21 Breaker 22 Status Control BKR22 Breaker 23 Status Control BKR23 Breaker 24 Status Control BKR24 Breaker 41 Status Control BKR41 1996 Square D All Rights Reserved 161 Bulletin 30801M9601 Quantity Abbreviation Breaker 42 Status Control BKR42 Breaker 33 Status Control BKR33 Breaker 34 Status Control BKR34 Breaker 35 Status Control BKR35 Breaker 36 Status Control BKR36 Breaker 37 Status Control BKR37 Breaker 38 Status Control BKR38 Breaker 39 Status Control BKR39 Breaker 40 Status Control BKR40 Demand Current Capacity DmdCap Peak Demand Current Capacity PkDmdCap Breaker Status 810DBrkrStatus Breaker Trip Unit Status 810DBrkrTripStat Breaker Load Relative to 85 LDPU 810DHiLoad Breaker LDPU in Progress 810D_LDPU Breaker Reverse Power Status 810DNegPwr Relay Trip Status DRTripStat Relay Pickup Status DR_PU D T Last Phase Inst O C Pickup DTPhinstPU D T Last Phase Time O C Pickup DTPhTimePU D T Last Ground Fault Inst O C Pickup DTGFInstPU D T Last Ground Fault Time O C Pickup DTGFTimePU Cause of Last Trip CauseTrip D T of Last Trip DTLastTrip Phase A Current at Last Trip IA Trip Phase B Current at Last Trip IB Trip Phase C Current at Last Trip IC Trip Neutral Current a
180. nutes Follow these steps to set up the CM 100 200 series circuit monitor At this field CM 100 Series Setup table Do this 1 Label Enter a 1 to 4 character alphanumeric label to identify the circuit monitor The label typically is different for each circuit monitor it is used for system displays This is not the device name defined using the Routing com mand SMS displays the device name not the label when listing devices 2 Nameplate Enter a 1 to 16 character alphanumeric nameplate Most commonly associated with the monitored circuit the nameplate should reflect that connection For example if the circuit monitor is monitoring a welder on line 3 the nameplate might be Welder Line 3 SMS uses this name in systen displays 3 Energy Management The circuit monitor provides three independent Energy Management Alarm levels for comparison with computed Real Power Average Demand values These are alarms levels ranging from 0 to 32 767 kW If you do not have the POWERLOGIC Product Communications Software PSW 101 do not change the default entries 4 CT Ratio This is the primary turns ratio of the current transformers CTs supplying the circuit monitor with current inputs Enter the CT Ratio in terms of X 5A For example if the CT ratio is 500 5 enter 500 5 PT Ratio This is the primary turns ratio of the potential transformers PTs supplying the circuit monitor with
181. o a Reference Time U eene ener enne 85 Changing and Deleting a Reference Time n 86 Setting the PC s ClOCK deMm EE 86 Chapter 8 Viewing Alarms and Events 87 Viewing and Acknowledging Active Alarms U 87 Using Operator Assistance Procedures During an 88 Remote Acknowledgment U I U u 88 Silencing Alat EE 88 Viewing the Alarm LOG EEN 88 P rgmg the Alarm EL tie eite eL eed amsaq eee aes 89 Viewing the Event Log EE 89 Purging ihe Event LOg rei rer etit etai A i ATA E ote ete eee eet 90 Chapter 9 Data Logging up u l u Rq qusa asa ass sss 91 Circuit Monitor On Board Data Log Files 91 Setting Up Data Logging EEN 92 Creating Log Templates uu eiie Hee dne u au uu ege eds 93 Assigning Log Templates to Specific Devices a 94 Chapter 10 Displaying Historical Data 96 Defining a New Query or 97 Displaying a History Table or Time Trend 98 Chapter 11 Resetting Device Data 99 Chapter 12 Working with VVaveforms u u uu u u 101 Acquiring a New Waveform A 101 Toolbar tee EE 103 Copying the Waveform Plot or Data Block to Other Windows Prog
182. ogged data in a history table or as a time trend plot CM 2000 onboard data can be auto uploaded SMS offers predefined log templates You can also define your own log templates with their own quantities and intervals Report Generation SMS allows you to generate reports for a variety of information and to print the reports at regular intervals SMS offers the additional flexibility to customize reports as necessary Alarms SMS allows you to define alarms based on an analog quantity such as current voltage or power factor or on a digital quantity such as a status input or relay output Alarms may be assigned one of ten severity levels and any of three types of indication audible visual and or required acknowledgment When alarms occur SMS notifies you immediately and logs the occurrence in the Alarm Log An alarm window allows you to view a summary of active alarms at any time You have the additional option of per forming an e mail or launching a programmed task such as sending a message to a specific system user when an alarm occurs SMS integrates and automatically uploads onboard event logs from Series 2000 Circuit Monitors into one central alarm log 4 1996 Square D All Rights Reserved Chapter 1 Introduction Event Logging of System Information The Event Log file is constantly updated and can be viewed printed or cleared at any time from anywhere on the network or from remote access The log includes opera
183. olor Bar indicator and the Memory Usage Summary to ensure that you don t exceed the available memory The circuit monitor supports up to 14 data log files You can use several data log files to help you organize logged data For example you could log current and voltage values in Log 1 power and energy values in Log 2 and power quality values in Log 3 See Organizing Data Log Files following this section for more tips For each circuit monitor you must assign a log template to each data log you set up A log template defines the quantities to be logged start and end dates and times and log interval You can choose from the available predefined templates or define your own 1996 Square D All Rights Reserved 57 Bulletin 30801M9601 58 Click the Log Templates button to display the dialog box used to define log templates This is the same dialog box you ll use to define log templates for devices that do not have on board logging capabilities such as series 100 200 circuit monitors Chapter 9 Data Logging offers detailed instructions on how to create log templates SMS can automatically retrieve the data from circuit monitors on board data log files and store it in the SMS database on your computer s hard disk To allow SMS to do this you must create an Onboard Data Log Upload task for each circuit monitor and schedule it to upload data at the desired interval The Onboard Data Log Upload task combines the data logged by t
184. onth There are several types of tasks Mail tasks A mail task uses Microsoft Mail to automatically send an e mail mes sage For example you could create a task that sends an e mail message to the plant engineer when an alarm occurs Program tasks A program task automatically launches an executable program For example you could create a task that launches a program that activates the plant engineer s beeper when an alarm occurs e Reset tasks Reset tasks reset device data such as min max logs onboard data logs waveform capture logs device clock time and so on e CM2000 Onboard Data Log Waveform Upload tasks These tasks automatically upload onboard data log and or waveform files from series 2000 circuit monitors and combine them with the SMS database on your PC s hard disk This chapter has three sections The first section Creating New Tasks tells how to create new tasks The second section Scheduling Tasks tells how to schedule tasks to be automatically executed at a user defined time The third section Assigning a Task to a Function tells how to assign a task to an analog or digital function s alarm condition so that the task executes when the alarm condition becomes true Creating New Tasks You create new tasks using the Tasks dialog box You can display the Tasks dialog box in two ways Click Scheduled Tasks on the Setup menu then click the Tasks pushbutton Click the Tasks butto
185. outputs An analog output example follows To set up an analog output follow these steps 1 In the Analog Outputs box select the analog output to configure from the drop down list box 2 Check the Enabled checkbox to enable the selected analog output 3 Enter values in the remaining fields as described in the Analog Outputs table below m Analog Outputs Table At this field Do this elan Upper Limit Enter the register value that is equivalent to the maximum hai output current 1 mA or 20 mA Lower Limit Enter the register value that is equivalent to the minimum output current 0 mA or 4 mA Register Enter the number of the register for which you are creating an analog output For example enter 1001 for Frequency See the circuit monitor instruction bulletin for a register listing 1996 Square D All Rights Reserved 51 Bulletin 30801M9601 52 Analog Output Examples The figure below illustrates the relationship between the output range and the upper and lower limit In this example the analog output has been set up as follows Output Range 0 1 mA or 4 20 mA Register Number Lower Limit Upper Limit 1042 Real Power 3 phase total 100 kw 500 kW The Output range depends on the type of I O module installed The figure below shows the relationship between the output range and the upper and lower limit for a 0 1 mA I O Module Output Current Maximum es C
186. own Load is thereby automatically transferred back to the utility when KW Demand drops below the 1500 KW dropout setpoint for 10 minutes You define an Override Control Output named Gen Load Xfer for two reasons Maintenance or unplanned down time on the generator or transfer switch During the maintenance or down time period you do not want relay R1 to close even if the Over KW Demand Level 1 alarm were to occur Testing provisions for the system You want the ability to test system operation by overriding the state of relay R1 To accomplish this the setup steps are summarized in this section followed by a hypothetical chain of events Setup Circuit Monitor Input Output Module Setup Set up relay R1 on your Utility Main Circuit Monitor for Normal mode and check the Enable Onboard Operation check box Circuit Monitor On board Alarms Events Setup On your Utility Main Circuit Monitor enable alarm number 67 Over KW Demand Level 1 and set it up as follows Pickup 2000 KW Pickup time delay 300 seconds Dropout 1500 KW Dropout time delay 600 seconds 1996 Square D All Rights Reserved 177 Bulletin 30801M9601 178 Setup continued Priority 2 Operate relay R1 upon occurrence of the event Note Forced data log entries forced 4 cycle and 12 cycle waveform captures and priority levels are discussed in more detail in Chapter 5 Advanced On Board Setup for Series 2000 Cir
