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1. Enter the IP address port number and meter address device address of the Binary Protocol port on the meter you wish to contact Click OK to go back to the Connecting dialog then click Connect After a moment you should see the typical Connection Status dialog You may now perform whatever functions you d normally do over a serial connection Validate Configuration You can select this menu to make sure that there are no conflicts in the current configuration cfg file If there is a problem an error message will appear and ask if you want to view the configuration details screen see Details menu 103 JEMWare Meter Configuration Software Note JEMWare validates the configuration automatically when you perform a Write Meter command Write Meter Configuration This selection is used to send the active E ES configuration file to the meter After you click on this menu choice you must choose whether you want to send Configuration information Preset register data or both When you click OK JEMWare will begin to send the new __ Caneel configuration if selected to the meter Preset register values that have been stored on your PC pre file suffix are sent to the meter by choosing Presets or Configuration and Presets which will display the following screen Normal Registers Altemate Registers ID Quantity Phase Direction Settings Register Type Storage Type TOU Format 0 ase A Delivered
2. DST Changes meed incorporate Daylight Savings Timekeeping DST Changes Time adjustments that may be E TERE EE ta required depending upon the 1998 45 60 10 31 60 0 00 po PEPSI ne gt l 1999 4 4 10 30 60 0 00 60 meter s location The 2000 4 2 60 1028 0 000 i 2001 AO 1027 60 Q00 standard United States DST E A A ae table is saved as the factory 2003 6 60 10 31 BO a l 2004 A4 RED 1030 60 O00 default see example at right 2005 4 3 60 10 29 60 0 00 but this can be edited or 006 42 60 10427 B0 0 00 L 2007 4A 60 1026 60 Q00 deleted at any time The DST a EE Ea Load Table E table is saved in the JEMWare 200 A4 60 10 23 60 0 00 Save Table di 2011 43 60 1028 60 Q00 program directory on your a2 44 60 1027 60 0 00 a 203 AVP 10280 o computer as a completely 244 60 1031 E0 oo e a independent file This allows you to make a custom table based on your particular time zone save it and easily load it into multiple meters just as you would a configuration cfg file DST file US dst Cancel Help IMPORTANT When you open a configuration file cfg it will look for its associated Daylight Savings Time dst file The dst file must be located in the same directory as the cfg to find it If the cfg doesn t find its associated dst file JEMWare will post an error during download and prompt you to enter or Browse to the location of the file Using the DST Settings You can add a new year
3. Phase The timing relationship between two signals of the same frequency expressed as an angle E g the delay between voltage and current waveforms in an AC circuit or between voltage waveforms in different circuits One of usually three circuits in a polyphase power distribution system Each phase may be treated as an individual power source that is synchronized to the other phases in the system Polyphase The sum average or combination as appropriate of measurements from all phases input to a meter Power Factor PF The ratio of the real power watts to the apparent power volt amperes PF is equal to the cosine of the phase angle between voltage and current Present TOU Period The one Time Of Use period that the meter determines to be active at the present time This 1s determined by the present date and time of the meter and the TOU schedule Preset Register Value A numerical value other than zero or the standard default value that can be saved on a PC for future use Presets are typically used as a method of saving specific register settings from a removed meter for installation in a replacement meter The preset file is saved using a PRE suffix Pulse A state change in either direction of a binary metering signal Register Used to refer to specific quantities to be displayed or retrieved GLOSSARY 5 Glossary Register Assembly The term used to refer to the hardware implementation of the display or contro
4. VAR Received phase A Pri x VAR 1089 E milli VAR Received phase B Pri x VAR 1091 E milli 2 2 VAR Received phase C Pri xVAR 1093 milli VAR Received polyphase Pri x VAR ee milli Long Long T Tr 1097 Reactive Q Power UOM to Kilo Conversion Factor 1098 VA Received phase A Pri xVA milli 1100 VA Received phase B Pri xVA milli 1102 VA Received phase C Pri xVA milli 1104 VA Received polyphase Pri xVA milli 1106 Real Apparent Power UOM to Kilo conversion factor B 19 APPENDIX B MODBUS Communications 1107 Watts bi directional phase A Primary tone gt xW milli 1109 Watts bi directional phase B Primary Lone gt xW milli 1115 Real Apparent Power UOM to Kilo conversion factor 1116 WARs bi directional phase A PrixVAR milli Es L 1118 VARs bi directional phase B Pri Loe 1111 Watts bi directional phase C Primary Lone gt xW milli 1113 Watts polyphase bi directional Primary Rone gt xW milli 1120 VARs bi directional phase C Pri a 2 2 2 2 Int ong ong 1124 Reactive Q Power UOM to Kilo Conversion Factor Average Power Factors aS ce 1200 F Delivered phase A pf milli 1201 F Delivered phase B pf milli 1203 F Delivered polyphase pf milli 3 3 nt 1204 F Received polyphase pf milli Costo O P mi P i mi P mi P mi 1205 Wh Delivered pri xWh milli me 10 1208 Wh Received pee When ee 10 I 1211 Real7Apparent Energy UOM to Kilo conversion factor power often Int
5. supported in this procedure Set Date and or Set Time and Date 18 Login Establish a user session 19 hogOw Endausersession o 3 Pending Status Indicates pending status of tables in the meter ED_ MODE Present operating mode present error warning status Status 3 7 10 18 19 C 4 Appendix C ANSI Tables Communication Decade 1 Decade 1 Data Source Tables Table Title Description Read No Write Dimension Sources Maximum dimensions and end device capabilities Limiting Actual Sources Actual parameters configured in device Limiting Unit of Measure Units of Measure calculation methods VA etc ES Demand Control Demand interval subinterval and related info Data Control Data source selections R Constants R 18 19 Source Definition Available data sources selectable by other tables such as Table 14 ie undefined MS undefined Decade 2 Decade 2 Register Tables Table Title Description Read No Write Dimension Maximum dimensions of measured data registers Register Limiting Actual Register Actual function values for registers Data Selection Grouped lists of source indices into Table 16 Current Register Current Register Data Data Register Data as of most recent Season Change LN Data undefined NS Self Read Data Register Data as of most recent Self Read event Present Register Lists of source indices into Table 16 Selection Present de
6. 06 no range or all 17 28 index 07 O8 limited qty see note 2 17 28 index Appendix A DNP Serial Communications REQUEST RESPONSE Ore Library will parse Library will respond with Object Variation pesciipiion Function Qualifier Codes Function Qualifier Codes Number Number p Codes hex Codes dec hex od Ss Frozen Counter Event Variation 0 is O6 no range or all a ae used to request ain variation 07 O8 limited qty 32 Bit Frozen Counter Event with Time CT ANAND PA ICSC NA A SS 07 O8 limited qty Analog Input Variation O is used to read 00 01 start stop request default variation O6 no range or all 07 O8 limited qty 17 28 index 32 Bit Analog Input without Flag ea 00 01 start stop 129 response 00 01 start stop 06 no range or all 17 28 index 07 08 limited qty see note 2 17 28 index short floating point read OIM 00 01 start stop O6 no range or all 17 28 index 07 O8 limited qty see note 2 17 28 index Time and Date 1 read 00 01 start stop 00 01 start stop 06 no range or all 17 28 index 07 O8 limited qty see note 2 17 28 index Time and Date 00 01 start stop 11129 response JF OO 01 start stop 06 no range or all 17 28 index 07 limited gty 1 see note 2 08 limited qty 17 28 index Time Delay Fine O a limited aty qty 1 Class 0 1 2 and 3 Data read a 06 no range or all AA Aa O A Class 1
7. JEMVVARE Configuration Software for the JEMStar amp C120 Meter User Manual Publication 1083 602 Rev N June 2007 AMETEK Power Instruments Tel 585 263 7700 255 N Union Street Fax 585 262 4771 Rochester New York 14605 Web www ametek com 2004 AMETEK Inc all rights reserved Scientific Columbus is a trademark of AMETEK Inc JEM is a registered trademark of AMETEK Inc MicroJoule II is a registered trademark of AMETEK Inc SC 30 is a registered trademark of AMETEK Inc JEMStar JEMWare JEMRead are trademarks of AMETEK Inc MV 90 is a trademark of Utility Translation Systems Inc Windows is a trademark of Microsoft Corp TOC Table Of Contents InNTrOUU CHIN crasas 1 EMG aS VStei Requirements casi l Software Installation Windows 95 98 NT 4 0 c 00occcocccnccnniccnnocnnoccnncconoconaronunccnnccnnocononos 1 Unimstallins JEMW Iele EAEE 2 Chaneme Meter COmmletiratiOns nani A aT 3 SECURE Sinai daa dica i 4 Mati Men OS IS W si sexnuaeasacnie item sawn yes anid dae aueai vet dua adeeate awed tenderrmnasemees 5 Usmo A a a E 7 E cot O c LE E CR O 7 User Pive G renta taba a a cias 8 ISOC ate a Files os jcc acskan at Se oe peer ananassae os 10 TRE Com traci n Wiz 11 UEM sess dvesaceccussusssesancaabonsiussosenseoaaederss 13 File Men ssanie ta 13 Compare Conf SUratiONS essa diia 13 SON A Loo ell APART a a eRT RTer ReOr 14 VIEW CONSUMO roces 15 Merer To 4 10 S PRE A OE po a era rene ree eA re
8. These features are re initialized ONLY if the particular configuration sections are different Re initialization means that the data in that particular register is set to zero Display Registers The Display Registers feature includes the following parts of the JEMStar e Registers in the Normal Alternate and Test display list e Self Read registers e Register Thresholds e Site Monitor alarms e Totalization registers The following configuration sections if modified will cause the Display Registers feature to be reinitialized erasing all previous data e Normal display list e Alternate display list e Test display list e Demand settings e Self Read settings e Primary Scaling settings e Register Threshold settings e Demand Load Profile Interval Timing settings e Totalization channel setup e Timekeeping and DST Changes Load Profile The Load Profile features which does not include individual Event Logs will be erased and reinitialized if these configuration sections are modified e Demand Load Profile Interval Timing settings e Load Profile channel assignments e Primary Scaling settings e Totalization channels Energy Pulses The Energy Pulse feature will be re initialized if these configuration sections are changed e Energy pulse channel assignments 117 Appendix A DNP Serial Communications APPENDIX A DNP SERIAL COMMUNICATIONS INTRODUCTION Distributed Network Protocol DNP 3 0 1s an industry stan
9. 4 4 4 4 4 4 4 4 4 C 6 Appendix C ANSI Tables Communication Decade 5 Decade 5 Time and TOU Tables Table Title Description Read Write Dimension Maximum capabilities for Date amp Time and TOU control Limiting Time and Time of Use Actual Time and Actual capabilities for Time amp Date and TOU control TOU Limiting Real time clock Time Offset Time zone offset and DST information 50 a ra ram R Predictive time quantities 57 undefined s8 dee so omeno Po 5 1 52 53 54 q S6 Decade 6 Decade 6 Load Profile Tables Table Title Description Read No Write Dimension Maximum capabilities of Load Profile Limiting Load Profile 61 Actual Load Actual Load Profile capabilities Profile Limiting 62 Load Profile Data sources and formats used In Load Profile Control 63 Load Profile Status of each Load Profile data set R Status 64 Load Profile Load Profile data information set 1 Data Set 1 65 Load Profile Load Profile data information set 2 Data Set 2 Load Profile Load Profile data information set 3 Data Set 3 67 Load Profile Load Profile data information set 4 Data Set 4 68 undefineay o 69 onien C 7 Appendix C ANSI Tables Communication Decade 7 Decade 7 History and Event Logs Table Title Description No Limiting Log Maximum size and capabilities of History and Event Logs Dimensions 71 Actual Log Actual si
10. Click Details and the to configure the Binary Details Binary Details Pop Up Screen Binary Details for Serial Port Network Address fi 0 B5534 Password Time Out 5 1 60 min Ts Start Delay 400 0 5000 ms Tx End Delay 180 0 5000ms Turnaround Delay EMS 0 5000 me caca eb Binary Details Pop Up Screen Network Address Assign a unique number for each meter 1f you are connecting meters in a network Use address numbers 0 254 for connecting JEM Ware to a meter or the optional Modbus or ANSI Tables protocols Any address O 65534 may be used with DNP 3 0 protocol Password Timeout Once communication commands have ceased the timeout cycle begins Assign an amount of time that the meter waits before the active session times out Once a timeout takes place you must re enter the meter password before communications can continue TX Start Delay TX End Delay Turnaround Delay Communication delays may be necessary to allow proper timing of the transmitted data In half duplex mode the delay intervals are inserted to make sure that data going one direction does not interfere with data going the other direction TX Start Delay TX End Delay Turnaround Delay Diagram If you are using e Radio modem applications that use the RS 232 Request To Send RTS handshaking signal e RS485 communications set meter port delays on this tab e If Ci20 is not used in such applications simply set the TX Start TX End and Turnaround d
11. Del dal Phase B Rec Phase C Del Phase C Rec Instantaneous Uncompensated VA x1000 Poly Del Instantaneous Uncompensated VA x1000 Poly Rec Phase A Del ld ee Phase A Rec Phase B Del Phase B Rec e me Phase C Del reset ne ere Phase C Rec Instantaneous Uncompensated PF x1000 Poly Del Instantaneous Uncompensated PF x1000 Poly Rec Watts Phase A Bidirectional Watts Phase B Bidirectional Watts Phase C Bidirectional Ml Watts Polyphase Bidirectional VARs Phase A Bidirectional Tean S VARs Phase B Bidirectional kg VARs Phase C Bidirectional VARs Polyphase Bidirectional A 12 Appendix A DNP Serial Communications 16 Bit Inputs These inputs are represented in SECONDARY units and scaled so that the meter s full scale value is represented by 32767 The list is the same as that configured for the 32 bit Analog Input points but the user entered scale values are not used Example At 60 Hz the raw value represented for frequency may be 19640 Dividing by 32767 and then multiplying by the full scale engineering units value see the following table gives the following reading 19640 x 100 0 59 94 Hz 32767 To obtain primary units multiply by the appropriate PT and or CT ratios A meter s default configuration is to have these Binary Input Points assigned Point Analog Input Engineering Units Index Name Description Range 0 instantaneous Watts Phase A Dei 0 1
12. Recelved Fite 1036 3031 lron Loss Received Kwfe 1066 3546 Copper Loss Recelved Kwcu 1351353 Copper Loss Recelved Ewcu 1386 0155 Cancel Help The Constants page displays calculated values that are used only for factory reference purposes No changes may be made on this page 92 JEMWare Meter Configuration Software TYPICAL TRANSFORMER DATA SHEET Thomas Edison Power Transformer Company Purchaser Generic Electric amp Gas Co Date of Test_04 20 99 _ Purchaser s Order No P1230127 G O NA30722 S O SLM5409 Type_OA FA FA Core Phase Three Hertz 60 Insulating Fluid Oil L Spec SEM5409 08 _ Polarity See I P Winding H V Winding L V Winding _ KVA 27000 36000 45000 KVA 27000 36000 45000 KVA Voltage _ 230000 Voltage 13800 Y 7967 Voltage 1 For polarity additional tap voltages and connections see Instruction Plates SLM5409 10 and SLM5409 11 RESISTANCES EXCITING CURRENT LOSSES AND IMPEDANCE Based on normal rating unless otherwise stated Losses and regulation are based on wattmeter measurements For three phase transformers the resistances are the sum of the three phases in series RESISTANCE IN UHMS EXCITE NOLOAD kV kV AT 85 C CURRENT kV TO kV AT 100 kVA kVA kVA RATED Load Loss IMP Load Loss IMP Load Loss IMP Watts 85 C 85 C Watts 85 C 85 C Watts 85 C 85 C gt call A ee et 1 EE EN A A TOTAL IMP TOTAL IMP TOTAL IMP ae LOSS 85 C LOSS 85 C LOSS 85 C
13. To use this feature you cia E na must have the Pulse Input option in Quantity JExtemal Pulse Cancel your meter and configure one of al po 7000 unis chaser a disc in Primary Chg EE the two input channels for Interval Sync Records i Always During TOU Override Only Freeze Markers Check this box if you want the event list to include data showing when Freezes are generated Note phase A Ja JC EN Erro that this will use some of the Load Profile storage memory thus decreasing the total number of LP days available rectam Delivered Cc al C a3 f Received FUE E 28 JEMWare Meter Configuration Software Edit a Load Profile Note JEMWare will always allow up to 12 Load Profile channels to be configured However if you are downloading the configuration to a meter with only four active channels only the first four will be used To edit an existing profile highlight the channel number and click the Edit button The following attributes can be specified for each individual channel Quantity From the pull down list choose the electrical quantity that will be profiled for this channel Watt Hour VAR Hour VoltAmp Hours Amp Hours Watts VARs VoltAmps Volts Amps Power Factor Hertz Volts THD Amps THD Pulses Status A V7 A Hour V Hour Q Q hours Totalization 1 12 Km Value Enter a Km constant that represents the desired Load Profile pulse weight This value shoul
14. s health status at the listed E occurrence iy P e Two meter Firmware Version FW Ver Blank choices Metrology or Register FW a e A Blank display that can be used for data a security if you do not want any Vblb Vector information viewable on the meter YEE Vecto e Segment Check to verify that the entire meter display is working This will turn on all the LCD segments resulting in a black screen with no spaces e Five Vector functions that display voltage and current quantities as a vector diagram on the meter e Reset Count register that displays the number of times the meter has performed a Billing Period Reset since the last register reconfiguration The Time Register category includes the Tj f ID range 0 99 24 Ea following functions e Five Time functions that display the Register Category Time El meter s time of day at the listed Register Type Present Time occurrence Present Time ii Pe Last BFR Time e Five Date functions that display the F Last Freeze Time meter s date at the listed occurrence a e e Demand Time Remaining that displays the a e de dz dle time in seconds remaining before the las hee ste next demand sub interval closure o e Days on Battery which displays the gt Drd Time Remaining number of days that the meter has operated under the internal battery The internal battery is used to retain memory and clock functions whenever the meter is not powered