187. ox Task pesdtMion Device han Cancel Help r Log Files aveforms 1300 00 RE 2 V Cycle Extended 8 8 AG x l xi 497 bt LES E ES M ME In the Device box select a Series 2000 Circuit Monitor CM 2150 or higher In the Log Files box check the data logs to upload If you want to upload the 4 cycle waveform log check the 4 cycle waveforms box If you want to upload the extended waveform log check the Extended waveforms box Click OK SMS returns to the Tasks dialog box The new task appears in the Tasks list 1996 Square D All Rights Reserved 83 Bulletin 30801M9601 Scheduling Tasks After you ve created tasks you can schedule them so that SMS automatically executes them at a user defined time and interval Except for tasks setup to execute only once scheduled tasks run repeatedly at the scheduled time and interval until you stop them To schedule tasks you must first create reference times the time and interval at which you want the task to run then assign tasks to run at specific reference times Creating a New Reference Tme To create a new reference time follow these steps 1 On the Setup menu click Scheduled Tasks SMS displays the Scheduled Tasks dialog box Reference Time Interval Logged Close Weekly x 07 15 96 05 00 PM Tasks Available 2 Click Add to display the Scheduled Task Edit dialog box Enter information in the dialog box as des
188. ox Mail Task Edit Table At this field Do this Mail Subject Type a brief description of the e mail Mail Note Type the message you want to send Addresses Click to display the Addresses dialog box Then select the users to whom the message will be sent Attachments Click to display the Mail Attachments dialog box Then select the files to send as Mail Attachments Mail Logon Click to enter your Microsoft Mail User ID amp Password If Mail is not running when the Mail Task is be launched SMS will launch Mail and use the User ID amp Password to log on OK Click when you ve finished defining the mail task Cancel Click to leave the screen without saving changes Creating a New Program sk Note Program tasks are executed on the PowerLogic Network Server PC only The program being executed must be located on the hard drive of the Network Server PC For this reason you should create the tasks on the Server PC Scheduled program tasks execute based on the server PC s clock To create a new program task follow these steps 1 Click Add The New Task dialog box displays rw Task Name Start Excel Cancel Task Type Program EXE PIF COM 7 Help Type the Task Name up to 255 ASCII characters no spaces In the Task Type box click Program then click Continue SMS displays the EXE Task Type Edit dialog box Task Name Command c msoffice excel excel exe Cancel
189. pdate mode E Silence All Alarms Silences all active audible alarms until the next alarm occurs Es Open Workspace Opens the Workspace dialog box to open a previously defined workspace Display Tables Opens the Tables dialog box to display Display Bar Charts real time tables Opens the Bar Charts dialog box to display real time bar charts Display Meters Opens the Meters dialog box to display real time meter panels Function Tables Display Waveform Plots Opens the Function Tables dialog box to display the status condition of digital and analog functions Opens the Waveform Plots dialog box to display system voltage and current waveforms Historical Data Opens the History Tables and Time Trend Plots dialog box to display history tables and time trend plots from the history log file Display Diagrams Opens the Diagrams dialog box to display diagrams created with POWERLOGIC Interactive Graphics software Help Invokes context sensitive help with how to and example screens 1996 Square D All Rights Reserved Chapter 3 Basic System Setup and Operation Chapter 3 Basic System Setup and Operation SMS supports and communicates with several types of devices See chapter 1 for an overview of device support Circuit Monitors Series 100 200 and Series 2000 See circuit monitor instruction bulletin you received with your equipment for the features an
190. perator asks you to explain what you ve done You offer the following explanation When the fluid level in the tank rises above 32 feet the Tank High pickup level and remains above 32 feet for 20 seconds the Tank High pickup delay SMS generates a level 5 alarm and logs the alarm in the alarm log If the fluid level continues to rise and exceeds 38 feet the Spill Imminent pickup level and remains above 38 feet for 10 seconds the Spill Imminent pickup 1996 Square D All Rights Reserved 71 Bulletin 30801M9601 delay SMS generates a level 1 alarm logs the alarm in the alarm log and executes the task E mail Boss which automatically sends an e mail message to the plant operations manager warning him of the dangerously high fluid level When the fluid level in the tank drops below 22 feet the Tank Low pickup level and remains below 22 feet for 20 seconds the Tank Low pickup delay SMS generates a level 5 alarm and logs the alarm in the alarm log If the fluid level continues to drop and falls below 16 feet the Criti cally Low pickup level and remains below 16 feet for 10 seconds the Critically Low pickup delay SMS generates a level 1 alarm logs the alarm in the alarm log and executes the task E mail Boss To clarify you draw the sketch on the following page Analog Function Name Tank Level Condition Settings Condition Condition Name Pickup Dropout Dropout Task Poll EH CN Du 7 255 86 57 es
191. program included with Windows This file contains important installation tips System Requirements The following table lists the minimum system requirements Specifications in brackets I are recommended for superior performance The hard disk requirements for Windows a swap file the software and logging memory should also be considered when choosing a computer 6 1996 Square D All Rights Reserved Chapter 1 Introduction Minimum System Requirements Windows NT 95 susan SMS 1500 PMX 1000 SMS 1210 GFX 1000 Operating System Windows NT VGA VGA Display Mode recommend Super VGA recommend Super VGA 486 66 Vode Forum recommend Pentium RAM 32M 32M Hard Disk 500M 500MO Program Size 15M 8M SY LINK Card optional RS 232 Port Network Card Modem 14 4 or 28 8 optional Sound Card optional optional 3 5 Drive CD Drive recommended recommended System Manager One To One SMS 121 uses the serial port to communicate so the SY LINK requirements listed in the table do not apply The amount of memory on the hard disk depends on whether logging data is stored on the same computer Required Where to Next For See Chapter Program Installation System Administrator s Guide Basic System and Device Setup 3 Setting Up CM 2000 Onboard Functions 5 Setting Up Functions and Alarms 6 Resetting Device Data
192. ption of Delay in the table below When you ve finished defining settings click close Digital Function Setpoint Table Do this Name Enter descriptive names for the Equal and Non Equal conditions For example if you ve chosen the quantity Input 1 Status and input 1 monitors the status of a cooling fan you might assign the name Fan On to the Equal condition and the name Fan Off to the Non Equal condition Delay SMS multiplies the number you enter in the Delay box by the number of seconds in the Poll Interval box to determine the time delay before a condition becomes true For example if the Poll Interval 10 seconds and the Delay 2 the Equal condition will be true only after the bit s in the monitored quantity are in the Equal state for a full 20 seconds Poll Interval Enter a poll interval in seconds at which SMS will check the state of the bit The poll interval is also used in calculating the delay See the description of Delay above The default poll interval is 10 seconds Severity Annotation Click to assign an alarm severity level from 0 to 9 to the selected condition When the selected condition becomes true that is when the bit is in the desired state for the specified time delay SMS generates an alarm If you do not want the software to generate an alarm when the condition becomes true click No Alarm The manner in which SMS notifies you of an alarm for ex ample visual audi
193. r Quantities l R YR Ri u u u u 147 Appendix C Entering Pickup and Dropout Setpoints and Delays for Series 2000 Circuit Monitor On Board Alarms R Li r ii aa daaa aa aras 165 Appendix D Control Output Examples u 174 Appendix E SMS Client Command Line Parameters u u 182 Appendix F Error Codes 5 184 Chapter 1 Introduction Chapter 1 Introduction Register Your Software Now Included in your installation package is a registration card for POWERLOGIC and POWERLINK products Complete the information on this card and send it in today Registering your software provides you with the following benefits notice of software product upgrades 6 months free technical phone support See Technical Support in this chapter information on POWERLOGIC products information on POWERLOGIC training schools free subscription to POWERLOGIC Solutions newsletter Overview System Manager Software 3000 SMS 3000 is compatible with existing circuit monitors power meters product interfaces for MICROLOGIC circuit breakers LIFEGARD Model 85 transformer temperature controllers and SY MAX programmable lo
194. r factor 3 phase total X X X To display a bar chart follow these steps 1 On the Display menu click Bar Charts or click the toolbar icon SMS displays the Open Bar Chart Display dialog box Open Bar Chart Display x Devices Available Devices Selected D PES P xj is Cancel Help 2 In the Devices Available box click the device s to be included dragging each icon to the Devices Selected box 38 1996 Square D All Rights Reserved Chapter 4 Displaying Real time Data 3 Click OK to display the Bar Chart window A sample window is illustrated below SMS 3000 Client New Workspace D x File Edit View Setup Control y Reports Tools Window Help El a Sampling Mode MANUAL 5 seconds Load Phase Currents Average Load Current Power Flows Demand Phase Currents Peak Demand Phase Currents Date 57 PM System Phase VoltagesiL L Time 3 32 3 s Real Reactive Apparent Demand Power Flows Phase Power Factors Power Factor 3 Phase Total Highest Power Flow red High Power Flow yellow Lowest Power Flow Low Power Flow Normal Operating Range red yellow green 4 From the list on the left of the box click the data type to display in the bar chart The bar chart title changes to match the data type you select the data displays in rows one for each device you selected in step 2 Operating Range Indication SMS lets you define
195. r resulting in a 1 5 volt dc signal measure ment A user installed jumper wire is required on the rear of the I O Module 1996 Square D All Rights Reserved Chapter 5 Advanced Series 2000 Circuit Monitor Setup 3 Enter values in the remaining fields as described in the Analog Inputs table below Analog Inputs Analog Input 1 E At this field amp 0 5 or other mA input external resistor C 4 20m jumper 250 ohm internal resistor U pper Limit Upper Limit 50 Precision Analog Inputs Table Do this Enter the value you want SMS to report when the input voltage is equal to or greater than 5 volts the maximum input voltage Lower Limit 10 Units d Lower Limit Offset Voltage 0 00 Units amps Enter the value you want SMS to report when the input voltage is equal to the offset voltage defined below Offset Voltage Precision Enter the lowest input voltage in hundredths of a volt that represents a valid reading When the input voltage falls below this value SMS reports N A Select the desired precision units tenths hundredths or thousandths from the drop down list box Units Enter up to six characters that describe the units of the monitored analog value for example PSI or Deg C 1996 Square D All Rights Reserved 49 Bulletin 3080IM9601 Analog Input Example The figure below shows an analog input example In this example th
196. rams 103 Displaying a 4 Cycle Waveform Data Block a 103 Exporting the Waveform File to Disk nnne enn 105 Retrieving a Stored Waveform File sss eene nnne ennt 106 Retrieving an On Board Waveform 107 Importing a Stored Waveform File Import Option 107 Retrieving a Stored Waveform File File Option 108 Chapter 13 Control Outputs u u uuu uuu u u 110 Example Applications and Definitions of Terms 110 Override Control Output example I a rr 110 More About the Series 2000 Circuit Monitors l 111 Control Outputs Setup Flow Chart 112 Before Setting Up Manual Control Outputs a 113 Bulletin 3080IM9601 Before Setting Up Override Control Outputs enne 113 Setting Up Control Outputs n n 115 Associating an Input with a Control Output 117 Executing Manual Control Outputs a nennen sins entere 120 Executing an Override Control Output a 121 Chapter 14 Reports ecrit AL ARDA L AAA OLAM 123 Creating a Report and Scheduling It for Automatic Printing 2 123 Manually Printing a Report s nennen nnne nennen 125 Chapter 15 Getting Data To and From Other Places
197. ration PC 1 is located in the accounting department DDE is used to bring energy usage data into 1996 Square D All Rights Reserved 143 Bulletin 3080IM9601 the Microsoft Excel spreadsheet where it is totalled and used to calculated energy costs The accountant needs only the energy data and has no need for the SMS client software PC 1 PC2 PC3 SMS Client Excel SMS Client Excel t 1 1 1 1 1 DDE Server must be DDE Server 4 PowerLogic Server gt DDE Server installed on each PC that will receive DDE data I a a 1 1 1 5 5 v PovverLogic Devices SMS Serving Data to Microsoft Excel SMS as a DDE Server To use DDE to export data to Microsoft Excel you will need to create a Microsoft Excel spreadsheet vvith DDE links The follovving procedure tells hovv To use DDE to export data from SMS into a Microsoft Excel spreadsheet do the follovving 1 Take SMS offline close the SMS client and close the DDE server 2 Open Microsoft Excel and create a spreadsheet 3 Click in a cell and enter the link text as described belovv The link text describes the SMS system name the device and the quantity to import to the cell 144 O 1996 Squar
198. rcuit monitor and displays it in a window 5 To print the data click Print on the File menu 6 To save the data to a file click Save As on the File menu SMS displays the Save Onboard Data Log dialog box Choose a location enter a filename and select the desired Save As type Click Save SMS saves the data in the selected file format Seeing Who s Connected to the Server At any time you can see who is connected to the PowerLogic Network Server To see who s connected follow these steps 1 On the Control menu click Diagnostics gt Connected Users SMS displays a list of the users currently connected to the server 142 1996 Square D All Rights Reserved Chapter 18 Using Dynamic Data Exchange DDE Chapter 18 Using Dynamic Data Exchange DDE SMS supports the Windows feature called Dynamic Data Exchange DDE DDE allows SMS to dynamically exchange data with other Windows applications that support DDE SMS supports server DDE Server DDE allows SMS to serve data to another application For example using server DDE you could setup a Microsoft Excel spreadsheet to receive data from SMS A few of the many benefits you can obtain using DDE are Trend a variety of power system info using Microsoft Excel Lotus 123 etc Analyze energy costs by department individual processes or other criteria Create custom reports Analyze cost of production based on various energy sources number of machined operations a
199. rcuit monitor on Unit Substation Main 1 The section Assigning Functions to Devices in this chapter tells how to assign functions to specific devices To create a new function follow these steps 1 On the Setup menu click Functions Alarms SMS displays the Functions Setup dialog box 2 Click the Functions tab 3 Click the Add button SMS displays the Functions Edit dialog box Functions Edit x Name Apparent Power Al Device Type Circuit Monitor 2000 Cancel Function Type Analog Quantities C Digital 5 a Help Quantity Analog Input 1 Value Analog Input 2 Value Analog Input 3 Value Analog Input 4 Value Apparent Energy Apparent Power Apparent Power B Apparent Power C Apparent Power Total Coincident Current Demand Pk Prod Coincident Current Demand Pk Prod B zi 4 In the Device Types box select the desired type of device 5 Select the type of function Analog or Digital 68 1996 Square D All Rights Reserved Chapter 6 Setting Up Functions and Alarms 6 If you re creating an analog or digital function click the desired quantity in the Quantity list box The Name defaults to the quantity name Edit the name if desired If you wish to create a custom quantity click Quantities See Defining Custom Quantities in Chapter 16 for instructions on creating a custom quantity 7 Click OK SMS returns to the Functions tab and adds the new function name to the Functions
200. resonance harmonic distortion before fuse failures or capacitor can ruptures occur Alarms are Based On Functions Each alarm is based on one of two types of functions analog or digital You ll define analog functions when you want to define an alarm based on an analog quantity Analog quantities are expressed over a continuous range of values current voltage temperature frequency and pressure are examples of analog quantities You ll define digital functions when you want to define an alarm based on a digital quantity Digital quantities are expressed in only two discrete states for example on off Examples of digital quantities include circuit breaker status open or closed cooling fan status on or off and the state of a bit 0 or 1 in a register When you define an analog or digital function you select a quantity then define the conditions under which SMS generates the alarm For example to define an alarm that 1996 Square D All Rights Reserved 65 Bulletin 30801M9601 warns you of an overheating transformer you would define an analog function that specifies the desired quantity transformer temperature the alarm conditions called pickup and dropout setpoints the temperature values at which you want the alarm to become active and inactive along with any desired time delays The General Alarm Setup Procedure There are two general tasks you must complete to set up alarms You ll perform all alarm
201. rm of a history table or time trend plot Chapter 10 tells how to view history tables and time trend plots Occasionally you may want to retrieve onboard data directly from a Series 2000 Circuit Monitor and view it You can do this using the Onboard Data File command on the Display menu The Onboard Data File command lets you retrieve view and print the following circuit monitor onboard files 14 data log files Onboard event log file Min max log file Maintenance log file 1996 Square D All Rights Reserved 141 Bulletin 3080IM9601 To retrieve onboard data from a circuit monitor follow these steps 1 On the Display menu click Onboard Data File SMS displays the Onboard File dialog box On Board File x i On Board Files All Devices BB cm feeder 3 BB cm feeder 6 BB cm main 2 Eer Bil CM Main Finishing 150 150 31 Ohr 1 min 2 n Last Clear Resize 07 01 96 10 28 28 AM Refresh View Quanities s 2 In the Devices box click a series 2000 circuit monitor 3 In the Onboard Files box click the file that you want to view The file information window at the bottom of the dialog box shows information about the selected onboard file including the number of records stored in the file the logging interval and more To view a list of the quantities that are included in the log file click View Quantities 4 Click the Upload pushbutton SMS retrieves the data from the ci
202. roceed with setup For each type of setup DDE Requestor SY LINK Board or SY MAX RS 232 see the appropriate section in the following paragraphs 1996 Square D All Rights Reserved 17 Bulletin 30801M9601 SY LINK Board Setup If you chose the SY LINK driver protocol in step 4 of the procedure on the previous page SMS displays the PC Interface SY LINK Cards dialog box PC Interface SY LINK Cards Network Size Cancel Test Port Help PC Interface Connection Name SMINIA Memory Address poo 21 Network Baud Rate sk 4 RS 422BoudRate so X Network Address 0 99 30 2 31 C 100 To set up the SY LINK board enter the appropriate information in each step below 1 The PC Interface Connection Name displays the default name entered on the previous dialog box Memory Address This is the SY LINK memory address This value tells SMS which memory address range the SY LINK board will use The memory address range is set by a group of DIP switches located on the SY LINK board The address that appears in this dialog box was entered during SMS 3000 installation It must match the SY LINK board s DIP switch setting The SY LINK board s default switch setting is CA00 Unless you changed the DIP switches on the SY LINK board and during installation CA00 displays here Network Baud Rate This sets the baud rate of the SY LINK board s network port This value must match the baud rate of