15. see Maintenance section for further information This register will continue to accumulate until the battery is replaced A status indicator will appear after 730 days 2 years are accumulated The Totalization register category allows the user to select one of the twelve Totalization channels for display See the section for Totalization for details on configuring Totalization channels Edit an Existing Display Register Highlight the register in the list that you want to change and then click the Edit button The Edit function for an existing register is identical to adding a new register see above Go to the area to be changed and select the correct new setting Click OK after all the changes have been made 26 JEMWare Meter Configuration Software Delete a Display Register Highlight the register in the list that you want to remove and then click the Delete button You will be asked 1f you are sure you want to remove the selected register If you click Yes the highlighted register will be removed from the configuration 27 JEMWare Meter Configuration Software Load Profile The Load Profile screen contains parameters that set up the Load Profile storage areas in the meter This configuration 1s only necessary 1f you are using the Load Profile features of the meter A meter can be equipped with 4 Load Profile channels standard or 12 channels optional The following parameters are common to all channels Numbe
16. showing the configured Unit of Measure for Volts Squared measurements 0 units volts squared 3 kilo units 6 mega units Amp Primary Squared Unit of Measure MODBUS register 1719 A power of ten showing the configured Unit of Measure for Amp Squared measurements 0 units amps squared 3 kilo units 6 mega units Connection Type MODBUS register 1720 The meter service connection type A 3 wire Delta connection returns 30 while a 4 wire Wye returns 40 Demand Method MODBUS register 1721 A bit field indicating the demand methods configured in the meter MSB gt 00000000000000ES lt LSB Where E is the External Demand Interval Sync Enabled bit 1 external demand sync 0 internal sync S is the Sliding Window Demand indicator 1 sliding window 0 fixed window Demand Interval MODBUS register 1722 The meter s demand interval length in minutes Demand Subinterval MODBUS register 1723 The meter s demand subinterval length in minutes Number of Normal Display Registers MODBUS register 1724 The number of display registers max 50 currently configured in the Normal display list Number of Alternate Display Registers MODBUS register 1725 The number of display registers max 50 currently configured in the Alternate display list Number of Internal Display Registers MODBUS register 1726 The number of display registers max 50 currently configured in the Internal display list Number of Load Profile C
17. to more efficiently process and organize data from metering devices JEMWare does not have the capability to download Load Profile data from the meter the sole purpose of the JEMWare program is to configure or change the meter s configuration parameters For meter data downloading refer to the JEMRead application and instruction manual MINIMUM SYSTEM REQUIREMENTS To operate JEMWare successfully you must have a Personal Computer with the following features Pentium 90 processor or equivalent using Windows 95 98 NT 4 0 or better CD ROM drive 16 MB RAM 10 MB Hard disk space for the application 5 MB Hard disk space for storing meter configuration files RS 232C Serial Communications Port Modem using a Hayes command set if sending data over telephone lines If you intend to connect to a network of meters you must have an RS 232 serial data cable and RS 232 to RS 485 converter or use an Ethernet connection over TCP IP These items are available from Scientific Columbus or your local electronics supplier SOFTWARE INSTALLATION WINDOWS 95 98 NT 4 0 Installation is easy using the InstallShield Wizard to guide you through the steps e The program will have a Name Serial Number combination that must be entered once at program installation The program will not operate unless a valid combination is entered If this is a Demo installation the Name Serial Number is not required e Both individual and multiple site licensing are su
18. up to 2036 to the table at any time Use the Edit button to make changes to an existing year Load Table is used to assign an existing dst file to the current configuration When you click the button it will prompt you to browse your JEMWare directory and select a dst file Save Table will save a new or modified dst table You must assign a name to the new table just as you would save any Windows file Click the Enable Automatic Daylight Savings Time Adjustments check box to activate the settings you have just created Make sure this box is unchecked if you are not using DST 34 JEMWare Meter Configuration Software Alarms This selection configures the various alarm conditions that can be used to activate the display annunciator the digital pulse outputs and the phone home modem The basic default settings are all Alarms turned off you must turn on each one that you want active A Site Monitor Alarm 1s used to indicate power line anomalies associated with the voltage or current of each power line phase You can select any or all phase s and specify one or more conditions on each phase to trigger an alarm Note that there 1s only one Site Monitor alarm output If you set multiple conditions any one of the conditions will activate the alarm Note JEMWare allows you to query the meter to determine the condition that caused the alarm A Threshold Alarm provides an indication when a user selected storage register exceeds p
19. xVARh milli Xo xVARh milli x 3 1218 Reactive Q Energy UOM to Kilo Conversion Factor 1 1219 VAh Delivered piv Ahanilli ee pao ee Recewed pri xVAh milli a 1225 Real Apparent Energy UOM to Kilo conversion factor pae Sa Deuvergd pri xQh milli E 1229 Rb Received pri xQh milli a 1232 Reactive Q Energy UOM to Kilo Conversion Factor Amphours pri Ah milli Mod 10 1236 Amp hours pri kAh milli Mod 10 UOM x 3 1239 Amps Amp UOM to Kilo conversion factor power of ten Int 1 O Volt hours pri kAh milli Mod 10 l l 3 3 l 1122 VAR polyphase bi directional Pri ae 1243 Volts UOM to Kilo conversion factor power often Int CO pom y A B NO 0 APPENDIX B MODBUS Communications 1244 Demand W Delivered Primary fons gt xW milli 1246 Peak Demand W Delivered gt xW mi mi W milli 1248 Prev Billing Period Peak Demand W Delivered Primary Long xW milli ill Demand VAR Delivered Primary Peak Demand VAR Delivered Primary 1255 Prev Billing Period Peak Demand VAR Delivered Primary teens gt XVAR milli 1 1257 Reactive Q Power UOM to Kilo Conversion Factor 1 1250 Real Apparent Power UOM to Kilo conversion factor Demand VA Delivered Primary Peak Demand VA Delivered Primary 1262 Prev Billing Period Peak Demand VA Delivered Primary Low xVA m Int 1264 Real Apparent Power UOM to Kilo conversion factor power often Int 1 Demand Prediction lA Predicte
20. 000 A Ratio Phase degrees to 0 000 A Ratio Phase degrees to 0 000 A Ratio Phase degrees to 0 000 A Ratio Phase degrees to 0 000 s Ratio Phase degrees Don wom A Ratio Phase degrees and above Ratio 5 Phase degrees O oy 2 2 2 alo a E Z OU OU OU OU E Z O o E Z O OU OU OU OU E o O oO E o O 00 00 00 00 a ma a 00 00 OO 00 E Z E o o OU OU O OU E o O E o O 00 00 00 OO FPA a a a a cry o O a T a ooo 000 oe TN TOE m oo 1 010 oy 2 alo D Display Registers This menu choice allows the user to determine which electrical quantities are to be stored in the meter s memory registers The information in the Display Registers can be viewed on the meter s LCD panel and also can be read via serial communications In the JEMStar there are 50 Normal registers 50 Alternate registers and 50 Test registers available The C120 meter has a total of 50 registers available distributed between Normal and Alternate and 50 Test Registers Normal and Alternate registers can be used interchangeably to store any parameters Itis your choice whether to assign a quantity to a Normal or Alternate register and it is simply a preference to sor
21. 1 60 The subinterval length must be set less than the interval length and must be an integral divider of it Note If the Subinterval Length is set to equal the Interval Length the meter will record standard Block Intervals consisting of the time period you have set Demand Deferral Period After a power outage occurs the initial demand upon restoration of power can be a tremendous surge Demand recording can be delayed for a user specified amount of time so that this large surge is not factored into the regular measurements Assign a time period 0 to 60 seconds that the length of the power outage must exceed to initiate the delay and then select the number of subintervals that will be ignored 0 to 60 after the delay is triggered External Demand Synchronization You can use the Pulse Input option to trigger the start of a Demand Interval Refer to the Pulse Input Output menu section for instructions on assigning operating parameters to the I O ports This feature is enabled when the check box is selected 43 JEMWare Meter Configuration Software Thermal Demand Time Characteristic Thermal Demand is a measurement filtered through a time delay such that step changes in the measurement are reflected slowly in the output This is commonly used to simulate the effects of current heating on power distribution equipment The Thermal Time Characteristic 1s the time required for a Thermal Demand Register to reflect 90 of a step
22. 100 199 200 299 Register Category Select from the four register categories SENSE El Register Stores all types of quantitative data ae PE Time Stores time date information and associates timeof Status other event occurrences such as BPR freezes etc Do Status Stores meter health status firmware versions Totalization segment check BPR count and diagnostics vector display ID Stores descriptive user text information Totalization Display the contents of one of the totalization channels Note Your selection of Register Category determines which choices are available in the following fields The Register selection is used for the following examples Your choices may be different if you choose Time Status or ID 22 JEMWare Meter Configuration Software Register Type Consumption Choose the type of register from the 10 selections shown Average PP Peak Demand E E Ti f Peak O d Note Your selection of Register Type determines which Poincident D mand j choices are available below The Peak Demand selection 1s Lts Ji erma used for the following examples Your choices may be Peak Thermal different 1f you select a different Register Type Time of Peak Thermal Predicted Demand Base Quantity Select an electrical quantity from the pull down list Your options may vary depending on your previous choices Phase Choose from the available choices In this case choose Phase A
23. 69 480 to link your PC to the meter If successful you will m see be notified of a proper connection and the meter type that is connected The connect status screen will also reveal all options enabled in the meter Note when equipped with the Ethernet Serial option it will always indicate RS 232 regardless of how the hardware is configured Refer to the hardware manual for details to identify whether the Ethernet Option board is jumpered for RS 232 or RS 485 116 JEMWare Meter Configuration Software Step 3 Configure the Meter Once you are connected to the meter you have several options 1 You can read the existing configuration in the meter make changes as necessary in JEMWare and then write the new configuration back to the meter Ze You can write a previously saved JEMWare configuration to the meter 3 You can also make minor changes to the meter s configuration such as setting the time or perform a Health Check etc without going through the main setup process Be sure to save all new configurations in JEM Ware for future reference CHANGING METER CONFIGURATIONS Certain features of the meter are forced to be re initialized when portions of the meter s configuration are changed This section summarizes the changes that will force a re initialization Note that when a new configuration is loaded into a meter the meter determines individually if each section has changed from the currently stored configuration
24. A 00 00 4 00 00 4 OOO0 A 00 00 4 O000 4 0000 00 00 4 Monday s settings Sat OOO0 4 00 00 4 O000 4 D0 00 4 O000 4 00 00 4 DOB 4 00 00 4 Holl 00 00 4 0000 A 0000 4 D0 00 4 O000 4 00 00 4 2 00 4 00 00 4 then simply copy Hol 0000 A 00 00 A 0000 4 D0 00 4 O000 4 0C00 A Y 0000 4 00 00 4 these to other days Edit Copy Monday s Settings Cancel Help 31 JEMWare Meter Configuration Software To set a Rate Change configuration go to the proper season tab highlight a line in the above rate list and then click the Edit button The following screen will appear Time Rate and foooo fa HH cs shoo JA Eth fomo a F ah om0 Jfa F Bth o0 Aja F You can enter up to eight rate change times for the chosen day then map a rate A H for each time Time is always entered in 24 hour format Click OK when this day is complete and continue in the same manner for the rest of your daily TOU settings Holiday Schedule This schedule can list up to 400 holidays Each holiday definition consists of a date when it occurs and a corresponding designation for Holiday 1 or Holiday 2 A description is optional and is only used for reference when viewing JEMWare the description is not stored in the meter Holidays can be added as definite dates 1 e 4 of J uly or as relative dates i e first Sunday of May over a range of years Time of Use Configurations Summer Rates Autumn Rates Wi
25. Configuration Software In addition to the graphics the Diagnostics menu also displays the following text information e Phase Volts for 3 phases Magnitude and Angle 0 359 deg e Phase Amps for 3 phases Magnitude and Angle 0 359 deg e Total Watts e Total VA 9 Neutral Current The meter being diagnosed can be connected through any of the conventional means direct cable connection optical port or modem The diagnostic display information can be captured into a special file as a record of installation condition and may be viewed or printed at any later time Y ou can save the diagnostic view by hitting the save button and storing off as a jpg to use in the future Interpreting the Diagnostics Display You can use the Diagnostic Display to troubleshoot installation problems such as wrong phase connections or missing phases The visual display provides an instant identification of the problem To close the Diagnostic display click the Diagnostics icon ES in the toolbar and you will return to the Main Menu 111 JEMWare Meter Configuration Software PC SETTINGS PC Communications Setup This screen is used for setting up parameters that are PL Settings specific to the Personal Computer it does not affect PL Communcations Setup any meter settings Once this has been set up the PE Clock program will remember your COM port settings for future use COM Porti COM Port 2 COM Port 3 COM Port 4 Baud Ra
26. Data read O6 no range or all 07 O8 limited qty Class 2 Data read O6 no range or all 07 O8 limited qty Class 3 Data read O6 no range or all 07 O8 limited qty eee Sime O index must 7 PR Object function code only See Note 3_ 13 coldrestar ____ _________ em restart O O o d E Object function code only 23 delay meas __ ____ Note 1 For static non change event objects qualifiers 17 or 28 are only responded when a request 1s sent with qualifiers 17 or 28 respectively Otherwise static object requests sent with qualifiers 00 01 06 07 or 08 will be responded with qualifiers 00 or 01 For change event objects qualifiers 17 or 28 are always responded Note 2 A cold restart 1s implemented as a warm restart the meter 1s not restarted but the DNP process 1s restarted A 5 Appendix A DNP Serial Communications implementation of DNP 3 0 in the meter Point List The tables in the following sections identify all the individual data points provided by the Binary Input Points The Binary input points represent such things as Contact input status Threshold alarm conditions Site monitor alarm conditions Phase potential status A meter may be configured with up to 40 Binary Input Points in DNP You may assign any of the following Binary Inputs to any Binary Input Point Contact Input 1 status Contact Input 2 status Voltages out of sequence alarm Neutral over current alarm
27. EEE ENAA EEE E EEE E T STE 109 DINOS A a a a aaa a a A 110 PC Setini Sena N T N 113 PC Communications eN ANE ON 113 PEOTOCK iaa A 114 Connecting toa Meter aereos eab vetcesssesdeasee 115 Appendix A DNP Serial Communication csssccscccccssssssssssccccccccccsssssscsccsooses 1 sI DNP 00 Device Prole ereinen nd The Meter Implementar tods 4 IMPLEMENTATION TABLE 0d 4 Binary Input Pots io 6 OMIM CES A oia 8 PANAMA LOS setts ree do sd ne ihe Neon 10 ENCISO alas oes edgewear ae ease 16 Lime ma Date iio 16 Cont AUTO tados idea 16 Appendix B MODBUS Communiication ccsssscccccccssscsssssssccccccccsssssssccsccscooes 1 MITEOCUC Onen E laa aheae da sae A A E E A 1 COnmUne MONS aa a emda e Na e 1 se al Port Comections iisa a Si di 1 Data Transfers using MODBUS RTU or ASCID occcccnnnnnnocnccnnnnnncnononoccccnnnnnnnonaninnnnnss 2 LRC Calculation ASCH Mode ti A ie 3 CRE Calculation RI U TOGE kensa iehas 3 RTOU Nessade Franiin rasta inicia 4 ASCH Message Era a 4 COMMUNIC AMON EOS cis 5 EX CCOUION RESPONSE St iia 5 UTM OUI Se AA 6 Register Presets aus aan 6 MODBUS Resiste MaD tsenoir a ae 7 Appendix C ANSI Tables Communication sssccccccssssssssssssscccccccccccsssscsccccsees 1 o A E o oaetaaieeweaa ies Table Ors inizio ia l Communication Methods 0 AS A A anthem tote 2 ANSI Type 2 Optical Port Protoc ol C1 Sii a 2 ANSI Telephone Modem protocoMCI2 2 2 ANSUENEetwork Procol G2
28. ENE AAA A R as pl Pe ie AVERAGE E IO ooh GUARANTEE 1 390 lL 9 910 TEMPERATURE RISE Average rise in degrees C corrected to instant of shutdown of transformer Serial No SLM54091__ Duplicate unit built on same S O ______ with windings connected and loaded as follows H V Winding 218 500 kV 71 3 pon L V Winding 12 506 kV 1246 2 Amp Winding kV Amp until constant temperature rise was reached RISE OF WINDINGS BY RESISTANCE AMBIENT TEMP TEMP WINDING HOT SPOT RISE LOAD aa IDLER CONSTANT GUARANTEE FLUID RISE WATER OR ROOM ea pp AA AAA DURATION TEST VOLTAGE INSULATION TESTS WINDING VOLT RATING OF TEST IN APPLIED IN kV SECONDS APPLIED POTENTIAL TESTS 230000 Voltage applied between each winding and all other L V 13800 windings connected to core and ground Wiring Fans 1 5 REMARKS This transformer was subjected to and successfully withstood the impulse and switching surge tests applied in accordance with the latest ANSI test codes Copies of the oscillograms are on permanent file at the Manufacturer s Plant I hereby certify that this is a true report based on factory tests made in accordance with the latest Transformer Test Code of the ANSI Specifications Signed John Smith Date 05 08 99 Approved L Jones 93 JEMWare Meter Configuration Software A Check the Enable Loss Compensation Delivered or Received box to turn on the Loss Compensation function B Refer to the Summary pag