203. s from the SMS database This vvill not delete any other information such as historical data stored in the database Use this feature vvith cau tion once you purge the alarm log you cannot recover the deleted alarm data To purge the alarm log follovv these steps 1 On the Windows menu click Alarm Log to view the alarm log 2 Click the purge button Bx SMS asks for your username and passvvord 3 Enter your username and passvvord and click OK MS displays the Log Delete Options dialog box S 4 Select All to delete all entries or enter a date range then click OK SMS deletes the specified data Viewing the Event Log The event log stores events that are related to the operation of SMS Some of the events that are stored in the event log include user log in changes to system setup system taken offline system placed online tasks executed and devices that have lost communications To view the event log follow these steps 1 On the Windows menu click Event Log SMS displays the Event Log window 1996 Square D All Rights Reserved 89 Bulletin 3080IM9601 Event Log EERI Time Priority Evert High 07 17 96 15 14 48 Acknowledg Function g Event Viewer 07 17 96 14 51 24 Low User Log In User Level SMS 3000 Client 07 17 96 14 43 01 High Sync Devic LaVergne Plant Syne Device to DataB 07 17 96 14 42 33 High Compare F LaVergne Plant Device Compare 07 17 96 14 42 33 Critical System Onli
204. t Silencing Alarms If an alarm has been set up for audible notification SMS sounds the audible when the alarm becomes active The audible plays repeatedly until you do one of the following Acknowledge the alarm as described in Viewing and Acknowledging Active Alarms or Silence the alarm If multiple audible alarms are active at one time SMS plays the audibles alternately in a repeating cycle To silence all active alarms follow these steps 1 Click the Silence All Alarms icon on the toolbar This will not clear the unacknowledged alarms from the alarm list or make the alarms inactive it only stops the audible portion of the alarm Viewing the Alarm Log Each time an alarm occurs SMS records the alarm occurrence in the alarm log To view the alarm log follow these steps 1 On the Windows menu click Alarm Log SMS displays the Alarm Log Window 88 1996 Square D All Rights Reserved Chapter 8 Viewing Alarms and Events 4 Alarm Log Ol x amp x ex a 07 23 96 16 13 08 CM main Input 1 Off to On Alarm Cooling Fan is Off 1 Acknowledged 07 23 96 15 08 11 CM main Input 1 Off to On Alarm Cooling Fan is Off 1 Unacknowledged To view the alarm detail window double click the desired alarm or click the alarm then click al Purging the Alarm Log Periodically you may vvish to purge the alarm log VVhen you purge the alarm log SMS deletes the specified alarm
205. t Last Trip IN Trip Ground Current at Last Trip IG Trip Average Current at Last Trip lAvg Trip Real Power KW at Last Trip kW Trip Real Energy KWH at Last Trip kWHr Demand Current Avg at Last Trip IDAvg Trip Demand Current A at Last Trip AD Trip Demand Current B at Last Trip IBD Trip Demand Current C at Last Trip ICD Trip Demand Real Povver at Last Trip kVVD Trip Cause of 2nd Last Trip Cause Trip2 D T of 2nd Last Trip DTLastTrip2 Phase A Current at 2nd Last Trip IA 2 Phase B Current at 2nd Last Trip IB Trip2 Phase C Current at 2nd Last Trip IC Trip2 Ground Current at 2nd Last Trip IG_Trip2 Average Current at 2nd Last Trip Avg Trip2 Demand Current Avg at 2nd Last Trip IDAvg Trip2 162 1996 Square D All Rights Reserved Appendix B Abbreviations for Quantities Quantity Abbreviation Demand Current A at 2nd Last Trip IAD_Trip2 Demand Current B at 2nd Last Trip IBD_Trip2 Demand Current C at 2nd Last Trip ICD_Trip2 Cause of 3rd Last Trip CauseTrip3 D T of 3rd Last Trip DTLastTrip3 Phase A Current at 3rd Last Trip IA Trip3 Phase B Current at 3rd Last Trip IB Trip3 Phase C Current at 3rd Last Trip IC Trip3 Ground Current at 3rd Last Trip 16 Trip3 Average Current at 3rd Last Trip lAvg Trip3 Demand Current Avg at 3rd Last Trip IDAvg Trip3 Demand Current A at 3rd Last Trip AD Trip3 Demand Current B at 3rd Last Trip IBD_Trip3 Demand Current C at 3rd Last Trip ICD_Trip3 Breaker Sensor Rating Plug
206. t dialog box 118 1996 Square All Rights Reserved Chapter 13 Control Outputs Configure Control Output x Control Output Name Contac 1 Open Close Pre defined Relay 1 d C User Defined 1 mOn 1 Action Close Contactor GE Condition Input 1 Status Associate Status Input 1 n r Off 0 Action Device CM main Open Contacto Se Condition Input 1 Status Associate Status Input 1 Off OK Cancel Help 9 In the On 1 Action box click the Associate button SMS displays the Associated Condition dialog box Associated Condition x Control Output Contactor 1 Open Close Devices Conditions Defined 3X No Association B D All Devices RE Rui BB power meter Properties Input 1 n Delay 5 id elay 5 zi seconds inp 1 OF OK Cancel Help 10 In the Devices box select a device SMS updates the Conditions Defined box to show all digital functions that you ve assigned to the selected device 11 In the Conditions Defined box select the desired digital function When you select a function option buttons appear in the Properties box The option buttons correspond to the names you defined for the Equal and Non Equal condi tions in the Digital Function Setpoint Edit dialog box 12 In the Properties box enter the appropriate time delay from 5 to 60 seconds Be sure that the time delay you enter
207. t each device For this setup information see Device Setup below 3 Device Setup To perform device setup click the device name then click Configure or double click the device name The appropriate dialog box displays depending on the device type you selected For example if you click a Series 2000 Circuit Monitor you will see a Device Setup dialog box that allows you to enter Series 2000 Circuit Monitor data The setup for each device type is described in the following pages 1996 Square D All Rights Reserved 23 Bulletin 3080IM9601 Series 2000 Circuit Monitor Setup 24 After you select the CM 2000 device type SMS displays the CM2000 Basic Setup tab after you establish the route Device Setup CM 2 tel Jemez meh RCUIT MONITOR Metering E ES Neutral CT 5 5 PT 120 120 E Autocale Scale Factors From PT CT Accumulated Energy Module Onboard Data Storage Onboard Alarms E vents Absolute Signed Demand Intervals Power Demand 5 aen E H Interval Current K Factor Demand Interval Demand Method Thermal 15 2 Minutes izi Wiring 4wie C 3Wire T Neutral CT Installed 24 2 Element Wye Metering NO B Phase PT Installed Follow the steps below to set up the CM 2000 series circuit monitor At this field CM2000 Basic Setup table Do this 1 Label Enter a 1 to 4 character alphanumeric label to identif
208. tal Reactive Power B fkVARB Fundamental Reactive Power C fkVARC Fundamental Reactive Power Total fkVARTtI Harmonic Factor A HFA Harmonic Factor B HFB Harmonic Factor C HFC Harmonic Factor Total HFTtl Harmonic Real Power A hkWA Harmonic Real Power B hkWB Harmonic Real Power C hkWC Harmonic Real Power Total hkWTtl Analog Input 1 Value AnalogIn1 Analog Input 2 Value AnalogIn2 Analog Input 3 Value Analoglin3 Analog nput 4 Value Analogln4 Min Update Interval MinUpdatelnt Min Frequency MinHz Min Temperature MinTemp Min Current A MinlA Min Current B MinlB Min Current C MinIC Min Current N MinIN 1996 Square D All Rights Reserved 149 Bulletin 30801M9601 150 Quantity Abbreviation Min Current G MinlG Min Current Avg MinlAvg Min Current Apparent rms MinlApp Min Current Unbalance A MinUnbalA Min Current Unbalance B MinUnbalB Min Current Unbalance C MinUnbalC Min Current Unbalance Worst MinUnbalW Min Voltage A B MinVAB Min Voltage B C MinVBC Min Voltage C A MinVCA Min Voltage L L Avg MinVLLAvg Min Voltage A N MinVAN Min Voltage B N MinVBN Min Voltage C N MinVCN Min Voltage L N Avg MinLNAvg Min Voltage Unbalance A B MinVUnbalAB Min Voltage Unbalance B C MinVUnbalBC Min Voltage Unbalance C A MinVUnbalCA Min Voltage Unbalance L L Worst MinVUnbalLLW Min Voltage Unbalance A N MinVUnbalAN Min Voltage Unbalance B N MinVUnbalBN Min Voltage Unbalance C N MinVUnbalCN Min Voltage Unbalance L N Worst Min Power
209. te Processes Poll Interval Enter a poll interval in seconds at which SMS will check for the alarm condition You can enter unique poll intervals for each function The poll interval is also used in calculating delays see the descriptions of Pickup Delay and Dropout Delay above To enter a poll interval at least one condition must be set to an alarm level other than No Alarm Note If you do not enter a poll interval SMS will not check for alarms A function with no poll interval is useful only for control outputs and for use with the Interactive Graphics software Analog Function Example Assume that you have a circuit monitor equipped with an analog input output module One analog input is monitoring the fluid level in a tank If the fluid level in the tank rises too high there is danger of a spill If the fluid level falls too low there is risk of damage to equipment You want SMS to generate alarms that warn you of dangerously high or low fluid levels so you define an analog function called Tank Level In the Analog Setpoints Edit dialog box you define condition settings for each condition The table on the next page shows the values you enter The five condition levels allow you to set up alarms that warn you before the tank level becomes critically high or low using the high and low condition levels and when the tank level is critically high or low using the highest and lowest condition levels Your plant o
210. te Registers or press CTRL R SMS displays the Diagnostics Registers dialog box Read Write Registers Devices All Devices BB cm feeder 3 BB cm feeder 6 BB cm main 2 Bil CH Main Finishing Paintine 1996 Square D All Rights Reserved Chapter 17 Diagnostics In the Devices box click a device to read from In the Register boxes enter up to 10 register numbers to read To automatically enter sequential register numbers enter the first register number in the top register box then press the down arrow key on your computer s keyboard Click the Read button SMS displays the register values in the Value boxes Click the radio buttons in the Format box to change the format of the displayed values To write registers follow these steps 1 On the Control menu click Diagnostics gt Read Write Registers SMS displays the Diagnostics Registers dialog box In the Devices box click a device to write to In the Register boxes enter up to 10 registers to write In the Format box select the format to enter values In the Value boxes enter the values to write Click the Write button SMS displays the Security Check dialog box Enter your user and password then click OK SMS writes the values to the registers Displaying Circuit Monitor Onboard Data Typically you will view historical data from Series 2000 Circuit Monitor onboard data log files in the fo
211. te as a result of the control action Success or failure of the operation is then based on whether the input achieves the desired state after a user defined time delay The figure below is a simple example in which the Associate function would be useful The figure shows a circuit monitor with optional inputs and outputs One of the circuit monitor s control outputs is used to activate a coil that closes a contactor The contactor is then wired to one of the circuit monitor s inputs In the example when output R1 is Off S1 should be Off Open When output R1 is On the contactor coil should pick up thereby closing the contactor auxiliary contact input 1 should therefore be Or Closed If the contactor fuse was blown a wire was loose the contactor coil failed or some other malfunction occurred the SMS Associate function would inform the operator that the desired result was not achieved even though the R1 contact may have operated properly Contactor Auxiliary Contact N O Circuit Monitor S1 Input Before you can create an association to a control output you must define a digital function In order to associate a control output with the status of circuit monitor input S1 as shown in the example above you would have to define a digital function based on the pre defined digital quantity Input 1 Status The Digital Setpoint Edit dialog box on the next page shows the digital function definition for our example 1996
212. tem before shutdown automatically becomes the online system after startup You can change the system to another or to no online system use the Diagnostics tab of SMS Configuration Smscfg This change will take effect only for the next startup Setting the Sampling Mode After you go online with a system you must tell SMS how often it should update the client user interface for real time displays Each client can set its own update rate SMS has two sampling mode options Scheduled Causes SMS to sample data at a user defined update interval Notes The number of devices from which you are sampling data can slow this process down For example if you have 50 devices in your facility SMS may take longer than 10 seconds to complete a sample If the sample takes longer than the schedule time SMS will return the sample information and then immediately begin a new sample This virtually constant device polling uses up SY NET and RS 232 resources on the POWERLOGIC network server PC which will slow down other SMS processes If unat tended clients are making unnecessary requests to the server it is recommended that you stop the sampling process at these client PCs You can either go to manual sampling mode or close all reports and tables that are drawing information into client PCs Alarm and event polling will continue even when in manual sampling mode The scheduled mode does not control intervals for logging or alarm data to the histor
213. the normal low and high operating ranges for devices When the ranges are established the bar charts will display color tracking to indicate the limits of each range for that device This indication makes it easy for operators to quickly assess the status of the devices being metered The normal operating range displays as a green bar The yellow bar indicates conditions that are low or high outside of the normal range The red bar indicates the lowest or highest conditions that are even farther outside of the normal range If only two setpoints high and low are established there will be no yellow bar only green and red The figure above illustrates color tracking indication of operating ranges 1996 Square D All Rights Reserved 39 Bulletin 30801M9601 Operating Range Indication cont To establish operating range indication for a device you must add an analog function that you want to monitor such as voltage A N or Current B choose the device at which you want to monitor the function establish setpoints with pickup and dropout points to define the limits of each range You must establish at least two setpoints for a function for example you might set high alarm and low alarm with pickup and dropout points to establish the range The pickup values determine when green changes to yellow and yellow changes to red Displaying a Meter 40 You can display real time data on analog meters Although you can view dat
214. the procedures The Index tab lists topics in alphabetic order Double click the topic you want to view The Find tab uses key words to search for information The Find option uses a Windows database that includes all key words in the help system 2 1996 Square D All Rights Reserved Chapter 1 Introduction About SMS SMS 3000 is a client server PC based software package that provides real time circuit information from POWERLOGIC Circuit Monitors MICROLOGIC circuit breakers Model 85 transformer temperature controllers and other compatible devices SMS provides comprehensive information at a single computer or at multiple personal computers Something for Everyone SMS provides useful information to anyone involved with the efficiency reliability cost or operation of an electrical distribution system Plant engineers maintenance person nel machine operators and many others can benefit from this powerful easy to use software without extensive software training Whether your goal is to minimize energy usage avoid peak demand levels analyze equipment loading or simply keep your electrical system up and running SMS provides the information you need in the format you want The Flexibility of Microsoft Windows SMS takes full advantage of the powerful graphical environment of the Microsoft Windows multi tasking environment Commands are entered by simple point and click operations or keyboard entry Since the SMS soft
215. tion Line Online Working LED System System indicators 8 1996 Square D All Rights Reserved Chapter 2 The SMS Interface The Online System If this computer has been logged on before and there was an online system when SMS was last closed that system will still be online The ONLINE field at the bottom of the window displays the system name If this is the first time this computer has logged onto SMS or if there was no online system the previous time this field reads No online system Going online and offline is discussed in Chapter 3 Basic System Setup and Operation The Working System The working system sometimes called the edit system is the system that is open for editing changing device configurations defining functions etc SMS can be online to one system while you are editing another system You need to open a working system only when you want to change device or system setup information The working system name displays to the right of the online system at the bottom of the screen When you first log on there will be no working system The procedure for opening a working system is covered in Chapter 3 Basic System Setup and Operation Parts of a Window SMS is completely interactive using descriptive menus for all program functions The program takes full advantage of the powerful graphics oriented Microsoft Windows interface The SMS main window is shown on the previous page A description of the main
216. tive window 3 On the Edit menu click Copy 4 Switch to the destination document and click Paste on the Edit menu You may need to place an insertion point before you click Paste For specific instruc tions on pasting into a particular application program refer to the instruction mate rial for the application program Clearing the Clipboard To clear the clipboard click Clear on the Edit menu This clears unwanted information from memory The SMS print feature allows you to print data displayed in open document windows Any data that you can display in an SMS document window can be printed This includes tables bar charts meters time trends waveform plots and so on Preparing to Print Before you can print you must set up the target printer The Windows control program handles the interface to different types of printers This section offers basic instructions for printer setup For detailed instructions on printer setup refer to your Windows documentation 1996 Square D All Rights Reserved Chapter 15 Getting Data To and From Other Places To set up the target printer follow these steps 1 4 On the File menu click Printer Setup SMS displays the Printer Setup dialog box From the Available Printers list select the desired printer To change a printer s setup click the Setup button and edit the values in the dialog box to meet your needs Click the Help button for more on setting up printers
217. tor activities such as changing setup resets and placing the system online or offline The number of events recorded is limited only by disk space Remote Control SMS allows manual control of circuit monitor relay outputs and other SY MAX compat ible devices Using this feature you can apply and operate control options using SMS Password entry is required to perform control operations You must configure circuit monitor relay outputs at the circuit monitor Share Data with Other Applications SMS provides a powerful export feature that lets you export data in a variety of file formats You can then import these data files into the appropriate application for addi tional analysis Included in SMS is the Dynamic Data Exchange DDE module which enables SMS to dynamically export data to other Windows applications Network Communications SMS can use a variety of backbone network options These include Square D s SY NET network TCP IP based networks or combinations as applications require The SY NET network offers a variety of communication options including local and remote access multi user access and speeds up to 500 kbaud It supports virtually limitless connections of power monitoring and control devices and is designed for industrial applications For Ethernet TCP IP networks POWERLOGIC Ethernet Gateways provide the best networking performance and allow use of existing TCP IP networking technologies including the Internet