29. Eons Configuration and Presets W Hr elivere o 0000 Consumption Working 1 Amps 0 0000 Coincident D Working E HHH 5 PF PhaseA Delivered 0 0000 Average PF Working Total HHHHH H 50 Date of Next 80 Blank 81 Segment Ch 95 String 1 96 String 2 97 String 3 98 String 4 99 String 5 Edit Setting Cancel Help ero File Display Register Data Status The register settings Normal or Alternate can be taken from previously read data or they can be edited on this screen When you send preset registers JEMWare will compare the ID numbers and register types you are trying to send with the meter s existing Display Registers If there are discrepancies they will be reported as an error message Editing Presets To preset a register value highlight a specific line in the list then click the Edit E Poo a Quanti fw Hr Setting button or simply double click on ay PEE Edit Register Setting X the line The Edit Register Setting Direction Delivered egister Type onsumption window will appear showing the ion g g Storage Type Working properties of the selected register The TOU setting fi23458 CSCS only editable field is the Setting Enter the Fama ieit new value in the red Settings field and click OK Cancel Help 104 JEMWare Meter Configuration Software Read Meter Configuration This selection will read the meter s existing conf
30. High i PF High on cy Power Revered 7 Power Reversed 7 Power Revered 7 Over Current or Over Current or Over Current os Under Current O Under Current A Under Current re Neutral Yes Ho Yes Ho Yez No Current Swell O Voltages out of Current Imbalance C Over Current os Sequence amp ao Help e The Present System page is the status of the meter at the time of the last Freeze Note that you must perform a Freeze to update the current status e The Latched System page shows all indicators that have been on alarm since the last meter Reset regardless of whether they are still in the alarm condition or not The site monitor status field at the top of each page displays a hexadecimal number that represents the condition Yes No of all the monitored status bits Refer to the JEMStar Command Set manual 1083 603 or C120 Command Set manual 1086 684 for a definition of this number Status Query Select this menu choice to interrogate the Connected Ok gt connected meter and report the meter S Register Firmware Version 65 02 05 firmware version and basic operating type Metrology Firmware Version 01 00 00 109 JEMWare Meter Configuration Software Diagnostics The Diagnostics feature graphically displays power flow in the connected meter and shows real time operating details This can be important to the meter installer or service technician who wants to diagnose a meter malfunction or improper met
31. Total File File has not been saved Status Read Registers Command Completed successfully To change a register value highlight a specific line in the list then click the Edit Setting button Enter the new value in the red Settings field and click OK Click the Save File button to save the data as a pre preset file for later use Set Meter Time gt gt gt Meter Time and Date 11 42 51 Monday 08 07 2000 is this command IOREL the clock inside the PC Time and Date 11 43 05 Monday 08 07 200i meter You can either set the time to eee OCT oe automatically match the PC clock or manually set it to any specific time that you enter via the keyboard Click Set Time to actually change the meter s time date Automatic Set Meter to PC time minus difference Time difference between meter and PC hours a Set Time Manual Set Meter to specified time and date 11 42 40 Monday 0507 2000 Set Time Cancel Help 106 JEMWare Meter Configuration Software Get Meter Time This menu item will read the clock time from the meter and display 1t on the PC It will not change the time nor can it be edited from this screen To change the time go to the Set Meter Time menu Meters Time and Date Meter s date is Monday 06 07 2000 Meter s time ts 13 09 28 Activate Cellular Modem This will turn on the cellular modem Get Cellular Modem Info This will retrieve informati
32. can be obtained The Meter password can be configured or changed from the Change Meter Password menu item as follows but only if you are using the Master Password level Change Meter Password This screen is used to actually program the meter s password You must first establish a p i Pleaze write down this new password and don t forget it connection to the meter before you can enter because ance it is programmed into the meter it can t be the password see the Connect menu The password must be a 6 digit alphanumeric string Password to change Master Password retrieved Using the pull down edit field select either the NewPassnont P Help Master Password or Password 2 3 or 4 You Conti Passwort can have up to four passwords each with its own set of permissible features see the Passwords Permissions menu 100 JEMWare Meter Configuration Software If this 1s a new meter the factory default password setting 1s 000000 six zeros Enter this in the Current Password box then enter your custom password in the New Password and Confirm Password boxes and click OK Caution If the Meter Password is lost the only way to access the meter is to perform a Cold Start This will erase all data in memory and return the meter to factory default settings To perform a cold start l Remove power from the meter 2 Simultaneously press the UP and DOWN arrow buttons while applying power to the meter
33. configuration to the meter It will still send the config but once the first 4 connections have been assigned all further port assignments are ignored Ports are assigned to protocols in the order of the list shown in Figure 8 57 JEMWare Meter Configuration Software Serial Communication Ci20 This window see Communication Parameters Optical Seriall Tab configures the parameters of the communications ports and internal modem in the meter Some communication functions are optional features such as a modem and dual serial ports You need to configure only the type s of communication functions you are using in the meter There are four tabs e Optical Serial e Serial Port 2 RS 232 RS 485 e Modem e Ethernet Optical Serial1 Use this tab see Communication Parameters Optical Seriall Tab to configure the meter s front panel optical interface Use the pull down menu to choose the baud rate that you want to use for communicating with your optical adapter Communications Optical S eral Serial2 Modem Ethernet Baud Rate Protocal Type BINARY Details Cancel Help Communication Parameters Optical Serial1 Tab Protocol Type Set for Binary if you are connecting to a portable computer via an optical probe DNP if you are using a distributed network Modbus ASCII or Modbus RTU ANSI Tables if you are using the port for that protocol None 98 JEMWare Meter Configuration Software
34. consumption stored periodically typically every 1 to 60 minutes and sequentially Each stored interval one record contains one or more channels a single integrated quantity accumulated during the interval just ended Load Profile Periodic Special Event The meter stores pulses accumulated since the time of the previous LP interval closure Load Profile Interval An LP interval is the period between two consecutive LP interval closures Load Profile Record An LP record is the data in a segment of load profile memory where the accumulated pulses from a single LP interval are stored Loss Compensation A generic term used to include both TLC and LLC Measurement Quantity A single measurable characteristic of power flow in a circuit or a commonly used combination of measurement quantities E g Volts Phase A Watthours Delivered Total MODBUS A standard serial communication protocol used by programmable controllers GLOSSARY 4 Glossary Null Modem Cable that emulates a modem to enable the connection of two DTE data terminal equipment devices such as any two devices that would communicate with a modem DCE device Partial Load Profile Count The total accumulated counts within an interval after the last special event or load profile interval closure Past Interval Demand The demand for the most recently ended demand interval Peak Demand a k a Maximum Demand The highest demand reading in a Billing Period
35. corresponding counters at the time of freeze The meter has storage for 5 frozen event objects when all 64 points are configured possibly more if less points are used An event is generated at each register freeze Each event includes all corresponding registers at the time the freeze occurred If event data is not desired the generation of events can be disabled using JEM Ware In the meter all event data is permanently assigned to Class 1 Time and Date Time and Date object 50 is supported both for read and write Using JEMWare you can configure the Write Time Interval which is the interval after which the meter will set the Need Time bit in the Internal Indications Configuration JEMWare software must be used to set up the configurable parameters that relate to DNP 3 0 in the meter as well as configurable point assignments for Object 20 Please refer to the section in this manual titled Protocols for detailed procedures APPENDIX B MODBUS Communications APPENDIX B MODBUS COMMUNICATIONS INTRODUCTION The MODBUS protocol defines a message structure that electronic communications equipment will recognize and use regardless of the type of networks over which they communicate It describes the procedure a host piece of equipment called the MASTER uses to request access to another device called the SLAVE how it will respond to requests from other devices and how errors will be detected and reported A common
36. current vector display no numeric value 13 Phasor Velc Phase C voltage and current vector display no numeric value 14 BPR Count cumulative number of Billing Period Resets that have occurred 15 Outage Count cumulative number of power outages that have occurred For ID Registers O Label 1 User defined label 1 default Meter Name 1 String 1 2 Label 2 User defined label 1 default Admiunistrator 3 String 2 4 Label 3 User defined label 1 default Location 5 String 3 6 Label 4 User defined label 1 default Configuration ID 7 String 4 8 Label 5 User defined label 1 default Account Number 9 String 5 Selector value 9 For Totalization registers the Selection Number contains the number of the Totalization Channel 1 12 that is being displayed B 30 APPENDIX B MODBUS Communications Quantity Type The Quantity Type register describes the basic quantity being measured by the Display Register or Load Profile channel Quantity Type is valid only if the associated Reg Type indicates this is a Numeric or Totalization Register MSB gt qqqqeeedddrrrrci lt LSB Where qqqq is the base electrical Measurement Quantity O Watts Watthours 1 VAR VARhours 2 VA VAhours 3 Amps Amphours 4 Q Ohours 5 PF 6 Volts 1 Frequency 8 Volts THD 9 Amps THD 10 External Count Load Profile only 11 External Status Load Profile only 12 Amps Sq
37. enhance the amount of information that is reported These macros access the information that was previously configured e MO Label 1 default header is Meter Name M1 Label 1 User description field M2 Label 2 default header is Administrator M3 Label 2 User description field M4 Label 3 default header is Location MS Label 3 User description field M6 Label 4 default header is Configuration ID M7 Label 4 User description field M8 Label 5 default header is Account Number M9 Label 5 User description field Example D T MO M1 M4 M5Bank 2 outage will send the Date Time Meter Name Meter Location and custom message upon power failure These default labels can be changed by the user to any other descriptor Maximum Dial Attempts Enter the number of times that the C120 modem tries to establish a connection 1 30 65 JEMWare Meter Configuration Software Event Reporting Option Choose a format how the message is interpreted e ASCII Sends message string as standard text e ASCII amp Protocol Sends message string as standard text then reverts to the protocol DNP Modbus or ANSI Tables that was originally configured in the modem e DTMF Dial Tone Multi Frequency Sends standard phone tones corresponding to message string use with pagers e Normal Sends message via protocol originally configured in the modem Phone Home on Power Outage Settings Instructs the C120 to call a phone num
38. first select the Default Meter type you wish to use This can be changed later by pressing either the JEM or C120 buttons on the main menu Select Default Meter Type JemStar The Main Screen will appear with the Login screen superimposed over the top as shown below JEMStar Login Login Type Technician y Technician JEMStarDefault cfg For Help press F1 The JEMWare Login screen is used to assign the initial User Privileges that allow access to the software JEMWare Meter Configuration Software User Privileges JEMWare is designed with built in security protection that allows only designated users to access and edit important meter configuration files There are two levels of access to the program Engineer and Technician e The Engineer level allows access to all the menu features Passwords can be changed and all meter configuration controls are available e The Technician level restricts the user from the Meter Settings Menu and the Configuration Wizard Also the Technician level cannot change passwords or Save a configuration Save As is available which requires a new file name to be assigned thus preventing an overwrite of an existing file Engineer Login If this 1s a first time use select Engineer from the drop down box and click OK You must enter the default password 000000 six zeros and click OK Note Once you have access to the program you can change the password to something of
39. li i Meter Form Transtomer Gain Correction Transtormer Factor Watts ratio across PT and CT Reactive Power Unit VAR C Q Full Scale Watts 7200 00000000 Measurement Units for Meter Outputs Wat VA Units ARO Units Volt Vots Amp A Amps yz ki loVokts Nominal Voltage Use the pull down menu to select the meter s operating voltage Meter Class Amps and Meter Form These fields were entered on the previous Meter Identification screen and are view only here Connection Type Use the pull down menu to select the circuit category VT CT ratios Enter the nominal primary and secondary voltage of the VTs to be metered Enter primary and secondary amps for the CTs JEMWare will automatically calculate the ratio to its lowest form The Transformer factor is a read only calculation derived by multiplying the VT and CT ratio The Full Scale Watts calculation is derived with the following formula Full Scale Watts Nominal Voltage X Meter Class Amps X number of elements X Transformer Factor Measurement Units for Meter Outputs Select the scaling of units kilo mega etc that will be used in the meter s calculations Jt is important to remember these units The Display Registers Analog Outputs Digital Outputs Alarms and Load Profile will use these units of measure in their calculations Transformer Gain Correction Ci20 Pressing this button opens another screen where the user may e
40. menu to choose the baud rate that you want to use for communicating with the meter The Protocol Type should be set for Binary unless you are using the port for ANSI Tables DNP 3 0 or Modbus see Protocols menu Baud Fate Protocal Type Click the Details button to configure the following parameters Network Address Password Timeout TX Start Delay TX End Delay Turnaround Delay Binary Details for Serial Port Network Address il 0 65534 Refer to the previous section Serial Port 1 for a Password Time Out E 160min complete explanation of these parameters TX Start Delay a0 0 5000 ms TX End Delay jso 0 5000ms Turnaround Delay o 0 5000 ms Cancel Help Ethernet Option The Ethernet option allows users to communicate serially with the JEMStar meter over a typical Ethernet LAN It supports up to four simultaneous connections which are treated as virtual serial channels Any serial command protocol installed in the JEMStar may be used over one or more of these virtual connections The Ethernet option consists of a JEMStar comm option board and Ethernet pigtail cable The board installs in the comm option position within the JEMStar and the pigtail runs from that position out through the base of the meter to a standard RJ 45 Ethernet jack For Switchboard models Ethernet connections are on the terminal block The Ethernet interface is compatible with any 10Base T Ethernet network that transports T
41. message up to 99 characters In addition to the specific text you can add the following macro to send the time and date of power failure occurrence TIME time and date of the power outage call Example JEMStar Meter 123 Power Loss at TIME Your custom message and the time date of power loss will be reported Maximum Dial Attempts Enter the number of times that the JEMStar modem should try to establish a connection 1 30 Event Reporting Option Choose one of the following formats for sending the message e ASCII Sends message string as standard text e DTMF Dial Tone Multi Frequency Sends standard phone tones corresponding to the message string use with pagers Enabled When this box is checked enabled it means that this phone number will be dialed upon power outage Each of the four numbers must be enabled or disabled individually For example if only Phone Number 1 and Phone Number 4 are Enabled box checked they will be dialed upon power failure Phone Numbers 2 and 3 will not be dialed 91 JEMWare Meter Configuration Software Serial Port 2 RS 232 RS 485 Communications A second serial port 1s available as an optional Optical Serial Modem Serial2 Dual Communications feature To configure on the meter s serial data interface open the Serial me Communications menu and select the Modem Serial2 page Click on the RS 232 485 button and then select Settings Use the pull down
42. on the Settings page this page will display a summary of the loss percentages calculated from transformer data Constants is used for factory reference and troubleshooting only Setting up Loss Compensation A Select the Settings page B If you want to enter transformer data select Enter Transformer Parameters If you want to enter loss percentages directly select Enter Percent Losses C If you want to enter a single set of Transformer data or loss percentages that will apply to all phases select Enter Total System If you want to enter loss data for each phase individually select Enter For Each Phase D At Test Amps select the test current at which percent losses will be entered or displayed E If you want to compensate Delivered power flow select Enabled under Delivered Losses and choose whether to add or subtract compensation from measured quantities If you want to compensate Received power flow select Enabled under Received Losses and choose whether to add or subtract compensation from measured quantities If you selected Enter Transformer Parameters A Select the Transformer Delivered or Transformer Received page as shown depending upon power flow B Enter the appropriate data in the three columns of edit fields labeled Transformer A B and C Transformer rating information for items 1 through 6 should be taken from the transformer test data sheet see the following example or transformer rating plate Each v