218. trieved from circuit monitor on board memory and data logged directly to the data base by SMS The figure below illustrates this concept Trend PI History Table Database Data logged by SMS di y Combined Data from CM historical data on board memory For each series 2000 circuit monitor with onboard memory you must define an Onboard Data Log Upload task that specifies which log files to retrieve and how often to retrieve them See Chapter 7 Using Tasks to Automate Processes for instructions on defining Onboard Data Log Upload tasks Although SMS can automatically retrieve data from circuit monitor on board memory and combine it with the database there may be times when you want to retrieve on board data directly from a circuit monitor and view it SMS provides this capability as well The section Displaying Circuit Monitor On Board Data in Chapter 17 tells how Setting Up Data Logging To set up data logging you must do two things 1 Create log templates In creating a log template you ll specify the dates and times to start and stop log ging the logging interval for example do you want to log data hourly daily and the quantities to be logged Since each device type supports different quantities you ll create device specific log templates that is you ll create one set of templates for series 2000 circ
219. tting up alarm severity levels 76 alarms 65 control outputs 115 custom quantities 131 custom tables 130 data logging 92 devices and routes 20 functions 65 global functions 68 groups 128 log templates 93 PC interface 16 Bulletin 3080IM9601 power meter 27 28 quick tables 130 reports 123 RS 232 port 19 serial port 19 series 100 200 circuit monitors 26 Series 2000 circuit monitor 24 44 analog inputs 48 analog outputs 51 IO modules 45 on board alarms events 60 on board data logs 57 on board data storage 54 on board event log 56 on board waveform log 56 SMS as a DDE server 144 SY LINK board 18 tasks 79 mail tasks 80 on board data log waveform upload 83 program tasks 81 resets tasks 82 Silencing alarms 88 Sizing Boxes 10 SY LINK board setting up 18 System creating a new 15 going offline 31 going online with 29 System communications test 136 System information viewing and printing 146 System information line 11 System requirements 6 T Table saving data to a file 127 Tables column head abbreviations 147 184 displaying 35 Tasks assigning to an on board alarm 64 creating new 79 CM 2000 on board log waveform upload 83 mail task 80 program tasks 81 resets tasks 82 scheduling 84 using 79 Technical support 6 Template assigning data log templates to devices 94 creating data log templates 93 default data log template 59 Testing system communications 136 Time delays entering 165 Time trend plots displaying
220. type of query or table In the Name box type a descriptive name for the query or table Click Continue The dialog box that appears next depends on the type of query or table you selected If you selected a Table the dialog box allows you to select a quantity or quantities only If you selected a Query the dialog box allows you to select a quantity or quantities and device or devices Select the devices and or quantities as required then click Finish SMS returns to the Historical Data dialog box You can now use the newly defined query or table to display a history table or time trend plot 1996 Square D All Rights Reserved 97 Bulletin 30801M9601 Displaying a History Table or Time Trend Plot 98 Before you can display a history or time trend plot you must have defined tables and or queries as described in the previous section You must also have logged the desired data to the SMS database For example if you have defined a query to display historical voltage values from a circuit monitor called Main 1 you must have already logged voltage values for Main 1 See Chapter 9 for instructions on logging To display a history table or time trend plot follow these steps 1 On the Display menu click Historical Data SMS displays the Historical Data dialog box In the Tables Queries box select the desired query or table The Available Range box shows the entire range of logged data for all devices av
221. uC uonisuei ynduy cg SULILTY yo uo Wo sa8ueyp emie dur ep npour O ay U UA no 0 uo uontsut1 z jnduy 78 dn gd suue V suree s o jdde jou op 5 eum pue sjurodjag ejqeorddy Jon Ho 0 uo uonisuei 1 1nduq 68 soajduiex3 sjueuuo2 sxy1eulaH sun jnodoig dnydig uonduosoaq ON uue v 1996 Square D All Rights Reserved 170 Appendix C Entering Pickup and Dropout Setpoints and Delays 021 611 SII LH SI TII en Ill 3nodoup 104 067 10 my rd 103 99 10 O T 10 Jayua AGT ye mo dojp pue AT 1 were 0 JueA no yi supporpuni ur uorsioo1d pue Are pu JaMmoy pue A0 e u s ddn qr 107 0097 10 0777 10 dn xpid 10 GZIP Jaqua A 1e mo dorp pue AGZI 1e were 0 jueA noA J suppuesnoui ur uoispeid pue A000 T muy 12m0 pue A000 S nuri Jaddn yyy e durexg ynodosp 009 dnxpid 10 0G JaqUA Ted 009 1 modoxp pue Sq 006 1e Wee no Ji syrun ur uorspoe1d pue 154 007 HUN 12M0 pue Sq 000 Hwy 19ddn UHA odurexg So peue y 10 UOIsDaId pue sanpea yury JaMoy pue 1eddn ayy dn yas nok moy uo pu d p Jpm syutodjag aaye8au 10 aaytsod aq ue onpeA nodoiq 3nodoip p ouueu jnduy 3o euy s pun 011 uei Anp3 u o10Ul 10 Anisod ss aq 1snui pue 10 aanisod puueyp duy 39o euy s pun 601 aq ue n eA dnyprg suypuesnoy Jo siyp
222. uals or falls below the pickup level for the time specified in the Pickup Delay box The pickup level does not apply to the Normal condition SMS multiplies the number you enter in the Pickup Delay box by the number of seconds in the Poll Interval box to determine how long the metered value must equal or exceed the Pickup setpoint before the selected Condition becomes true For example assume that you are defining setpoints for the High condi tion If the Poll Interval 10 seconds and the Pickup Delay 2 the metered value must equal or exceed the Pickup setpoint for a full 20 seconds before the High condition becomes true Dropout Enter the level at which the selected condition ceases to be true The High and Highest conditions cease to be true when the metered value equals or falls below the dropout level for the time specified in the Dropout Delay box The Low and Lowest conditions cease to be true when the metered value equals or exceeds the dropout level for the time specified in the Dropout Delay box The dropout level does not apply to the Normal condition Dropout Delay SMS multiplies the number you enter in the Dropout Delay box by the number of seconds in the Poll Interval box to determine how long the metered value must equal or fall below the Dropout setpoint before the selected Condition is no longer true For example assume that you are defining setpoints for the High condition If the Poll Interval 10 seconds and t
223. uit monitors one set for POWERLOGIC Digital Relays and so on 2 Assign the templates to specific devices 92 1996 Square D All Rights Reserved Chapter 9 Data Logging Creating Log Templates To create a new log template follow these steps 1 On the Setup menu click Logging SMS displays the Logging Setup dialog box 2 Click the Logger Templates tab Logger Setup x Template Assignment Logger Templates Template Name E Add Device Type Circuit Monitor 2000 Delete Date Range Time of Day Interval Stat PE Stat 8 00 00AM 15 Min xl End Pe End 8 00 00 AM AllDay 2 Quantities Available Quantities Selected e ID All Quantities All Quantities amp D Currents amp D Currents e IO Demand Readings amp History amp D Power Quality Readings amp D Energies amp D Fundamental Phasors o ID Maximum Readings amp D Minimum Readings e DD Miscellaneous amp D Power Factors amp D Power Quality Readings Close Update Help 3 Click Add SMS displays the Template Name dialog box 4 Enter a template name 5 In the Device Type box click the device type for which you ll create a template Click OK 6 In the Date Range box enter the dates you want data logging to start and end For example if you want to log data for a period of one month starting today enter the present date in t
224. umber Discriminator Trips Since Reset N810DDiscTrips Number Override Trips Since Reset N810DOvrideTrips D T Last Reset of 810D Trip Counters DTRstTripCtr810D D T Last Breaker Operation DTLastBrkrOp Total Relay Trips Since Counter Reset NDRTrips Phase Time O C Trips Since Reset NPhtTrips Phase Inst O C Trips Since Reset NPhinstTrips G F Time O C Trips Since Reset NDRGFTrips G F Inst O C Trips Since Reset NGFInstTrips D T Last Reset of DR Trip Counters DTRstTripCtrD PIF3 Battery Status PIF3BattStat MicroLogic Breaker Trip Status PIF3TripStatus Breaker Plug Rating PIF3PlugRating Breaker Type PIF3BrkrType External Ground Fault System Option PIF3ExtGF Short Time Option PIF3SD Ground Fault Option PIF3GF nstantaneous Pickup Option PIF3Inst Number Overload Trips NOverloadTrips Number Short Circuit Trips NSCTrips Number Ground Fault Trips NGFTrips Hottest Coil Temperature HotCoilTemp Coil 1 A Temperature Coil1 Temp Coil 2 B Temperature Coil2Temp Coil 3 C Temperature Coil3Temp Transformer Fans Status FanStatus Transformer Fans Mode FanMode Transformer Type TransformerType Fans On Setpoint FansOnTemp Fans Off Setpoint FansOffTemp Temperature Alarm Pickup Setpoint AlarmOnTemp Temperature Alarm Dropout Setpoint AlarmOffTemp Hi Temp Shutdown Setpoint ShutdownTemp Fans On Setpoint Status FansTempStatus Alarm Setpoint Status AlarmTempStatus Shutdown Setpoint Status ShutdownStatus 164 1996 Square D All Rights Reserved Appendix C
225. urexq 3nodozp uey saysry dnyprg s n eA Ja8aqur Anisod 19 uq VAM VAM AO 26 sa dwex3 s usww0D syiewoy siiun 31nodoug dnyoiqd uonduoseg ON ULE Y 167 O 1996 Square D All Rights Reserved Bulletin 3080IM9601 yuiodjas dead ay ye pueursp My eAneSeu 10 Anisod uo dn yord ITA 1 os pueurep My JO angea ejnjosqe ayy o 2 pueure MM 1240 69 uo peseq sr uorezedo 3nodozp MY 0671 dny td MY 0002 ad Z P427 pueure MM 1240 99 3nodoip ueyy Jaysry anqea sanea 1e3aqur eAnrsod am MX P427 pueur 1 My 140 19 3nodop y Ax OST doud v Ay 0007 odp ba puewag V Ay 1240 99 nodorp uey Jaysry onpeA dmy rq Z P427 pueure 1 VAM 1240 G9 sanqea Jasayut Anisod Aa VAM I pueure VAM 12940 9 dnyoid y ye puewap yy Ay 80199 1 aaqesau 10 Surpeay Anisod uo dn xod jrm 31 os puewap YY Ay JO anea aynjosqe ay uo p seq sruonge1edo wiepy Jnodop wy Ax 0671 dmpid YYAYI 0007 ldurexg ueyy auf dnyorg sanyea 1 39 Jut aanisod am YVAN pueur q dv A D DID d 1940 Co jurodjes dnypid y ye puewap My aanesau 10 Anisod uo dn yord jrm y os puewap My Jo n eA eimjosqe ay uo p seq st uoneredo urrejy ynodorp MY OSZt dropid My 0002 ldurexg nodozp uey au dnyoig sanea Ja8ayut aanisod am MN pueure 1 MM poptpedg 1940 29 v Ax 0921 mpid v Ax 0007 odp 3nodorp uey Jaysry