43. power leads that may couple electrical noise into the Ethernet cables If you are going to configure the JEMStar to use a fixed IP address obtain the correct IP address netmask and default gateway address from your network administrator and configure them into the meter before connecting it to the network Failure to do this may cause network problems that extend beyond the meter If you are going to let the JEMStar use DHCP to get network information automatically you may connect the meter to the network at any time The default configuration in all JEMStar meters when they leave the factory is to use DHCP so a new unconfigured meter may be connected safely to the network You may also bypass the network and connect the JEMStar directly to a computer s Ethernet jack using a crossover Ethernet cable You must configure both your computer and JEMStar with fixed IP addresses first since neither will have access to a DHCP server 53 JEMWare Meter Configuration Software Selecting an IP Address When permanently connecting a JEMStar meter to a network it is best practice to assign the meter a fixed IP address Addresses automatically assigned by DHCP are subject to change and if the meter s automatic address changes you will not be able to contact it again without visiting the meter in person To display the meter s network settings remove the meter cover and press any arrow button to activate the menus Press the Right button once to move th
44. represented in SECONDARY units and up to 3 decimal places of precision may be obtained by entering a scale value of 1000 For conversion to primary units the point value should be multiplied by the appropriate PT and or CT ratio A meter s default configuration is to have these Analog Input Points assigned Point Analog Input Index Name Description 0 Instantaneous Watts Phase A Del x00 e instantaneous Watts Poy De x00 instantaneous VARs Phase A Del x000 3 instantaneous VARs Phase A Rec x00 A 10 Appendix A DNP Serial Communications Point Analog Input Index Name Description Volts THD Phase A x1000 Volts THD Phase B x1000 Volts THD Phase C x1000 Bidirectional Bidirectional Bidirectional Bidirectional Bidirectional Bidirectional 59 Instantaneous VARs Phase C A e E El Bidirectional Watts Phase A Del Watts Phase A Rec Watts Phase B Del Watts Phase B Rec Watts Phase C Del led Watts Phase C Rec Instantaneous Uncompensated x1000 Watts Poly Del Instantaneous Uncompensated x1000 Watts Poly Rec lcd ee VARs Phase A Del VARs Phase A Rec VARs Phase B Del Appendix A DNP Serial Communications Point Analog Input Index Name Description VARs Phase B Rec VARs Phase C Del sit VARs Phase C Rec Instantaneous Uncompensated x1000 VARs Poly Del 76 Instantaneous Uncompensated x1000 VARs Poly Rec Phase A Del Phase A Rec Phase B
45. the base measurement is a phase or polyphase measurement being summed Direction Choose a direction of power flow TOU Choose a Time of Use rate period during which to accumulate energy or Total to accumulate continuously 98 JEMWare Meter Configuration Software Load Profile If you want to record this Totalization channel in Load Profile enter the Km value in primary units here Enabled Check the box to activate this Totalization channel Input Channels Eight input channels are shown for each Totalization channel Choose the input channels to add to this Totalization channel and the pulse weight in primary units of the Measurement Quantity to add for each pulse received on that channel Enter a negative pulse weight if you want energy subtracted from the Totalization channel s total for each pulse received on that channel Totalization channels always contain zero or a positive number Ensure that your readings don t cause rollover if used in the Load Profile Different Totalization channels can share one or more Input Channels and the Pulse Weight can be different Test Check the box to display the Totalization channel in Test Mode If this box is checked this Totalization channel does not operate unless the meter is in Test Mode NOTE Load Profile channels may not have a Time of Use rate associated with them but Totalization channels may If you require a Load Profile channel associated with a TOU rate create an addit
46. the up down arrows to select Storage Type working the register IDA that you want to Coincident with which 144 PRD W PDETWE associate as a coincident register Peak Demand register E to the one you are setting up Register Type cident Demand Coir Display Format Number of Digits f Decimal Position jo Example 123456 123 Base Quantity PF r Description A description of the register s rad PRD w ADET Wk we A DE TWE n use should be entered for aril Units of Measurement reference purposes This can Te eet een Giga nits be in your own words or abbreviations up to 19 characters or click the Suggestion box to use the default description The default abbreviations are defined in the following table 24 JEMWare Meter Configuration Software Default Register Abbreviation Definitions Abbreviation Cons AVPF TPkD CndD Instantaneous Thrm FU pe T TPKT PresD PastD Pred VARH A AmpH Q Amps Total Harmonic Distortion Phase A Polyphase z T aS Neutral Q1 2 3 4 T zo es es Working Q Q gt Q 2 gt lt 25 JEMWare Meter Configuration Software Register Categories If you select the Status Register category there ps j j ID 0 99 24 are several functions that can be assigned to a Mi na register Register Category Status e Five Status functions that display the Register Type meter
47. time that the meter will wait before the active session times out Once a timeout takes place you must re enter the meter password before communications can continue TX Start Delay TX End Delay Turnaround Delay Communication delays may be necessary to allow proper timing of the transmitted data In half duplex mode the delay intervals are inserted to make sure that data going one direction does not interfere with data going the other direction If you are using radio modem applications that use the RS 232 Request To Send RTS handshaking signal If you are using RS483 communications you will need to set meter port delays in this screen and PC port delays in the Connect menu ref Connect section of this manual If JEMStar is not used in such applications simply set the TX Start TX End and Turnaround delays to 0 ms RTS TXD 45 JEMWare Meter Configuration Software TX Start Delay Corresponds to the delay between the time that the RTS line is asserted and the time that the data 1s transmitted TX End Delay Corresponds to the delay from the time that JEMStar stops sending data and the time that the RTS line is de asserted Turnaround Delay Corresponds to the delay from the time that JEMStar finishes receiving a command and asserts RTS to begin transmitting a reply Allows the master station time to turn off its own transmitter Modems The JEMStar internal modem has two modes of operation it has the capabi
48. until a meter logo is displayed Connect Connecting This menu establishes the connection POE cue Para parameters required at the PC end of the ne 2000 communications link The meter end of rite Address eee the link is configured under the Meter 254 0258 Setup Settings Serial Communication menu Mesias Help R5485 Delays 0 7 000 mz Optical Probe type If this is a first time use of JEMWare on Converter ATSON your computer choose the correct COM Converter ATS OFF eens port 1 4 on your PC then click the Meter RTS OFF Setup button to configure the COM port parameters See PC Communication Setup for COM Port1 COM Por 2 COM Por 3 COM Por 4 further port instructions Default Baud Rate 9600 Modern Init String ATZ Optical Probe Type k Meter Connection Type Direct The computer s COM port will be recognized as RS232 communications unless you check the RS485 box If you Cancel Hep choose RS485 you will need to enter the appropriate delay times in mS as follows Optical Converter RTS ON OFF The Converter RTS ON and Converter RTS OFF delay times depend on the model of your RS232 to RS485 converter Insert an ON and OFF delay time of 5 mS each if you are using the BlackBox converter that is available from Scientific Columbus A different converter may require a different delay time The appropriate delays should be d
49. values of the points in this object represent the values of the corresponding counter points at the time of the last register freeze In the meter all static data is permanently assigned to Class 0 A meter register configured as a DNP Counter point may contain a value as large as 999 999 999 nine digits Some DNP master devices cannot accept counter values this large You may configure a meter to restrict the reported value of counter points to 3 4 5 6 7 or 8 digits or allow the full 9 digit precision to be reported Restricting the number of digits reported affects only DNP counter points not the actual display registers A meter s default configuration is to have these Counter Points assigned Point Index Counter Name Description 0 Internal system Wanthrs delivered x selected scale SS i a Internal system Qhrs delivered x selected scale a Internal system Amphrs x selected scale o internal system Vahxselectedscale A 9 Appendix A DNP Serial Communications Analog Inputs Analog Inputs are implemented as 32 bit analog input without flag object 30 Var 5 points or 16 bit analog input without flag object 30 Var 4 points A total of up to 140 points are supported which represent such things as Instantaneous Per phase Watts VARs VA Volts Amps and Power Factor Line frequency Per phase THD for volts and Amps Per phase V and A Bi directional Watts and VARs 32 Bit Inputs These inputs are
50. voltage measurement Energy Constant A number used to represent a fixed electrical quantity in the meter A meter uses the following constants to report various energy quantities Km Load Profile pulse weight Ke Energy Pulse weight Secondary side pKe Energy Pulse weight Primary side Kt Test Pulse weight Kh Watthours per each rotation of a mechanical disk meter Kh is still used as a constant in digital meters Full Scale A reference condition corresponding to the highest rated value of a given measurement For watts this condition occurs at the user s input voltage class current rating and unity power factor For VARs full scale is at the user s input voltage class current and zero power factor Health Status Read A Health and Status Read is concerned with evaluating the correct operation of the meter and its installation not its billing data Health and Status display items may be programmed into either Normal or Alternate display lists at the user s discretion Holiday For TOU purposes a holiday is a date contained in the holiday schedule Holiday Schedule A holiday schedule is an array of dates in seconds time format at midnight within the TOU schedule that enables the meter to identify holidays Instantaneous Quantities Instantaneous quantities are short term average or RMS measurements of electrical characteristics in a circuit Instantaneous quantities are suitable for developing Instanta
51. was previously selected in the Primary Configuration menu Enter the pulse weight along with whether it is in secondary Ke or primary pKe units Application notes e If you have selected the quantity A Hr or A Hr then Delivered and Received are invalid choices e The only time Q1 Q2 Q3 and Q4 are valid choices is when VAR Hr is selected Tip You can simulate a KYZ Form C output on the DI DO board by assigning two outputs one set for N O and one set for N C then connecting one side of each output externally to create a Form C arrangement End of Demand Interval When chosen a single contact closure will be generated that indicates when a Demand interval or sub interval if a sliding window has been selected has ended Site Monitor Alarm When chosen a single contact closure will be generated when a Site Monitor alarm 1s activated Refer to the Alarms section for setting the Site Monitor conditions Threshold Alarm When chosen a single contact closure will be generated when a Threshold alarm is activated Refer to the Alarms section for setting the Threshold alarm conditions Note The Threshold Alarm number in the Output channels screen must match the channel number in the Alarms screen 1 e Threshold Alarm 2 must be used with Pulse Output Channel 2 The Threshold Alarm is selected on this screen but 1s actually configured for operation in the Alarms menu shown previously Thre
52. with the meter via the DNP 3 0 protocol The meter uses the Triangle MicroWorks Inc DNP 3 0 Slave Source Code Library Version 2 19 This implementation of DNP 3 0 1s fully compliant with DNP 3 0 Subset Definition Level 2 contains many Subset Level 3 features and contains some functionality even beyond Subset Level 3 The following sections in conjunction with the Device Profile Document provide a complete interoperability configuration guide for the meter e the Implementation Table e the Point List Tables e Configuration methods A 1 Appendix A DNP Serial Communications DNP V3 00 DEVICE PROFILE DOCUMENT Vendor Name AMETEK Power Instruments Device Name JEMStar using the Triangle MicroWorks Inc DNP 3 0 Slave Source Code Library Ver 2 19 Highest DNP Level Supported Device Function For Requests Level 2 I Master For Responses Level 2 Slave Notable objects functions and or qualifiers supported in addition to the Highest DNP Levels Supported the complete list is described in the attached table For static non change event object requests request qualifier codes 00 and 01 start stop 07 and 08 limited quantity and 17 and 28 index are supported in addition to request qualifier code 06 no range or all points Static object requests received with qualifiers 00 01 06 07 or 08 will be responded with qualifiers 00 or 01 Static object requests received with qualifiers 17 or 28 will be responde
53. your choosing by going to the File Passwords menu Technician Login The Technician login does not require a password Choose Technician and click OK to continue After you select a Login type and click OK the Wizard Source File screen will appear If this is the first time that you are using the program the only configuration cfg file available will be the factory Default Configuration Default cfg Click OK to open the Default file and begin editing it for your particular meter settings If you already have custom configuration files click the Browse button to locate the desired file on your hard drive 5 _D Programming Combined Jemstar amp Ci20 jemwareJEMSt 5 X ojele s ale Wizard Source File Filename AAA AO e Browse Cancel Help Each custom configuration is saved as an individual file The Default cfg file is a special file that is loaded whenever you start a new configuration The Default file can be edited and saved with a new file name and the newly saved file will then become the default when the program is opened the next time JEMWare Meter Configuration Software When a configuration file is accessed by JEMWare its filename is displayed at the bottom of the Main Menu screen This is a reference to which file is currently active in the program Once a configuration file 1s opened you can access the menus and edit it as necessary JEMWare Meter Configuration Software Locating
54. 06 07 or 08 will be responded with qualifiers 00 or 01 Static object requests sent with qualifiers 17 or 28 will be responded with qualifiers 17 or 28 For change event objects qualifiers 17 or 28 are always responded In the table below text shaded as Subset Level 3 indicates Subset Level 3 functionality beyond Subset Level 2 and text shaded as ANAIS SRA indicates functionality beyond Subset Level 3 REQUEST RESPONSE OBJEGI Library will parse Library will respond with Object Variation Description Function Qualifier Codes Function Qualifier Codes Number Number p Codes dec hex Codes dec hex Binary Input Variation O is used to 00 01 start stop request default variation O6 no range or all 07 O8 limited qty 17 28 index Binary Input 00 01 start stop 129 response 00 01 start stop 06 no range or all 17 28 index 07 O8 limited qty see note 2 17 28 index Binary Counter Variation O is used to 00 01 start stop request default variation O6 no range or all 07 O8 limited qty 17 28 index 32 Bit Binary Counter without Flag 00 01 start stop 00 01 start stop 06 no range or all 17 28 index 07 O8 limited qty see note 2 17 28 index Frozen Counter Variation O is used to 00 01 start stop request default variation O6 no range or all 07 O8 limited qty 17 28 index 32 Bit Frozen Counter without Flag 00 01 start stop 129 response 00 01 start stop
55. 0600w 0 82787 6 instantaneous Watts Poly Del o steo0w 0 82787 e instantaneous VARs Phase A Del 0 10600VAR 0 82767 9 instantaneous VARs Phase A Rec 0 10800 VAR 0 82787 Scaled Range A 13 Appendix A DNP Serial Communications Point Analog Input Engineering Units Index Name Description Range gg Instantaneous Watts Phase A 10600 to 10600 W 32768 to 32767 Bidirectional g Instantaneous Watts Phase B 10600 to 10600 W 32768 to 32767 Bidirectional 55 Instantaneous Watts Phase 10600 to 10600 W 32768 to 32767 Bidirectional 56 Instantaneous Watts Polyphase 31800 to 31800 W 32768 to 32767 Bidirectional 57 Instantaneous VARs Phase A 10600 to 10600 VAR 32768 to 32767 Bidirectional Se o esa 10600 to 10600 VAR 32768 to 32767 Bidirectional 59 Instantaneous VARs Phase C 10600 to 10600 VAR 32768 to 32767 Bidirectional Instantaneous VARs Polyphase 31800 to 431800 VAR 32768 to 32767 Bidirectional Instantaneous Uncompensated Watts Phase A Del P aad ad Instantaneous Uncompensated Watts Phase A Rec e Don OM pee Instantaneous Uncompensated i Watts Phase B Del e ss Instantaneous Uncompensated Watts Phase B Rec a aoe Instantaneous Uncompensated i Watts Phase C Del O OGOUN O Instantaneous Uncompensated EN Watts Phase C Rec and aida Instantaneous Uncompensated i Watts Poly Del 0 31800 W 0 32767 Instantaneous Uncompensated i E
56. 0672172001 Summer Add Definite Dates 09202200 Autumn 12221 200 9 Winter Add Relative Dates Remove Selected Remove All Number of Entries 12 Max 580 Cancel Aly Help 30 JEMWare Meter Configuration Software Season Schedule There are 4 season schedules available When entering seasonal data you can program up to 80 season changes 20 years Season changes can be added as definite dates i e 4 of J uly or as relative dates 1 e first Sunday of May Rate Schedules one for each of the 4 seasons There are up to 8 configurable TOU rates available A H plus a Total T Each schedule can accept up to 8 rate changes per day for each day of the week and two holidays Each rate change must be configured with the time of day when it will occur and the rate A H that is to apply Time of Use Configurations E Season Schedule spring Rates Summer Rates Autumn Rates Winter L4 As a time saver 1f each day of the Day 13t Change 2nd Change 3rd Change 4th Change 5th Change Eth Change 7th Change Sth Change Sun A 0300 8 oeu 0900 D E St0 F m e NA as Racal Mon 00 00 4 OoOo A O0D0 A D000 4 0000 4 OOOO A D000 4 00 00 A week is similar Tue D0 00 4 OG00 4 O800 4 D000 4 OO00 4 D0 00 4 D000 4 00 A Wed 00 00 4 O0100 4 O0 00 4 D0 00 4 00 00 4 D000 4 00 00 4 _4000 4 you can program Thu 00 00 4 00 00 4 0000 4 D0 00 4 O000 4 00 00 4 0000 4 00 00 A Fri DOO00
57. 20mA but not both 42 JEMWare Meter Configuration Software Demands Demand Information This menu selection contains NOTE For block interval set both lengths to same value setup data that configures the Interval Length min timing parameters for all types Subinterval Length min of Demand Registers The actual Demand Register types Defer demands for i subinteryal closures Peak etc are defined in the after a power outage of E E seconds Display Registers menu See the Display Registers section for a list of all available Demand types This Thermal Demand Time Characteristic min has a configuration 1s only necessary if you are using the optional Cancel Help Demand functions of the meter Enable External Demand Synchronization Interval Length The Demand Interval is the user defined period of time that is used to calculate the average of the measured quantity Use the pull down menu to choose the Demand Interval length in minutes 1 60 Subinterval Length Optionally subintervals can be assigned to a Demand Interval to create a Rolling Interval or Sliding Window This type of measurement consists of the average value calculated over multiple consecutive subintervals A calculation is performed at the completion of each subinterval and then the calculations are averaged over the length of the main Interval Use the pull down menu to choose the Demand Subinterval length in minutes
58. 22 ised e E ALDO 2 ANSI Tables Implementation in A Meter cccccsssssssssecccccceneeesseseccccccesaeeesssseeeees 3 Opa Oti ds 3 Modem Potasio 3 Direct connect RS 232 or RS 485 POlTt oocccocccncccnnoccnnoconoccnnncnnoconancnnaccnnccnnaconorcnancnns 3 suppotted Data Tables 0 a 4 Decide do a UREN TE E 4 Decato Mena in 5 DO enc seen en 5 Decade insurance lilas 6 Decade 6 Decade ai A iat A A 7 DD MM E EE dei diia 7 NCC ARS Tesoros 8 DECIS oa npcioicand 8 Decio iii 9 Glossary JEMWare Meter Configuration Software JEMWare Meter Configuration Software INTRODUCTION JEMWare is a Microsoft Windows based program used with the Scientific Columbus polyphase electricity meters The primary function of the program is to establish communications with the meter and select and configure all register types displayed on the meter You can also configure the meter s primary calibration communications interface load profile configuration time of use schedules and other meter parameters JEMWare can be used to program the meter retrieve the meter s configuration and set the time on the meter The application includes file management capabilities to save open and delete meter configurations that are stored on the computer s hard drive The program is easy to use and each operation is accessible through simple Windows pull down menus and toolbar icons JEMWare has many functions that enable you the user
59. 32767 Phase A Rec Instantaneous Uncompensated PF E i Phase B Del 0 1 00 0 32767 Instantaneous Uncompensated PF E i Phase B Rec 0 1 00 0 32767 Instantaneous Uncompensated PF 0 1 00 0 32767 Phase C Del Instantaneous Uncompensated PF 0 1 00 0 32767 Phase C Rec 91 Instantaneous Uncompensated PF 0 1 00 0 32767 Poly Del 92 Instantaneous Uncompensated PF 0 1 00 0 32767 Poly Rec Instantaneous Uncompensated i Watts Phase A Bidirectional 10600 to 10600 W 32768 to 32767 Instantaneous Uncompensated i Watts Phase B Bidirectional 10600 to 10600 W 32768 to 32767 Instantaneous Uncompensated _ Watts Phase C Bidirectional 10600 to 10600 W 32768 to 32767 Instantaneous Uncompensated EN Watts Polyphase Bidirectional 31800 to 31800 W 32768 to 32767 Instantaneous Uncompensated i VARs Phase A Bidirectional 10600 to 10600 VAR 32768 to 32767 Instantaneous Uncompensated y f EN VARs Phase B Bidirectional 10600 to 10600 VAR 32768 to 32767 Instantaneous Uncompensated i EN VARs Phase C Bidirectional 10600 to 10600 VAR 32768 to 32767 Instantaneous Uncompensated VARs Polyphase Bidirectional 31800 to 31800 VAR 32768 to 32767 Scaled Range A 15 Appendix A DNP Serial Communications Events The meter DNP implementation includes frozen counter event objects These are implemented as Object 23 Var 5 32 Bit frozen counter with time These provide a time stamped snapshot of the
60. 40203 S 1000 Alltermate Reg 46 Hi__ REGCB 40004 S 1000 Alternate Reg 46 Lo REGCC 40005 S 1000 Alltermate Reg 47 Hi__ REGCD 40206 S 1000 Alltermate Reg 47 Lo _ REGCE 4007 S 1000 AltemateReg48Hi REGCF 40208 S 1000 AltermateReg48Lo __ REGDO 40209 S 1000 Alternate Reg 49 Hi__ REGDI 4010 S 1000 AltemateReg49Lo REGD2 40211 U 1000 SysWhDelHi REGD3 4012 U 1000 SysWhDello REGD4 40213 U 1000 SysWhRecHi REGDS 40214 U 1000 SysWhReclo REGD6 40015 U 1000 SysVARhDelHi REGD7 40216 U 1000 SysVARhDello REGD8 4017 U 1000 SysVARhRecHi REGD9 40218 U 1000 SysVARhRecLo REGDA 4019 U 1000 SysVAhDelHi_ REGDB 4020 U 1000 SysVAhDello REGDC 4021 U 1000 SysVAhRecHi REGDD 4022 U 1000 SysVAhReclo REGDE 4023 U 1000 SysQhDelHi__ REGDF 4024 U 1000 SysQhDello REGEO 4025 U 1000 SysQhRecHi REGEI 4026 U 1000 SysQhReclo REGE2 4027 U 1000 SysAmphHi REGE3 4028 U 1000 SysAmphlo B 13 adlajldicidicdicidlcCcqcViCICiCKICICICiC Cima i majwm jwmlmimlimaim iwmalvm wmalmaim maima imalma malva NI Nin nin niw APPENDIX B MODBUS Communications MODBUS PLC Signed Scale Factor Register Contents Address Address Unsigned REG E4 40229 1000 Sys V2H Hi REG ES 40230 1000 Sys V2H Lo REG E6 40231 1000 Sys A2H Hi REG E7 40232 1000 Sys A2H Lo B 14 APPENDI
61. 67 Phase C Rec REG 43 30068 Instantaneous Uncompensated Watts O 32767 Poly Del REG 44 30069 Instantaneous Uncompensated Watts 0 32767 Poly Rec REG 45 30070 Instantaneous Uncompensated VARs 0 10600 VAR Q 32767 Phase A Del REG 46 30071 Instantaneous Uncompensated VARs 0 10600 VAR Q 32767 Phase A Rec amen Phase B Del Phase B Rec B 16 APPENDIX B MODBUS Communications Address Address Units Range Range A Mit social Msi Instantaneous Uncompensated VARs Poly Del Instantaneous Uncompensated VARs Poly Rec REG 4D 30078 Instantaneous Uncompensated VA REG AD 3008 aw De ial Mt cel Eb te REGO 3008 ee aa REG 52 30083 Instantaneous Uncompensated VA REGS e REG 53 30084 Instantaneous Uncompensated VA REG 54 30085 Instantaneous Uncompensated VA REG 55 30086 Instantaneous Uncompensated PF ee a oe REG 56 30087 Instantaneous Uncompensated PF a ee REG 57 30088 Instantaneous Uncompensated PF REST a REG 58 30089 Instantaneous Uncompensated PF hea REG 59 30090 Instantaneous Uncompensated PF REGS 70 eed REG 5A 30091 Instantaneous Uncompensated PF PREGA 20091 Teese a REG 5B 30092 Instantaneous Uncompensated PF REG 5C 30093 Instantaneous Uncompensated PF Phase A Bidirectional 10600W 439767 REG 5E 30095 Instantaneous Uncompensated Watts 10600 to 32768 to a A E TA REG 5F 30096 Instantaneous Uncompensated Watts 10600 to 32768 to badia mE REG 60 30097 Instanta
62. 705 1707 Region Firmware Version m 3 108 Class it 1 1709 fheansa O O 2 1712 CRo OOOO e a 1714 W VA Wh VAh Primary Unit of Measure 1720 Connection Type m o a Demand Method O 1732 Demand Tmerval ie IAEA 1723 Demand Subinterval o ECT IE MS number of display items in Normal Display LS 1724 List See MODBUS registers 1800 1999 12000 Int 1 12749 js poly number of display items in Alternate UN NN 1725 Display List See MODBUS registers 2000 2199 Int 1 13000 13749 EEEo number of display items in Internal Display a Int List See MODBUS registers 14000 14749 EE o number of Load Profile channels See oo Int MODBUS registers 15000 15179 Display Registers COC Y 1800 1999 a UU 22 APPENDIX B MODBUS Communications 2000 2199 Alternate Display List Registers up to 50 entries 2199 Load Profile 2900 2919 Data Log Header 2950 2985 Data Log Table of Contents 36 scratchpad registers writable by system 3000 10799 Load Profile data Display Register and Load Profile Channel Descriptions 13749 14000 Internal Display List Register Map Index 50 entries a Het Devin Tis Reger Map 1er O0 T9 15179 Scaling Factors 12000 Normal Display List Register Map Index 50 entries 12749 Note These MODBUS registers are scaling factors expressed as powers of ten that when multiplied by the appropriate power or energy registers give readings in primary kilo units e g kilow
63. B C or Polyphase Average is available for Amps or Amps only Direction Depending upon your earlier selections you may be able to choose the power flow direction Note If you are configuring an Instantaneous register you can also set 1t for Bi directional TOU The Time Of Use rate is selected next if you are using this feature The default is Total but any of eight other rates can be chosen Refer to the Time Of Use Setup menu for configuring the actual rate schedules Storage Type The Storage Type selection is used to define how the register data Season Change will be saved Billing Period Reset A Working Register will store the selected data in real time and Cumulative Continuous Cumulative update the displayed quantity on a continual basis When a BPR is performed the contents of the working register are transferred to the BPR storage register All peak registers will reset to zero when a BPR is performed All other register types will continue to increment A Season Change register stores the selected quantity only when a Season Change command occurs The quantity in the register is saved until the next Season Change command at which time the data is overwritten 23 JEMWare Meter Configuration Software A Billing Period Reset register will update the selected quantity only when a BPR occurs The quantity in this register will be saved until the next BPR command at which time the old quantity is ove
64. B the Delayed Answer Window field The maximum duration that can be accepted is 1439 minutes pee ae Number of Rings to Answer 2 E Frequency OK Cancel Hel This choice defines the window as to day or date ESO EA Select Never 1f you are not using this feature Number Rings to Answer This will define when the modem will answer 1f the call occurs within the Answer Window time period If 0 is selected the modem never answers Choices are 0 20 Delayed Answer Window This will define when the modem will answer if the call is not within the Answer Window If 0 is selected the modem never answers Choices are 0 20 47 JEMWare Meter Configuration Software Phone Home Modem Settings This feature allows JEMStar to call any of four specified numbers if any of the selected events occur The meter can have four different phone numbers programmed to call Each phone number has an associated alarm event assigned to it This event determines the action the meter will take when calling the number The meter will send a text string in a user selectable format indicating which meter called the time the call was initiated and the event s that occurred This allows the phone home features to be utilized without the need of any special software or system All that is required is either a serial printer hooked up to a modem or a computer running terminal emulation software such as PROCOMM The meter can also communicate via a se
65. CP IP packets It also works on 100Base T networks that can accept 10 megabit connections Terminology Some computer networking terms that are defined here e 10Base T A standard Ethernet physical interface that uses unshielded twisted pair UTP wiring 10Base T can carry up to 10 megabits of data per second although most devices cannot sustain that rate except in short bursts e IP Address Internet Protocol The numeric address of a device on a TCP IP network An IP address is usually expressed as four numbers separated by dots periods such as 192 168 1 2 An IP address can be assigned to a network device 92 JEMWare Meter Configuration Software automatically using DHCP an automatic address or manually by the network s administrator a fixed address IP addresses may be duplicated on different networks but using the same IP address on two or more devices on the same network causes confusion and communication failures e MAC Address Media Access Controller A six byte number that is unique to every network capable device and is assigned by the device manufacturer It is used for low level Ethernet communications and to help DHCP servers identify devices that have been assigned automatic IP addresses e DHCP Dynamic Host Configuration Protocol A method for automatically providing suitable IP address settings to a network device when it is connected or turned on A network that supports DHCP has a server that newly connected
66. Fatal Error Phase B under voltage alarm Non fatal Error Phase B voltage swell alarm Unused If you want to limit the number of DNP binary points in the meter to less than 40 enter only the points you need and set the rest to Unused To configure the MODBUS option 1 Start by setting up a communication port for Modbus Determine whether you will use the Serial 1 or optional Serial 2 port You can set up one or two Modbus ports per meter Go to Meter Settings Serial Communication Serial 2 tab Optical Seriall Modem Serial2 Choose the baud rate from the pull down box that m a communication port a meter is always considered a Aa Type from Binary to either Modbus ASCII or Modbt Details 2 Click the Details button to configure the followin Network Address Several meters can be networked together if they are equipped with the CommRepeater option Assign a unique number Hep for each meter connected on a network Use only eee a address numbers from 0 254 with Modbus If peace ey 0 5000 ms this is a single meter to master connection use eee 0 5000 ms the default address 1 Tumaround Delay o 05000ms Password Timeout Once communication commands have ceased a timeout cycle will begin Assign an amount of time that the meter Cancel Help will wait before the active session times out Once a timeout takes place you must re enter the meter password before communications can continue 82 JEMW
67. Link Confirms ensure the Application Layer Confirm Timeout is set long enough for all data link retries to complete The following formula describes this requirement Application Confirm Timeout gt Data Link Confirm Timeout Data Link Retries 1 Time Set Tolerance This field sets the sensitivity of the meter to time set operations If the master performs a time set that causes a change in the meter s time of less than the number of seconds entered here it is not recorded in the meter s Load Profile This feature prevents Load Profile from being filled with time set events when regular time synchronizations occur Class 0 Counter Type Running Object 20 Checking this field causes all of the meter s working 1 e displayed register values to be included in a Class O data poll Class 0 Counter Type Frozen Object 21 Checking this field causes all of the meter s frozen register values as of the last Register Freeze event to be included in a Class O data poll Data Link Confirm Mode Determines whether the master sends a data link confirm of the last frame sent The choices are Always Sometimes or Never Sometimes means only on multiframe fragments Frozen Counter Events Configurable as YES or NO If YES the meter will create a frozen counter event Object 21 var 9 whenever an internal register freeze occurs The scanning period is fixed at 5 seconds Analog Input Variation Analog Inputs can be configured as 32 bit a
68. N Watts Poly Rec 0 31800 W 0 32767 Instantaneous Uncompensated EN VARs Phase A Del 0 10600 VAR 0 32767 Instantaneous Uncompensated VARs Phase A Rec 0 10600 VAR 0 32767 Instantaneous Uncompensated VARs Phase B Del 0 10600 VAR 0 32767 Instantaneous Uncompensated VARs Phase B Rec 0 10600 VAR 0 32767 Instantaneous Uncompensated VARs Phase C Del 0 10600 VAR 0 32767 A 14 Scaled Range Appendix A DNP Serial Communications Point Analog Input Engineering Units Index Name Description Range Instantaneous Uncompensated E _ VARs Phase C Rec 0 10600 VAR 0 32767 Instantaneous Uncompensated z _ VARs Poly Del 0 31800 VAR 0 32767 Instantaneous Uncompensated i VARs Poly Rec 0 31800 VAR 0 32767 77 Instantaneous Uncompensated VA 0 10600 VA 0 32767 Phase A Del Instantaneous Uncompensated VA E Phase A Rec 0 10600 VA 0 32767 79 Instantaneous Uncompensated VA 0 10600 VA 0 32767 Phase B Del Instantaneous Uncompensated VA 0 10600 VA 0 32767 Phase B Rec Instantaneous Uncompensated VA p Phase C Del 0 10600 VA 0 32767 Instantaneous Uncompensated VA B Phase C Rec 0 10600 VA 0 32767 83 Instantaneous Uncompensated VA 0 31800 VA 0 32767 Poly Del 84 Instantaneous Uncompensated VA 0 31800 VA 0 32767 Poly Rec Instantaneous Uncompensated PF i Phase A Del 0 1 00 0 32767 Instantaneous Uncompensated PF 0 1 00 0
69. Neutral current swell alarm Phase C under current alarm Phase C over current alarm Phase C power reversed alarm Phase C PF high alarm Phase C PF low alarm Phase C voltage sag alarm Phase C under voltage alarm Phase C voltage swell alarm Phase C over voltage alarm Phase B under current alarm Phase B over current alarm Phase B power reversed alarm Phase B PF high alarm Phase B PF low alarm Phase B voltage sag alarm Phase B under voltage alarm Phase B voltage swell alarm Phase B over voltage alarm Phase A under current alarm Phase A over current alarm Phase A power reversed alarm Phase A PF high alarm Phase A PF low alarm Phase A voltage sag alarm Phase A under voltage alarm Phase A voltage swell alarm Phase A over voltage alarm Threshold Alarm 1 Threshold alarm 2 Threshold alarm 3 Threshold alarm 4 Phase A potential status Phase B potential status Phase C potential status Loss of Phase Potential End of Demand Interval Fatal Error Non fatal Error A meter s default configuration is to have these Binary Input Points assigned A 6 Appendix A DNP Serial Communications Point Binary Input Index Name Description 0 Contactinparrsaus Phase C under current alarm 6 PhaseCovercurrentalarmm O e PhaseCPFRgh alm oo 14 Phase B under current alarm Phase B over current alarm Phase B power reversed alarm Phase B voltage sag alarm MENA Phase B under voltage alarm 19 20 Phase A under current alarm 24 Ph
70. Period Reset 7 Last Freeze Date date of the last Register Freeze B 29 APPENDIX B MODBUS Communications 8 Last Season Date date of the last Time of Use season change 9 Next DST Date date of the next Daylight Saving Time change 10 Test Time Remaining time remaining in meter Test Mode 11 Demand Time Remaining time remaining in present Demand Interval 12 Days On Battery number of days meter has used backup battery power i e cumulative outage time For Status Registers 0 Present Status present System Status Word 1 Latched Status Word sticky System Status Word Shows conditions that have set a Status bit in the System Status Word but have since gone away 2 Last BPR Status System Status Word at last Billing Period Reset 3 Last Freeze Status System Status Word at last communications Freeze 4 Last Season Status System Status Word at last Time of Use season change 5 Register Firmware Version Meter register firmware version no numeric value 6 Metrology Firmware Version Meter metrology firmware version no numeric value 7 Blank blank display no numeric value 8 Segment Check all display segments active no numeric value 9 Phasor V 2 or 3 phase voltage vector display no numeric value 10 Phasor A 2 or 3 phase current vector display no numeric value 11 Phasor Vala Phase A voltage and current vector display no numeric value 12 Phasor VbIb Phase B voltage and