226. urrent ima Minimum Output Current mA Real Power 3 Phase 100 kw Lower Limit 500 kW Total from register 1042 es The table below shows the output current at various register readings for a 0 1 mA I O Module Register Reading Output Current 50 kW 100 kW 200 kW 300 kW 500 kW 550 kW 0 mA below lower limit OmA 0 25 mA 0 5 mA 1 mA 1 mA above upper limit 1996 Square D All Rights Reserved Chapter 5 Advanced Series 2000 Circuit Monitor Setup The figure below shows the relationship between the output range and the upper and lower limit for a 4 20 mA I O Module Output Current Maximum output Current 20 mA Minimum Output Current 4 mA Real Power 3 Phase Total from register 1042 1 100 kW 500 kW um Ci The table below shows the output current at various register readings for a 4 20 mA I O Module Register Reading Output Current 50 kW 4 mA below lower limit 100 kW 4 mA 200 kW 8 mA 300 kW 12 mA 500 kW 20 mA 550 kW 20 mA above upper limit 1996 Square D All Rights Reserved 53 Bulletin 3080IM9601 Setting Up On Board Data Storage 54 You ll use the On Board Data Storage tab shown below in the Series 2000 Circuit Monitor Device Setup dialog box to set up circuit monitor on board memory including the circuit monitor s event log waveform capture logs and data logs
227. urrent Ph C Alarm Alarm51 Status Over THD Voltage Ph A N Alarm Alarm52Status Over THD Voltage Ph B N Alarm Alarm53Status Over THD Voltage Ph C N Alarm Alarm54Status Over THD Voltage Ph A B Alarm Alarm55Status Over THD Voltage Ph B C Alarm Alarm56Status Over THD Voltage Ph C A Alarm Alarm57Status Over K Factor Ph A Alarm Alarm58Status Over K Factor Ph B Alarm Alarm59Status Over K Factor Ph C Alarm Alarm60Status Over Predicted KVA Demand Alarm Alarm61 Status Over Predicted KW Demand Alarm Alarm62Status Over Predicted KVAR Demand Alarm Alarm63Status Over KVA Demand Level 1 Alarm Alarm64Status Over KVA Demand Level 2 Alarm Alarm65Status Over KVA Demand Level 3 Alarm Alarm66Status Over KW Demand Level 1 Alarm Alarm67Status Over KW Demand Level 2 Alarm Alarm68Status Over KW Demand Level 3 Alarm Alarm69Status Over KVAR Demand Alarm Alarm70Status Over Lagging Power Factor Alarm Alarm71 Status Under KW Alarm Alarm72Status Reverse Power Alarm Alarm73Status Phase Reversal Alarm Alarm74Status Input 1 Off to On Alarm Alarm75Status Input 2 Off to On Alarm Alarm76Status Input 3 Off to On Alarm Alarm77Status Input 4 Off to On Alarm Alarm78Status Input 5 Off to On Alarm Alarm79Status Input 6 Off to On Alarm Alarm80Status Input 7 Off to On Alarm Alarm81 Status Input 8 Off to On Alarm Alarm82Status Input 1 On to Off Alarm Alarm83Status Input 2 On to Off Alarm Alarm84Status Input 3 On to Off Alarm Alarm85Status Input 4 On to Off Alarm Alarm86Status I
228. used when creating DDE links and when displaying data from onboard data logs 6 Check the desired Properties and select a Units Code and Format Code as described in the Quantity Setup table on the next page 7 Click Update to save the new quantity s definition After you ve defined new custom quantities you will need to assign them to specific device types This procedure is described on the next page 132 1996 Square D All Rights Reserved At this field Chapter 16 Customizing the Software Custom Quantity Setup Table Do this User Defined SMS checks this box if the selected quantity is user defined custom If the selected quantity is not custom this box is not checked Writeable Check this box if you want to be able to write to the custom quantity s register to change its contents for example if you are creating a digital custom quantity that will be used to define a control output Loggable Check this box if you want to be able to log the quantity If the box is checked the quantity appears in the dialog box used to define history log templates Digital Function Check this box if you are defining a custom quantity that will be used to define digital functions If the box is checked the quantity appears in the dialog box used to define digital functions Analog Function Check this box if you are defining a custom quantity that will be used to define analog functions If the box is ch
229. utput Name Main 1 Open Close Pre detined Relay 1 d C User Defined 1 On 1 Action Open Main 1 Device No Association Condition Status Off 0 Action Device No Association Close Main 1 2 Condition Associate Status OK Cancel Help In the Control Output Name box type a descriptive name For example if the control output will be used to turn a chiller fan On and Off you might name the control output Chiller Fan 1 If you are defining a control output for a circuit monitor relay click the Pre defined option button then select the relay to control from the drop down list box For the CM 2000 relays R1 R2 and R3 are recommended for control outputs The KYZ relay can also be used but the KYZ relay has a low current rating since it is designed for pulse applications If the control output is for a SY MAX device or a circuit monitor output other than a relay click the User Defined option button then select the digital function to control from the drop down list box User defined control outputs require that you define a custom quantity that is set up as digital and writable See Chapter 16 for instructions on defining custom quantities In the On 1 Action and Off 0 Action boxes type names that describes the On and Off actions For the Chiller Fan 1 example in step 5 you might enter Fan On and Fan Off for the On 1 and Off 0 actions respectivel
230. uts Manual Control Output Example 174 The following example is for motor operated circuit breaker control using circuit moni tor relays The figure below is an example of a simplified control schematic of a motor operated circuit breaker called Feeder 1 Circuit Monitor cani S T Protective Control Circuit Circuit Control Trip Switch Monitor Monitor Switch Signals CLOSE CLOSE R1 and R2 OPEN TRIP other trip contact relay ie Be d relay contact signals Control us Povver S1 Input 1 on Circuit Monitor Breaker Close and Spring Charging Breaker Trip Circuit monitors can be used for this type of control Using the procedures in Chapter 13 Control Outputs two manual control outputs one to close the breaker one to open the breaker can be set up for separate circuit monitor relays Note This example control schematic cannot take into account considerations such as circuit monitor relay contact voltage and current ratings versus the installed system integration into complex control schemes etc 1996 Square D All Rights Reserved Setup Appendix D Control Output Examples To set up the example manual control output you should first define a digital function called Feeder 1 Status as described below then assign the function to the circuit monitor that is being used to perform control The function can then be used for association
231. vals For instructions on using the SMS configuration program Smscfg to change the Onboard Alarm Check Interval see Changing the Onboard Alarm Check Interval below To assign a task to the selected alarm condition follow these steps 1 Click the PC Action button SMS displays the PC Action dialog box SMS automatically assigns the alarm severity level 1 2 or 3 that matches the priority you selected in the Alarms Setpoints Delays box To view or change the defined alarm severity level click the Severity button PC Action x PC Action For Detection Df Status Input 4 Trans from Off to n Severity Levelt Cancel Help 2 In the Tasks box select the desired task To define a new task or to view existing task definitions click the Tasks button SMS displays the Tasks dialog box See Chapter 7 Using Tasks to Automate Processes for instructions on defining tasks 3 Click OK SMS returns to the Onboard Alarms Events tab Changing the Onboard Alarm Check Interval By default SMS checks for on board alarms every 60 seconds You can change the Onboard Alarm Check interval using the SMS 3000 Configuration program The SMS 3000 Configuration program called Smscfg is located in the SMS 3000 directory on the server machine To change the onboard alarm check interval do the following 1 Locate the Smscfg program in the SMS 3000 directory and start the program 2 Click the Intervals tab 3
232. ve Energy Into the Load kVARHr Real Energy Out of the Load kVVHr O Reactive Energy Out of the Load kVARHr Apparent Energy kVAHr Real Energy kWHr Reactive Energy kVARHr Conditional Real Energy In CkWHr_ Conditional Reactive Energy In CkVARHr_ Conditional Real Energy Out CkWHr_O Conditional Reactive Energy Out CkVARHr_O Conditional Apparent Energy CkVAHr Incremental Real Energy In KVVHr 1 ncremental Reactive Energy n KVARHr 1 ncremental Real Energy Out IkWHr_O Incremental Reactive Energy Out KVARHr O ncremental Apparent Energy KVAHr Demand Current Avg IDAvg Demand Current A IAD Demand Current B IBD Demand Current C ICD Demand Current N IND K Factor Demand A KFDA K Factor Demand B KFDB K Factor Demand C KFDC Peak Demand Current Avg PkIDAvg Peak Demand Current A PkIAD Peak Demand Current B PkIBD Peak Demand Current C PkICD Peak Demand Current N PkIND Coincident K Factor Demand Pk Prod A CoinKFDA Coincident Current Demand Pk Prod A CoinlAD Coincident K Factor Demand Pk Prod B CoinKFDB Coincident Current Demand Pk Prod B CoinIBD Coincident K Factor Demand Pk Prod C CoinKFDC Coincident Current Demand Pk Prod C CoinICD Power Factor Total Last Dmd Intl PF LDint 1996 Square D All Rights Reserved Appendix B Abbreviations for Quantities Quantity Abbreviation Demand Real Power KWD kWD Demand Reactive Power KVARD kVARD Demand Apparent Power KVAD kVAD Peak Demand Real Power KWD PkkWD PF Coinc