71. R Hr Settings source of 10 40 Vdc to activate them Refer Channel4 Energy Pulse Nom Open 3 WAR Hr Settings to the JEMStar User Manual 1083 600 for T f Apples only to 5 Channel Krz Option Board input ratings and wiring information Channel Energy Puso Nom Open Be HI Setings Any of the following functions can be assigned to each Contact Input channel Comet Hep 36 JEMWare Meter Configuration Software Interval Sync This setting can be used to accept an external momentary contact closure that will trigger the start of a Demand Interval By wiring a series of meters to operate from the same contact closure you can synchronize the Demand Interval timing among the group You must enable this feature on the Demand Information menu by selecting a check box on that screen External Status This setting will monitor an external contact and report its open closed status in the Load Profile External Energy This setting can be used to record KYZ pulse outputs from another meter and report them as Load Profile in the JEMStar TOU Rate Override This setting will permit an external contact closure to trigger a forced override of the current Time of Use rate When this type of Pulse Input is active 1t will switch the pre existing TOU rate that was programmed in the Time Of Use menu to the one set on this screen As long as the external contact is closed the override rate 1s in effect When the contact opens the me
72. REGOS 40006 Reserved REG06 40007 i Reserved REGO 40008 Reserved REGOS 40009 J Reserved REG09 40010 Reserved _ PE F REG 2A 40043 1000 Normal Reg 16 Hi REG 2B 40044 1000 Normal Reg 16 Lo B 9 APPENDIX B MODBUS Communications Address Address Unsigned B 10 APPENDIX B MODBUS Communications Address Address Unsigned B 11 APPENDIX B MODBUS Communications Address Address Unsigned B 12 APPENDIX B MODBUS Communications Address Address Unsigned REGB7 40184 S 1000 AltermateReg36Lo _ REGB8 40185 S 1000 AltemateReg37Hi REGB9 40188 S 1000 AltermateReg37Lo _ REGBA 40187 S 1000 Alltermate Reg 38 Hi__ REGBB 40188 S 1000 Alltermate Reg 38 Lo _ REGBC 40189 S 1000 Alltermate Reg 39 Hi__ REGBD 401900 S 1000 AltermateReg39Lo _ REGBE 40191 S 1000 AltemateReg40Hi REGBF 40192 S 1000 AltermateReg40Lo _ REGCO 40193 S 1000 Alltermate Reg 41 Hi__ REGCI 40194 S 1000 AltermateReg4lLo _ REGC2 40195 S 1000 Alltermate Reg 42 Hi__ REGC3 40196 S 1000 AltermateReg42Lo _ REGC4 40197 S 1000 AltemateReg43Hi REGCS 40198 S 1000 Alltermate Reg 43 Lo _ REGCo 4019 S 1000 AlternateRegq44Hi REGC7 40200 S 1000 AltermateReg44Lo _ REGC8 40001 S 1000 Alltermate Reg 45 Hi__ REGC9 40002 S 1000 Alltermate Reg 45 Lo _ REGCA
73. Volts L N phase C N Primary milli gt volts 1024 Volts L N polyphase Primary milli volts 1026 1027 1028 1029 1030 1031 1032 1033 1034 1035 _ THD Amps phase A B 18 Volts L N phase A N Primary milli 1018 volts Long Long Long Int Int Int Int Int Int Int Int Int APPENDIX B MODBUS Communications percent milli W Delivered phase A Primary 1055 W Delivered phase B Primary gt xW milli 1057 W Delivered phase C Primary cane gt xW milli milli E O ys 1059 W Delivered polyphase 1061 Real Apparent Power UOM to Kilo conversion factor Int 1062 VAR Delivered phase A Pri xVAR gt milli 1064 VAR Delivered phase B Pri xVAR one gt milli 1066 VAR Delivered phase C Pri xVAR Lone gt milli 1068 VAR Delivered polyphase Pri a 107 ReactiverQ Power UOM to Kilo Conversion Factor power often Im 1 1071 WA Delivered phase A PARA milli Long 2 ion VA Delivered phase BO PAR VA milli Long 2 1075 VA Delivered phase E PAR VA mili Long 2 1077 WA Delivered polyphase Pr xVA mili Long 2 1079 _ Real Apparent Power UOM to Kilo conversion ctor power often m 1 1080 W Received phase A Primary hone gt xW milli W Received phase B Primary 1084 W Received phase C Primary xW milli W Received polyphase Primary 1086 xW milli E O va MRM N N N ES O 5 oa 2 2 1088 Real Apparent Power UOM to Kilo conversion factor 1
74. Ware to open a configuration file saved with a prior version or to read the configuration from a meter that was programmed with a prior version If you do this however you must verify all settings in the configuration before saving it or programming it into a meter Verify the settings by opening each item in the Meter Settings menu and reviewing the settings This allows you to be confident that the correct settings are in place and also allows JEMWare to insert appropriate default settings for features that may not have been present in the older version of JEMWare Display Registers The Display Registers feature includes the following parts Registers in the Normal display list Registers in the Alternate display list Registers in the Test display list Self Read registers Register Thresholds e Site Monitor alarms The following configuration sections if modified will cause the Display Registers feature to be re initialized erasing all previous data e Normal display list Alternate display list Test display list Demand settings Self Read settings Primary Scaling settings including changing VT Ratio or CT Ratio from the meter front panel e Register Threshold settings e Demand Load Profile Interval Timing settings e Auto BPR Reset changes from the Timekeeping and DST tab Load Profile The Load Profile feature which does not include individual Event Logs will be erased and re initialized if these configuration sections are modified e De
75. X B MODBUS Communications Read Input Registers function 04 Point List Address Address Units Range Range B 15 O lslololololololo APPENDIX B MODBUS Communications Address Address Units Range Range REG 35 30054 Instantaneous Watts Phase A 10600 to 32768 to Bidirectional 10600W 32767 REG 36 30055 Instantaneous Watts Phase B 10600 to 32768 to Bidirectional 10600 W 32767 REG 37 30056 Instantaneous Watts Phase C 10600 to 32768 to Bidirectional 10600 W 32767 REG 38 30057 Instantaneous Watts Polyphase 31800 to 32768 to Bidirectional 31800 W 32767 REG 39 30058 Instantaneous VARs Phase A 10600 to 39768 to Bidirectional 10600 VAR 432767 REG 3A 30059 Instantaneous VARs Phase B 10600 to 39768 to Bidirectional 10600 VAR 439767 REG 3B 30060 Instantaneous VARs Phase C 10600 to 32768 to Bidirectional 10600 VAR 432767 REG 3C 30061 Instantaneous VARs Polyphase 31800 to 39768 to Bidirectional 31800 VAR 29767 REG 3D 30062 Instantaneous Uncompensated Watts 10600 W cid 32767 Phase A Del REG 3E 30063 Instantaneous Uncompensated Watts 10600 W hail 32767 Phase A Rec REG 3F 30064 Instantaneous Uncompensated Watts 0 32767 Phase B Del REG 40 30065 Instantaneous Uncompensated Watts 0 10600 W 0 32767 Phase B Rec REG 41 30066 Instantaneous Uncompensated Watts 0 10600 W 0 32767 Phase C Del REG 42 30067 Instantaneous Uncompensated Watts 0 10600 W 0 327
76. YY Enter a number 1 1000 for the Alarm Actions on Display number of minutes that the LCD will Threshold 1 Arnunciator remain in Test Mode before Threshold 2 Arnunciator automatically returning to the standard Threshold 3 Annunciator disp lay mode Threshold 4 Annunciator Site Monitor Annunciator JEMWare Meter Configuration Software Demand Reset Lockout This also 1s referred to as a Billing Period Reset Lockout The purpose is to eliminate accidental multiple BPR commands that could cause a loss of data The Lockout only affects actions from the meter s front panel a command from JEMRead will override the lockout and initiate a BPR Enter a number 0 60 for the number of minutes that you must wait before the next BPR is valid Display s Backlight Timeout JEMStar only If your meter 1s equipped with the optional backlit display you can choose how the light will operate Refer to the Model Number Description in the User Manual 1083 600 to determine 1f you have this feature in your meter Selections include Always ON Always OFF or 5 10 15 or 60 minutes ON after the last front panel button is pushed Note If your meter is not equipped with the backlighting feature it will simply ignore this setting Display s Number of Digits Choose either 6 or 8 digits for the Main Display readout You can also choose to display leading blanks or leading zeros Leading blanks means that there is nothing displayed
77. a File JEMWare can help you find configuration files on your hard drive by choosing File Hunt or by clicking the Hunt button flashlight icon in the toolbar Simply type in a keyword and a directory in the top two fields then click the Hunt button The keyword can consist of any text that you entered in the five Meter ID fields such as the Meter Name Location etc The program will search the specified directory in your hard drive for cfg files JEMWare will locate and display all the cfg files that contain your keyword s Click on the file you wish to open and continue Hunt for Config File Search Directory D WAMETEKWEMWare Directory Search Words Hunt Matching Files JEMStarDefault cfg Cancel Properties of Highlighted File Note If you are using Windows 95 98 the Hunt feature will only work if you installed the JEMWare application in a directory path containing filenames of 8 or less characters For example e C Program Files AMETEK will not work because Program Files is too long e CAAMETEKVemware will work because each filename is 8 or fewer characters This is the default location that the program offers during the installation process If you are using other Windows applications NT etc there is no limit to the filename sizes JEMWare Meter Configuration Software THE CONFIGURATION WIZARD There are two methods available to use JEMWare the Configuration Wizard and the manual Windows p
78. ace Each connection is treated as a separate conversation nothing that a user does on one port such as activating a password has any effect on any other port The only exception is if one port is used to reconfigure the meter At the end of the configuration session all active connections may be broken as the Ethernet interface is reset along with the rest of the meter Each serial protocol in the Ci20 must be assigned its own port number and the number of simultaneous connections it must support Each protocol must have a unique port number You may have more than one of a given protocol s port however For example if you know the meter must be able to support 2 simultaneous Binary Protocol connections you may configure Binary Protocol to use port 2001 and permit up to 2 connections Any users up to a maximum of 2 may then establish a connection to port 2001 at that meter s IP address and get a live connection any more users who try will be rejected To prevent an unused or uninstalled protocol from being accessed set its number of connections to zero This will also free up additional ports to be used on the desired protocols When assigning protocols to ports keep these rules in mind e You can have no more that 4 active ports e If an optional protocol such as DNP is not installed in the meter you must set its number of connections to zero Otherwise it uses up one of the 4 connections but still doesn t work e Port numbers ma
79. ach menu selection opens a dialog box that allows you to access and enter data specific to that feature In some instances the information that you enter in one location is automatically copied to other menu features as necessary to perform the internal calculations The Meter Settings Menu is restricted from the Technician permission level 16 Meter Settings Meter Identification Primary Configuration Display Registers Load Profile Time of Use Setup Timekeeping and OST Changes Alarms Contact Input Output Analog Outputs Demands Serial Communication Display Setup Protocols Password Permissions Lose Compensation Meter Identification The command group User Defined Meter Identification Information provides basic information about a meter However this information is not necessary for meter operation If nothing is entered there are no defaults assumed Each of the five ID fields will accept up to 20 alphanumeric characters The text in these fields is searched when you use the Hunt feature The Meter ID Titles shown in the illustration are the defaults however you can customize the titles by selecting the Change Labels button then entering a new title In this manner you can create any category you wish to keep as part of the meter data record The Current Configuration group box contains key configuration fields that must be filled in bec
80. alue to be entered 1s per phase if you selected Enter for Each Phase on the Settings page Use separate values for individual transformer units If your transformer test data sheet provides data for the entire multi phase transformer bank or if a common core 3 phase transformer is used select Enter Total System on the Settings page and enter the values in the fields indicated 89 JEMWare Meter Configuration Software 90 Loss Compensation Settings Transformer Delhvered Transformer Received Percents Delivered Percents Received Constants Note Enter Rated Transformer Voltages as Phase to Neutral for 4 Wire and Network connections or Phase to Phase for Delta and 3 Wire Y connections Delivered Transformer Transformer Transformer E 1 Transformer Rated VA 1 6666 e 006 1 66667e 006 1 66667e 006 2 gt Transformer Rated voltage Molts RMS 277 277 277 3 gt Transformer Fe loss at No Load NLw Watts fa d Bb fa 37 67 fa 97 67 4 transformer Cu loss at Full Load FL watta 1003 7 10803 7 10803 7 5 i Transformer Exciting Current 4 a ae 6 gt Transformer Impedance 5 jess feses ese 7 Line Resistance Ohms e E Eo Delivered lasses i i Enable Loss Compensation Delivered fe Add to measured quantity Subtract fom measured quertity Cancel Help Transformer Rated VA VA rating of the transformer tap used This is a PER PHASE value not the VA rating of t
81. are Meter Configuration Software TX Start Delay TX End Delay Turnaround Delay Certain parameters are required for radio modem applications that use the RS 232 Request To Send RTS handshaking signal If a meter 1s not used in such applications simply set the TX Start and TX End RTS o TXD TX Start Delay Corresponds to the delay between the time that the RTS line is asserted and the time that the data is transmitted TX End Delay Corresponds to the delay from the time that a meter stops sending data and the time that the RTS line is de asserted Turnaround Delay Corresponds to the delay from the time that a meter finishes receiving a command and asserts RTS to begin transmitting a reply Allows the master station time to turn off its own transmitter 3 Click OK to accept the Serial port setup 4 The next step 1s to configure the Modbus specific parameters Go to the Meter Settings Protocols menu and click on the Modbus tab at the top of the screen The following page will appear 83 JEMWare Meter Configuration Software Protocol Setup DNP Counters Modbus DNP Analog Objects DNP Binary Objects W Allow Register Presets sano Frame Timeout 0 65 535 me Cancel Help 5 Now configure the parameters at the top of the screen The following paragraphs define these fields Allow Register Presets Check this box if you want the meter to be able to receive and process register preset data from the Modb
82. ase A over current alarm weona ooo Threshold Alarm 1 Threshold alarm 2 Threshold alarm 3 A 7 Appendix A DNP Serial Communications Counters Counters are implemented as 32 b1t counter without flag Object 20 Var 5 For the counter point list the user may select any Normal Alternate or Internal not Test display register to map to each point in the counter list Note that display registers may contain demand or instantaneous readings as well as consumption totals This list can be configured to contain up to 64 counter points In addition to the Normal and Alternate register set the meter has an internal register list consisting of 49 various measurements Using JEMWare the counter point list can be configured to be any mix of Normal Alternate or Internal registers up to a total of 64 points Each numeric counter point value is represented as the corresponding register value times a user selected scaling factor Registers in the Normal and Alternate display lists are set by the user The Internal list contains these registers Watthours Delivered Time of Peak Demand Amp Phase B Watthours Received e Time of Peak Demand Amp Phase C VARhours Delivered e Time of Peak Demand Neutral Amp VARhours Received Time of Peak Watt Delivered at last BPR VAhours Delivered e Time of Peak VAR Delivered at last BPR VAhours Received e Time of Peak VA Delivered at last BPR Ohours Delivered PF at Peak Watt Delivered at last BPR Qhours Rece
83. ast file reset clear in Date amp Time at which Meter Load Profile was of last file 3 register format reinitialized reconfigured reset clear File Size resize in records 15 Allocated Record size in registers allocated same as Offset 3 Record Size during the last file resize including the date time stamp B 27 APPENDIX B MODBUS Communications File Status Status of the file based on actual Meter always reads 0 OK and allocated file size and record size 16 17 File Starting register number for file Meter always reads 3000 Location Cont WFC Continuous WFC segment limit Segment may be set in range 1 5 Delay 19 Cont WFC Number of Pre Trigger Cycles to N A 32768 Trigger obtain when a continuous WFC Delay occurs Applicable only to the Cont WFC File Only Reserved for all others Record record in file number stored at Offset 9 21 Newest Register number at start of newest Location of record corresponding to sequence Record record in file number stored at Offset 10 Reg Desc Each meter Display Register and Load Profile Channel has a corresponding Register Description Reg Desc that tells the host system how to interpret its data Every Register Description contains 15 MODBUS registers that fully describes the Display or Load Profile Channel Four of these registers contain bit fields that detail the operation of the Display or Channel Reg Type Describes the Type Numeric Time Status ID or Tota
84. asures only during TOU Rate F 7 Rate G Register measures only during TOU Rate G 8 Rate H Register measures only during TOU Rate H c 1s the Compensation flag B 31 APPENDIX B MODBUS Communications 0 Value has Transformer Loss Compensation applied 1f applicable 1 Value is not compensated 1 is the Integrated Quantity flag 0 Quantity is instantaneous or average 1 e Demand Instantaneous Thermal etc 1 Quantity is integrated 1 e Consumption Totalization Demand Quantity Type The Demand Quantity Type register describes the basic quantity being measured by an associated Peak Demand Display Register It uses the same bit assignments as Quantity Type described above It is valid only 1f the associated Reg Type indicates this is a Coincident Demand Display Register Reg Format The Reg Format register identifies the MODBUS data format used by the associated Display Register or Load Profile channel MSB gt 0000ffffddddccecc lt LSB Where ff ff is the Register Format identifier 0 No value Register or Channel contains no displayable information 1 Int Display contains a single MODBUS register remaining 3 registers are not used Display Registers only 2 Long Display contains a Long 2 MODBUS registers remaining 2 registers are not used Display Registers only 3 Time Display contains a Time 3 MODBUS registers last register is not used Display Registers only 4 Long scale Display c
85. atts kilowatthours B 23 APPENDIX B MODBUS Communications MODBUS Register s Measurement Type 1061 1079 1088 1106 1115 1211 1225 1250 1264 1271 Watt Watthour VA VAhour 1070 1097 1124 1218 1232 1257 1272 VAR VARhour Q Qhour 1239 Amp Amp Amphour Amp hour 1243 Volt Volt hour Special Data Formats These Registers have special or unusual formatting e Pulse Input I MODBUS register 1400 Reads 0 1f meter Contact Input 1 is off 1 if on e Pulse Input 2 MODBUS register 1401 Reads O if meter Contact Input 2 is off 1 if on e Meter ID MODBUS register 1700 and unique identification number assigned by Square D Meter returns 15220 e Register Firmware Version MODBUS registers 1705 1701 Three MODBUS registers each containing 2 digits of the meter Register Firmware version number Display each register s contents as a 2 digit hexadecimal number and separate the registers with periods E g B3 00 12 e Health Status MODBUS register 1709 A series of bits giving the present health status of the meter MSB gt 16 15 14 13 12 11 1098 765 4 3 2 1 lt LSB Bit Meaning 16 1 Battery Warning Cumulative time on battery exceeds 2 years 15 1 Configuration error using default configuration 14 1 Site Monitor alarm condition is present 13 1 External status input is ON 12 1 Threshold 1 alarm condition is present 11 1 Threshold 2 alarm condition is present 10 1 Thres
86. ause this information is used in other setup screens Make sure that your choices are correct for the meter you are configuring If they do not match the configuration cannot be written to the meter and a mismatch error will appear Meter Information Labe JEMWare Meter Configuration Software Meter ID Titles Meter Identification Configuration LUsepbehmes formation eter Identiticap Meter Name Screntific Columbus Rochester New york Factory Default fi 200 950 5503 Administrator Location Configuration ID Account Number Change Labels Curent Configuration hig configuration i for use with meters of type FORM J gt Meter Form Meter Class Amps 20 Voltage Range 63 480 Cancel Label Meter Name Labela Sdmiristrator Label3 location Label 4 Configuration ID Label 5 Account Number Cancel 17 JEMWare Meter Configuration Software Primary Configuration The data in this window must be entered correctly for proper meter operation These are the fields that define the nominal voltage circuit type voltage and current ratios and other scaling factors The grayed out fields are view only in this screen and cannot be edited the data having been calculated or taken from other setup screens Primary Configuration Settings Primary Secondary Nominal Voltage 140 PT i i Meter Class Amps 20 CT
87. ber 4 are enabled they are dialed upon power failure Phone Numbers 2 and 3 is not dialed Ethernet The Ethernet option allows users to communicate serially with the Ci20 meter over a typical Ethernet LAN It supports up to four simultaneous connections which are treated as virtual serial channels Any serial command protocol installed in the Ci20 may be used over one or more of these virtual connections The Ethernet option consists of a Ci20 comm option board and Ethernet pigtail cable The board installs in the comm option position within the Ci20 and the pigtail runs from that position out through the base of the meter to a standard RJ 45 Ethernet jack The Ethernet interface is compatible with any 10Base T Ethernet network that transports TCP IP packets It also works on 100Base T networks that can accept 10 megabit connections 67 JEMWare Meter Configuration Software Terminology Some computer networking terms defined here 10Base T A standard Ethernet physical interface that uses unshielded twisted pair UTP wiring lOBase T can carry up to 10 megabits of data per second although most devices cannot sustain that rate except in short bursts IP internet Protocol Address The numeric address of a device on a TCP IP network An IP address is usually expressed as four numbers separated by dots periods such as 192 168 1 2 An IP address can be assigned to a network device automatically using DHCP an automatic address or man
88. ber and report a predetermined message The call is initiated only if meter power fails The modem is powered by an internal battery pack Power Outage Phone Home Settings This feature allows Ci20 to call up to four phone numbers if the meter experiences a loss of power Power Outage operates independently from the other modem settings and must have the battery back up option installed Refer to the meter model number and the C120 User Manual to determine if this feature has been installed The meter sends a text string in a user selectable format indicating which meter called and the time the call was initiated This allows the phone home features to be utilized without the need of any special software or system All that 1s required 1s either a serial printer hooked up to a modem or a computer running terminal emulation software such as PROCOMM Phone communication is discontinued immediately upon restoration of power Therefore if power is restored during a call sequence the phone home function is not completed The Load Profile report shows an entry for the time of power failure and the time of restoration Power Outage Phone Home Settings Dial Type Phone Number 1 Phone Number 2 Phone Number 3 Phone Number 4 Phone Number Message String Maximum Dial Attempts 12 Event Reporting Option DTMF v Enabled coca 0 Power Outage Phone Home Settings The following fields are available Dial Type Select
89. cation parameters establish user identity and privileges perform various functions and send and receive data tables Since a single modem may serve multiple meters the Telephone Modem Protocol provides for individual end device addressing on a multidrop connection ANSI Network Protocol C 12 22 ANSI C12 22 defines the dynamic processes required to send and receive ANSI Data Tables via a network connection C12 22 is not an approved standard but is mentioned here for future reference At this time there is no meter implementation specifically related to C12 22 C 2 Appendix C ANSI Tables Communication ANSI TABLES IMPLEMENTATION IN A METER ANSI Tables protocol is available on all meter serial communication interfaces standard or optional You can configure a serial interface either via JEMWare configuration software or though the meter front panel menu system ANSI Tables protocol can be operated on one or more of the meter s serial interfaces Using ANSI Tables on one serial port does not interfere with the use of ANSI Tables or a different protocol on any other port Optical Port If a meter is configured for ANSI Tables on the Optical port it will automatically use the C12 18 Optical Port protocol For connecting an Optical Adapter to the meter refer to the section titled Communication Ports in Chapter 2 of this manual Modem Port If a meter is configured for ANSI Tables on the Modem port it will automatical
90. change in input This is similar to the time characteristic of mechanical thermal demand meters Select from 1 to 60 minutes if you are using this feature Serial Communication JEMStar This menu group configures the parameters of the communications ports and internal modem in the meter Some communication functions are optional features such as a modem and dual serial ports You need to configure only the type s of communication functions you are using in the meter Optical Port To configure the meter s front panel optical Communications interface open the Serial Communications menu Optical Seriali Modem Serial2 and select the Optical page Use the pull down rae Baud Rate ret menu to choose the baud rate that you want to use Aa for communicating with your optical adapter Set the Protocol Type for Binary if you are connecting the port to a meter or ANSI Tables if you are using the port for that protocol Click the Details button to configure the following parameters Network Address Assign a unique number for ES E o ess34 each meter to be connected on a single network Password Time Out JE 160 min Only numbers 0 254 are valid addresses for connecting JEMWare to a meter or 1f you are using the port for ANSI Tables protocol Password Timeout Once communication commands have ceased a timeout cycle will begin Assign an amount of time that the meter Camel He will wait before the active session times o
91. d Demand W Delivered polyphase Primary ee Wan dhe 1 Predicted Demand VAR Delivered polyphase Primary 1267 XVAR milli 1269 Predicted Demand VA Delivered polyphase Primary ane xVA milli 1 1271 Real Apparent Power UOM to Kilo conversion factor 1272 Reactive Q Power UOM to Kilo Conversion Factor Demand Current AMIA 1273 Demand Current Phase A Primary milli amps l Long l 1275 Demand Current Phase B Primary milli amps 1277 Demand Current Phase C Primary milli amps 1279 Demand Current Phase N Primary milli amps 1281 Peak Demand Current Phase A Primary milli amps 1283 Peak Demand Current Phase B Primary milli amps 1285 Peak Demand Current Phase C Primary milli bon amps 1287 Peak Demand Current Phase N Primary milli amps Time of Peak Demand ME 1292 VAR Delivered polyphase P Time 1295 VA Delivered polyphase P Time Demand Current Phase A 1298 Time 3 B 21 W Delivered polyphase APPENDIX B MODBUS Communications Demand Current Phase B 1301 Demand Current Phase C 1304 Demand Current Phase N 1307 Prev Billing Period Peak W Delivered 1310 Time 1800 1999 Normal Display List Registers up to 50 entries Te e i ee A 1313 Time 3 a Y al E 1316 Time 3 Coincident Power Factor SS IAN AAA rl pts O O 1400 TT AS ie toi impute i E E A 1600 1619 20 registers writable by sytem m m C A S 1700 Meter 1D or Type unique foreach Mode m cd e e a 1702 1704 Time 3 1
92. d Register A Continuous Cumulative register will sum the selected quantity read at BPR plus the quantity from the Working register The sum is continuously updated Cumulative Demand Register A Cumulative register will store the selected quantity when a BPR occurs The quantity in the register is saved until the next BPR command at which time the quantity is added to the existing quantity The sum accumulates until it is manually cleared Daily Schedule The daily schedule is an array of times and rates and it determines the moment at which a TOU period changes Demand The average of some measurement over a defined period of time traditionally calculated by accumulating the integrated measurement over the defined period the demand interval and dividing by the time Demand Deferral A period immediately following a power outage during which demands are not calculated Itis determined by the number of demand interval closures following the power outage Demand Reset A scheduled or user initiated event that causes maximum demands to be zeroed and certain other calculations to occur DNP Distributed Network Protocol a serial communication protocol used in instrument networking GLOSSARY 2 Glossary Element A voltage and current input pair to a meter or transducer typically from the same phase A half element takes advantage of mathematical relationships present in a three phase power system to eliminate the need for one
93. d TOU rate Totalization Input Collects energy measurements from external devices for Totalization purposes See Totalization section for more details JEMWare Meter Configuration Software Settings Outputs Ci20 is equipped with 6 I O contacts that are user programmed and can be ordered with or without wetting voltage Note Only one type of I O board can be installed in a Ci20 Click Settings and the required Output window appears Energy Form C Output Channel 1 Quantity AS Direction le Delivered C Received i i a yy Phase fA CB C f Pop Pulse Weight le Ke pke Units of Measurement UE from Primary Configuration caos uo Energy Pulse Options To configure the output 1 Select the energy Quantity from the pull down 2 Select the power flow Direction and the phase s 3 Enter the pulse weight along with whether it is in secondary Ke or primary pKe units The Units of Measurement shown as a reference at the bottom of the screen were previously selected in the Primary Configuration Note If you have selected the quantity A Hr or A2 Hr then Delivered and Received are invalid choices The only time Q1 Q2 Q3 and Q4 are valid choices is when VAR Hr is selected 41 JEMWare Meter Configuration Software Analog Outputs JEMStar This menu selection defines the operation of the analog outputs Each of the 3 channels can be configured independently Note Analog Output
94. d be based on the units kilo mega etc that were previously chosen in the Primary configuration screen under Measurement Units for Meter Outputs Uncompensated Checking this box forces the quantity measured by this Load Profile channel to never have Loss Compensation applied regardless of the settings of the Loss Compensation configuration Records Choose how you want the LP Channel to record data The standard selection is Always If you want to control the recording of LP data you can select During TOU Override Only The Time of Use Override feature is set on the Contact Input Output screen By using one of the Contact Inputs as an external trigger you can switch Load Profile recording on and off in conjunction with the Time of Use register settings Refer to the Load Profile description in the JEMStar User Manual 1083 600 and Ci20 User Manual 1086 381 for more details Direction Select whether the measured quantity is Received or Delivered power Note If Amp Hours Volts Amps Hz Volts THD A Vv A Hour V Hour or Amps THD is chosen as the Quantity the Direction is not selectable Q1 Q2 Q3 and Q4 are enabled only when VAR or VAR Houss is selected Phases Choose the phase s to be profiled A B IC IN Polyphase e If Quantity is Volts Watts Watt Hours VARs VAR Hours VA VoltAmp Hours a Ve A Hour V Hour or PF select one choice of A B C or Polyphase e If Quantity is Amps
95. d type ping followed by the meter s IP address then Enter For example Ping 10 42 3 47 lt enter gt If you see one or more messages saying Reply from IP address the meter is connected and communicating If you see No reply messages re check the meter s configuration and wiring Setting up Virtual Serial Ports The TCP IP network protocol used by the Ci20 Ethernet interface uses ports which are virtual data connections within a single device Different ports are used by different functions within the Ci20 much as different phone extensions are used by different departments of a company Ports are identified by number Each of the serial command protocols available in a Ci20 meter Binary DNP MODBUS ASCII or RTU etc may be assigned a port number For example in the Ci20 default configuration the Binary protocol is assigned to Port 2001 When a user makes a connection to the meter s IP address at port 2001 he may use Binary protocol to communicate with the meter If he wants to use MODBUS RTU he must configure the meter to assign that protocol to a different port number such as 2003 Then he can connect to the meter s IP address at port 2003 to use MODBUS to communicate The Ci20 s Ethernet interface can support up to 4 simultaneously connected ports That means up to 4 separate conversations may be going on at the same time on the Ethernet 70 JEMWare Meter Configuration Software interf
96. d with qualifiers 17 or 28 For change event object requests qualifiers 17 or 28 are always responded The read and write function code for Object 50 Time and Date variation 1 is supported Maximum Data Link Frame Size octets Maximum Application Fragment Size octets Transmitted 292 Transmitted 2048 Received 292 Received 2048 Maximum Data Link Re tries Maximum Application Layer Re tries Configurable from 0 to 255 Via JEM Ware None Requires Data Link Layer Confirmation Configurable as Never Only for multi frame messages or Always via JEMWare Requires Application Layer Confirmation When sending multi fragment responses Sometimes Timeouts while waiting for Data Link Confirm Configurable via JEM Ware Complete Appl Fragment None Application Confirm Configurable via JEMWare Complete Appl Response None Others Transmission Delay Configurable via JEMWare Inter character Timeout 1 sec Need Time Delay Configurable via JEM Ware Frozen Counter Event scanning period FIXED AT 5 seconds A 2 DNP V3 00 DEVICE PROFILE DOCUMENT Sends Executes Control Operations WRITE Binary Outputs SELECT OPERATE DIRECT OPERATE DIRECT OPERATE NO ACK Count gt 1 Pulse On Pulse Off Latch On Latch Off Queue Clear Queue Reports Binary Input Change Events when no specific variation requested Never Sends Unsolicited Responses Never Default Counter Object Variation Default Object 20 De
97. dard protocol for SCADA communications between Master Stations Host computers Remote Terminal Units and Intelligent Electronics Devices such as the meter Itis a public domain non proprietary protocol based on the IEC 870 standards and is intended primarily for use in SCADA like systems DNP as a protocol provides efficient robust data communications through a system of 32 bit data link CRCs Cyclical Redundancy Checks and confirmation messages However DNP is much more than an error detection and correction scheme A DNP compliant device from the protocol s point of view is considered a group of data objects each of which contains one or more points The DNP protocol specification defines the allowable object types and what constitutes a point for that object type DNP is not intended to be a general purpose two way communications link Rather it is highly optimized for SCADA and automation applications involving relatively small amounts of near real time data that is often read by the DNP master every few seconds In the case of the meters it is not used as a means of controlling or reconfiguring the meter DNP v3 00 DEVICE PROFILE The purpose of this document is to describe the specific implementation of the Distributed Network Protocol DNP 3 0 within the meter This document in conjunction with the DNP 3 0 Basic 4 Document Set and the DNP Subset Definitions Document provides complete information on how to communicate
98. devices contact to obtain an IP address Netmask Default gateway and other settings necessary to communicate on the network e Netmask A bit field usually expressed in the same format as an IP address that helps the device to recognize messages from other legitimate network devices and reject messages from foreign devices The netmask may be assigned automatically using DHCP or manually by the network s administrator e Default Gateway The IP address to which network devices send messages when they don t know where else to send them The default gateway is responsible for deciding whether to route messages to other devices on the network or to devices on other networks The default gateway address may be provided automatically by DHCP or manually by the network administrator e Network administrator Net Admin The person responsible for setting up operating and maintaining a network The network administrator may provide IP addresses netmask values and default gateway addresses manually or may set up a DHCP server to provide them automatically e TCP IP Transmission Control Protocol Internet Protocol The set of network protocols used by the JEMStar Ethernet interface Physical Connection Connecting the JEMStar Ethernet interface to a local network is straightforward Use a standard 10Base T patch cable with RJ 45 plugs on each end to connect the JEMStar s Ethernet pigtail to a network hub or router Dress the wiring to avoid