233. ware package is specifically designed as a Microsoft Windows multi tasking environment it can run concurrently with spreadsheet database word process ing or other Windows applications This allows the program to log data check for alarm conditions and more while you work in another application If system conditions should go outside user defined operating limits SMS notifies the operator so action can be taken The powerful networking ability of Microsoft Windows lets you perform multi tasked procedures with speed and accuracy Using NT SMS can access power information and distribute it wherever it is needed Clients are not limited to a single machine clients can reside with the server or any other PC within your LAN The Microsoft Remote Access Services makes it much easier for you to access the system from any remote location 1996 Square D All Rights Reserved 3 Bulletin 30801M9601 Variety of Display Formats SMS provides a wide variety of display formats These include instantaneous data tables function tables historical data tables barcharts analog meters time trend plots waveform plots custom tables event history alarm history active alarms interactive diagrams requires Interactive Graphics Client GFX 1000 add on module Data Logging SMS can log historical data to a computer hard disk To allow complete flexibility you define the time interval between log samples You can view l
234. y If the control output were to control a contactor the condition names might be Energize and De energize If you want to associate an input with the control output click the Associate button and follow the instructions in the next section The Associate function lets you verify the success or failure of a control output operation by associating an input with a control output For example you could associate a control output to close a circuit breaker with the operation of the circuit breaker auxiliary switch via a digital function 10 After completing any desired associations click OK The new control name appears in the Control Names list box 1996 Square All Rights Reserved Chapter 13 Control Outputs Associating an Input with a Control Output Power equipment applications often require external feedback from control circuitry to verify not only that the control command was successfully communicated to the device but also that the desired result was actually achieved Note We strongly recommend that you create associations for each POWERLINK circuit breaker control output that you define The association ensures that you will be properly notified of the success or failure of a control attempt Using SMS you can associate the response of a discrete input with a control output operation In other words you can wire contact feedback to a circuit monitor input or SY MAX digital input and monitor for change in sta
235. y the example POWERLOGIC system shown includes only three devices Refer to the illustration as you read the following points When setting up functions for alarms you first define global functions by device type In the illustration the user has defined 13 global functions 6 global functions 3 analog and 3 digital for the device type CM 2000 4 for the device type Digital Relay and 3 for the device type PIF 3 Global functions are called global because you can assign a copy to any device of the correct device type in the system For example in the illustration the user could assign a copy of the global function CM2 Analog 1 to any Series 2000 Circuit Monitor in the system If the system had three circuit monitors instead of one the user could assign the global function CM2 Analog 1 to one two or all three circuit monitors The global function offers tremendous time savings when setting up large systems Global Functions CM 2000 Digital Relay Analog CM2 Analog 1 DR Analog 1 PIF3 Analog 1 CM2 Analog 2 DR Analog 2 PIF3 Analog 2 CM2 Analog 3 To create alarms you must assign copies of global E functions to Digital Digital specific devices piF3 Analog 2 DRARalog 1 CM2 Analog 1 CM Digital 1 DR Digital 1 PIF3 Digital 1 PIF3 Digital 1 DR Digital 1 CM2 Analog 2 CM Digital 2 DR Digital 2 DR Digital
236. y log or the printer For these intervals use the Logging command on the Setup menu See Chapter 9 Data Logging for instructions 1996 Square D All Rights Reserved 31 Bulletin 30801M9601 Setting the Sampling Mode cont Manual Stops SMS from automatically sampling data to sample data you must use the Take Sample command in the Control menu or click Y on the toolbar SMS defaults to manual mode when it first goes online with a system Scheduled Update A system must be placed online before you can change the sampling mode To set a scheduled sampling mode and update interval follow these steps 1 On the Control menu click Scheduled Update or click the Scheduled Update toolbar icon The icon remains depressed indicating that the system is in a scheduled sampling mode The Sampling Mode at the top of the SMS main window changes from MANUAL the default to SCHEDULED HELE Client New Workspace D x File Edit View Setup Control Display Reports Tools Window Help S mping Mode SCHEDULED Sseconds 4 elle ei l sal poli Fel se d Scheduled Update icon Manual Update icon Select sampling mode interval here 2 Select the interval from the vvindovv Continuous SMS samples as often as possible beginning a new sample as soon as the previous one is complete 5 seconds 10 seconds 30 seconds minute The scheduled update interval is set Manual Update To set a m
237. y the circuit monitor The label typically is different for each circuit monitor it is used for system displays This is not the device name which is defined using the Routing command SMS displays the device name not the label when listing devices 2 Nameplate Enter a 1 to 16 character alohanumeric nameplate Most commonly associ ated with the monitored circuit the nameplate should reflect that connection For example if the circuit monitor is monitoring a welder on line 3 the nameplate might be Welder Line 3 SMS uses this name for system displays 3 CT This is the primary turns ratio of the current transformers CTs supplying the circuit monitor with current inputs Enter the CT Ratio in terms of X 5A For example if the CT ratio is 500 5 enter 500 5 Neutral CT This is the primary turns ratio of the neutral CT Enter the Neutral CT Ratio in terms of X 5A For example if the neutral CT ratio is 50 5 enter 50 6 PT This is the primary turns ratio of the potential transformers PTs supplying the circuit monitor with the voltage signals Enter the PT Ratio in terms of X 120V For example if the PT ratio is 288 120 enter 288 7 Automatic Scale Factors SMS uses this feature to automatically create scale factor ratios for PT CT Neutral numbers entered by users Default enabled If you disable From PT CT this feature click Advanced to enter ratios manually 8 Accumu
238. you create a logical name for the collection of devices that you will be defining Before you can use a system you must first fill it with system configuration information such as PC interface SY LINK or serial device routes and device configuration information For flexibility you may choose to have multiple systems Data from all systems is stored in the SMS 3000 database though each system will have its own device data All sys tems share the same user account setup 1996 Square D All Rights Reserved 15 Bulletin 30801M9601 Creating a New System cont Follow these steps to create a new system file 1 On the SMS main menu click File gt New gt System The New System dialog box displays New System x System Name nmm Cancel Help 2 Type a unique System Name 50 alphanumeric characters 3 Click OK The system name is added Note that this new system becomes the working system The system name is displayed at the bottom right of the screen after the word EDIT At this point you might want to add new user accounts The administrator account was added when SMS was installed but a unique account should be created for each person who will use the system For help setting up new user accounts see chapter 5 of the SMS 3000 System Administrator s Guide Setting Up The PC Interface Your computer s communications interface to POWERLOGIC devices can be either a SY LINK Network Interface Board or o
239. you select sounds that are short because the next alarm in not annunciated until the current alarm s sound has finished 1996 Square D All Rights Reserved Chapter 6 Setting Up Functions and Alarms Assigning Functions to Specific Devices After you ve defined global functions for a device type such as a circuit monitor you must assign those functions to specific devices in the system Tfor example the circuit monitor on unit substation 1 s main circuit breaker This concept is explained in greater detail in the section Understanding Global Functions at the beginning of this chapter To assign functions to a device follow these steps 1 On the Setup menu click Functions Alarms 2 Click the Function Assignment tab Function Assignment Functions Devices All Devices muz Functions Available Functions Selected 240 Analog D Analog Apparent Power gt Current A D Digital 240 Digital Current Phase Loss Alarm A a Current Phase Loss Alarm Copy Paste Setpoints gt gt Close Update Help cg esa cae 3 In the Devices box click the desired device All global functions that you have defined for the selected device type appear in the Functions Available box under the groupings Analog and Digital For example if the selected device is a Series 2000 Circuit Monitor only the analog and digital functions that you have d
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241. ys needles display within the meters only if the sample that you request is valid No needles will display if the wire configuration is not supported for example no line neutral voltages display for a 3 wire device there is a sampling error The meters update according to the sampling mode selected on the Control menu see Setting the Sampling Mode in Chapter 3 Basic System Setup and Operation For example in scheduled update mode at 10 second intervals the meters display new readings about every ten seconds Operating Range Indication SMS lets you define the normal low and high operating ranges for devices When the ranges are established the meters will display color tracking to indicate the limits of each range for that device This indication makes it easy for operators to quickly assess the status of the devices being metered 1996 Square D All Rights Reserved 41 Bulletin 30801M9601 42 Lowest C N voltage Present Reading matches the needle indication The normal operating range displays as a green bar along the meter edge The yellow bar indicates conditions that are low or high outside of the normal range The red bar indicates the lowest or highest conditions that are even farther outside of the normal range If only two setpoints high and low are established there will be no yellow bar only green and red To establish operating range indication for a device you must add an analog functio
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