99. e A pure sine wave at the fundamental frequency has 0 THD Thermal Demand A measurement filtered through a time delay such that step changes in the measurement are reflected slowly in the output Commonly used to simulate the effects of current heating on power distribution equipment Thermal Time Characteristic GLOSSARY 6 Glossary The time required for a Thermal Demand Register to reflect 90 of a step change in input Similar to the time characteristic of mechanical thermal demand meters Time Time indicates hours minutes and seconds TLC Transformer Loss Compensation the ability of an instrument to measure or calculate the power lost in an imperfect transformer and to use that figure to modify its power or energy readings Total Registers Those meter registers that are not TOU registers are called total registers The total registers always are active TOU Period A selected duration of time during which the consumption demand and other information are assigned to a set of Time Of Use registers TOU Rate Indicator Output A display segment that indicates the present TOU rate in effect TOU Register A TOU register is a register of the meter that for a designated TOU period accumulates and may display amounts of electrical energy demand or other quantities measured or calculated TOU Schedule The TOU schedule is a static externally configured database within the meter The data base contains information tha
100. e Casual Read Burden Load imposed by a device on an input circuit expressed in ohms or VA Casual Read A casual read is the ability to see measurements on a sealed functioning meter without breaking a seal or otherwise violating the meter s security The type and amount of information available during a casual read can be selected by the meter setup programmer using JEMWare Any non secure readings may be placed in the Normal display list If nothing is to be displayed to unauthorized users the programmer may place the Blank or Segment Check display items in the Normal list Consult the JEMWare user s manual for full configuration details GLOSSARY 1 Glossary Class Class Amps The maximum current for which a meter 1s specified to operate within 1ts accuracy rating Coincident Demand Register A Coincident register 1s one that the user can set to capture data at the same time as any Peak Demand Register The Coincident register 1s linked to a Peak Demand register through JEMWare software One or more registers can be set to coincide with a single Peak Demand register Cold Start A procedure that will return the meter to factory default settings and erase all stored data in the meter registers To perform a Cold Start in the meter 1 Remove power from the meter 2 Simultaneously press the UP and DOWN arrow buttons while applying power to the meter until the meter logo is displayed Continuous Cumulative Deman
101. e If the Analog point quantity is Frequency the phase is 80 JEMWare Meter Configuration Software ignored Meters always measure frequency on Phase A If the Analog point quantity 1s Amps you may also choose a phase of Neutral Compensated For each DNP Analog point you must select whether to send a Compensated or Uncompensated value Loss Compensation is available on any Watt VAR VA Q or PF quantity For any other quantity this setting 1s ignored Scale Enter a positive numeric value For 32 bit analog points Object 30 Var 3 the value of the analog quantity in secondary units associated with this point will be multiplied by this scale value when it is transmitted This allows analog values to be scaled to read in primary units 8 Select the DNP Binary Objects tab to set up your DNP binary objects Fill in the Binary Input column for each point Protocol Setup DNF Counters Modbus DNP Analog Objects DNP Binary Objects Voltages Out of Sequence Point Binalot oo oA 1 Contact Input 1 Status 2 Contact Input 2 Status J Non Fatal Error 4 Fatal Error A Lose of Phase Voltage E Phase Potential Indicator T Phase B Potential Indicator a Phase C Potential Indicator J Threshold Alarm 1 10 Threshold Alarm 2 11 Threshold Alarm 3 1 Threshold Alarm 4 13 Phase 4 Over Voltage Alarm 14 Phase B Over Yoltage Alarm 15 Phase C Over Voltage Alarm 16 Phase Under Voltage Alarm 17 Phase B Under Voltag
102. e Time Meter Name Meter Location and custom message upon power failure Note that these default labels can be changed by the user to any other descriptor See Meter Identification 49 JEMWare Meter Configuration Software Maximum Dial Attempts Enter the number of times that the JEMStar modem should try to establish a connection 1 30 Event Reporting Option Choose a format how the message will be interpreted e ASCII Sends message string as standard text e ASCII amp Protocol Sends message string as standard text and then reverts to the protocol DNP Modbus or ANSI Tables that was originally configured in the modem e DTMF Dial Tone Multi Frequency Sends standard phone tones corresponding to message string use with pagers e Normal Sends message via protocol originally configured in the modem Power Outage Phone Home Modem Settings This feature allows JEMStar to call up to four phone numbers if the meter experiences a loss of power Power Outage operates independently from the other modem settings and must have the battery back up option installed Refer to the meter model number and the JEMStar User Manual to determine if this feature has been installed The meter will send a text string in a user selectable format indicating which meter called and the time the call was initiated This allows the phone home features to be utilized without the need of any special software or system All that is required is eit
103. e Alarm 16 Phase C Under Voltage Alarm Cancel Help Point There are up to 40 DNP binary points sent during a communication session numbered 0 39 You can arrange the sequence of your transmitted counter data by assigning the first data to point 0 next to point 1 etc Binary Input For each DNP binary point you must select a binary input assignment You may select from the following inputs 81 JEMWare Meter Configuration Software Contact Input 1 status Contact Input 2 status Voltages out of sequence alarm Neutral over current alarm Neutral current swell alarm Phase C under current alarm Phase C over current alarm Phase C power reversed alarm Phase C PF high alarm Phase C PF low alarm Phase C voltage sag alarm Phase C under voltage alarm Phase C voltage swell alarm Phase C over voltage alarm Phase B under current alarm Phase B over current alarm Phase B power reversed alarm Phase B PF high alarm Phase B PF low alarm Phase B over voltage alarm Phase A under current alarm Phase A over current alarm Phase A power reversed alarm Phase A PF high alarm Phase A PF low alarm Phase A voltage sag alarm Phase A under voltage alarm Phase A voltage swell alarm Phase A over voltage alarm Threshold Alarm 1 Threshold alarm 2 Threshold alarm 3 Threshold alarm 4 Phase A potential status Phase B potential status Phase C potential status End of Demand Interval Phase Potential Lost Phase B voltage sag alarm
104. e Meter Configuration Software Load Profile If this Totalization channel is to be recorded in Load Profile enter the Km value in primary units here Enabled Check the box to activate this Totalization channel Input Channels Eight input channels are shown for each Totalization channel to support future expansion The meter currently supports two input channels Choose the input channels you want added to this Totalization channel and the pulse weight in primary units of the Measurement Quantity to add for each pulse received on that channel NOTE Enter a negative pulse weight if you want energy subtracted from the Totalization channel s total for each pulse received on that channel Totalization channels always contain zero or a positive number and will not roll under Different Totalization channels may share one or more Input Channels but the Pulse Weight may be different Test Check the box if the Totalization channel is to be displayed in Test Mode If this box is checked this Totalization channel will not operate unless the emter is in Test Mode Uncompensated If this box is checked the measurement quantity selected will not have Loss Compensation applied regardless of the Loss Compensation configuration Contributions from external Pulse Input channels are never compensated TIP Load Profile channels may not have a Time of Use rate associated with them but Totalization channels may If you require a Load Profile channe
105. e Thermal Time Characteristic 43 18 Configure Threshold Alarms 43 19 Configure Site Monitor 43 1A Configure DST Schedule 43 1C Configure Energy Pulses 43 1D Calibrating Loading Flash Memory The other key is used to disable just the meter s RESET pushbutton With the jumpers installed access is enabled Remove the jumpers to restrict access The meters are provided from the factory with both keys installed thus ready for your new configuration using JEMWare If you want to remove the key s after proper configuration in your meter shop follow the procedure located in the Maintenance section of the User Manuals 1083 600 and 1086 381 If you attempt to download a new configuration via JEMWare and experience errors related to the above commands the security key has probably been removed You can verify this by attempting to download a non protected feature such as setting the time clock If this is accepted then it most likely means the meter has been security locked JEMWare Meter Configuration Software MAIN MENU OVERVIEW JEMWare is comprised of five Main Menu items File Meter Settings Meter Communication PC Settings and Help that appear at the top of the program screen z D Program FilestiMETEKJEMWAREYIEMStarDefault cfg File Meter Settings Meter Communication PC Settings Help Ble a Be BLS oo 4 e o es ime e File Menu JEMWare manages meter configuration files through the File Menu From this m
106. e highlight to the middle columns then the Down button until the word Ethernet is highlighted Press the Right button to move the highlight to the word Type If there is an Ethernet option board installed the field in the upper right corner of the screen will say ETHERNET otherwise it will say NOT INSTALLED Press the Down button to select and display the network settings Here are sample images FA Version Mebrmask FI Persian IP Address Modise letmask FI Version Presel IP Address 5 D nnfigure Configure Figure 4 Netmask Figure 5 MAC Address Once you have connected the JEMStar to the network and determined its IP address check the connection by issuing a ping command from a computer on the same network On most computers get a command prompt and type ping followed by the meter s IP address then Enter For example Ping 10 42 3 47 lt enter gt If you see one or more messages saying Reply from IP address the meter is connected and communicating If you see No reply messages re check the meter s configuration and wiring Setting up Virtual Serial Ports The TCP IP network protocol used by the JEMStar Ethernet interface uses ports which are virtual data connections within a single device Different ports are used by different functions within the JEMStar much as different phone extensions are used by different departments of a company Ports are iden
107. e meter must be able to support 2 simultaneous Binary Protocol connections you may configure Binary Protocol to use port 2001 and permit up to 2 connections Any users up to a maximum of 2 may then establish a connection to port 2001 at that meter s IP address and get a live connection any more users who try will be rejected To prevent an unused or uninstalled protocol from being accessed set its number of connections to zero This will also free up additional ports to be used on the desired protocols When assigning protocols to ports keep these rules in mind e You can have no more that 4 active ports e If an optional protocol such as DNP is not installed in the meter you must set its number of connections to zero Otherwise it uses up one of the 4 connections but still doesn t work e Port numbers may be any number from 1 to 65535 However certain port numbers are traditionally assigned to network functions that the JEMStar does not support such as Web page serving which uses port 80 The JEMStar and compatible software can still use these ports but if someone using a different program such as a Web browser accidentally connects to the meter s IP address the result is unpredictable Generally port numbers above 1024 are fair game For more information on common port numbers see http www iana org assignments port numbers e You may have DNP assigned to only one port and single user either virtual or serial in any given
108. e shown below for loss calculations of each phase Loss Compensation Phase 4 Delivered Fe Watt Loss EL WFe 5 47 Fe YAR Loss lt LWFe o 2 Cu watt Loss LW Cu Cu YARA Loss LWEn Recelwed Fe Watt Lass ZLWFe O Fe VR Loss ZU 4Fe Cu watt Lass ZUW Cu o Cu YAR Loss lt 104Eu Phaze E Delivered Fe Watt Loss EL Fe Fe WARA Loss LyFe Cu Watt Loss L Cu Cu VAR Loss l Cu Received Fe Watt Loss Uw Fe 0 Fe YAR Loss lt LWFe Cu watt Loss LW Cu 0 Cu WAA Loss LWE uy Phase C Delivered Fe Watt Loss EL WFe Fe YAR Loss lt LWFe Cu Watt Loss ZUW Cu Cu VAR Loss lt LWE y Recelwed Fe Watt Loss ZUW Fe O Fe WARA Loss lt LWFe Cu Watt Loss LW Cu 0 Cu YAR Loss LYCu Note The Scaled Meter Constants page is used for factory reference only 94 JEMWare Meter Configuration Software Voltage Sag Swell Detection and Logging The meter has the ability to detect and record over and under voltage conditions on any voltage input on a cycle by cycle basis The user may configure this feature using the Sag Swell Detection screen Sag Swell Detection Sag Swell Detection Phase Phaze E Phaze Voltage Swell an jo jo Threshold in primary valt writs Voltage Sag fo jo jo Threshold in primary volt unit Minimum Duration all li phases in line cycles Maximize Voltage E awell 7 Overcurrent May reduce low level meter accuracy Resolution Cancel Help Ent
109. ections 0 Device address 1 This configuration will allow up to 2 Binary connections one DNP connection and one MODBUS RTU connection simultaneously assuming the Modbus and DNP protocols were purchased with the meter It will block all other protocols The Ci20 default configuration is to use DHCP to obtain an automatic IP address and uses Binary Protocol on port 2001 max connections 4 device address 1 All other protocols are set for max connections 0 Configuring the Ci20 Ethernet Interface JEMWare is used to program the Ci20 meter including the Ethernet interface Use the Meter Settings Serial Communication Ethernet tab in JEMWare to set up the desired Ethernet operation The first screen is used to set the Ethernet address of the meter Enter the IP address Subnet mask netmask and default gateway addresses provided to you by your network administrator or check the Use DHCP box to have the meter obtain these values automatically ommunications IP address Subnet mask Default gateway Protocols Cancel Help Ethernet address setup To set up the serial protocol ports click Protocols Enter the desired port number max connections and device address for Binary Protocol Protocol BINARY k IF port number 2001 Mas connections f Device address i Cancel Binary Protocol Setup 12 JEMWare Meter Configuration Software To set up other protocol ports pull down the Protocol l
110. ed automatically by DHCP or manually by the network administrator Network administrator Net Admin The person responsible for setting up operating and maintaining a network The network administrator may provide IP addresses netmask values and default gateway addresses manually or may set up a DHCP server to provide them automatically TCP IP Transmission Control Protocol Internet Protocol The set of network protocols used by the Ci20 Ethernet interface Physical Connection Connecting the Ci20 Ethernet interface to a local network is straightforward Use a standard 10Base T patch cable with RJ 45 plugs on each end to connect the C120 s 68 JEMWare Meter Configuration Software Ethernet pigtail to a network hub or router Dress the wiring to avoid power leads that may couple electrical noise into the Ethernet cables If you are going to configure the C120 to use a fixed IP address obtain the correct IP address netmask and default gateway address from your network administrator and configure them into the meter before connecting it to the network Failure to do this may cause network problems that extend beyond the meter If you are going to let the C120 use DHCP to get network information automatically you may connect the meter to the network at any time The default configuration in all C120 meters when they leave the factory is to use DHCP so a new unconfigured meter may be connected safely to the network You may al
111. ee eee 16 Meter IGentilicanon acct Seem eer aca ee Shee ane a Shee ee wnat 17 Piman CON CULO 18 Display RE SIS 660s as od ob tet naomeenseeneae mais 20 Load Brote A 28 Lime Of Use SCUD ia teem rere cena rts eee ferrets a tre Maer eer renee ee 30 Timekeepin sand DSE Cnances 152502 ESA AAA 33 PANS ad di dos 35 Contact put Output GEM Stan ar ence a a 36 Pulse Input Output COD asia 39 ANIOS Outputs TENISTA iii 42 DEMI ele 43 senal Communication IE M Star usais 44 Ethernet OPO ususarios 52 Serial Communication CCOO A Me 58 E e AER PoR NO 67 Display SU a a aia 73 PEOLOC OS cst ii cusses ad cue 76 Password Permissions dais sia 85 Loss Compensatii OM ore E eo tee aan 87 Voltage Sag Swell Detection and LOggIN8Y oooooonccnnnnncnnnnnnnonnnnnnnnonononnnnnnnnnnnnnonnnnos 95 Tonna OCI NUS CAL sts creat a 96 Lotalizat oO Dia E iiada 98 Meter COMMUNICATION caia 100 JEMWare Meter Configuration Software Meter Bass Words odiada 100 Change Meter Pass Word occ 100 COn uta aaa oda oaicaen 101 Connecting to the meter over the Ethernet Interface oooooccccncnccnnnnnnnnnnnnnnnnnss 103 Validate COntSUrAMOM e io ll Oi aoe 103 Wite Meter CoOntclUrI1ON ridad 104 Read Meter C Oni Curation orcas dc 105 DECORE chains 105 BoR Ira 106 AR AA RA 106 E 107 Activate Cellular Wide cialis aida 107 Get Cellular Modemni Ito dad doit ce 107 A o PP uo y PE A o O A 107 Healer 107 Sile Monitor SAM AEE EEA E ein tasmiandes 108 EE E AE PENNI
112. efined in the documentation included with your converter 101 JEMWare Meter Configuration Software Meter RTS OFF The Meter RTS OFF setting pertains to the delay that is configured in the meter at this point This is important it is NOT the value that you intend to configure the meter for when you write a configuration to the meter Therefore you must know how the meter is already configured The factory default setting for Meter RTS OFF is 20 mS This will be your setting unless you have previously changed it The delays are necessary to allow proper timing of the transmitted data In half duplex mode the delay intervals are inserted to make sure that data going one direction does not interfere with data going the other direction Converter Converter RTS ON RTS OFF 1G Transmitting 7 Data Meter RTS OFF Delay IMPORTANT The Converter RTS OFF setting must be less than the TX Start Delay that 1s set in the Serial Communication menu for the meter Communication errors may result 1f this 1s not configured correctly Once this has been done click Connect to link your PC to the meter You do not need to enter a Meter Password to connect however you will be restricted from accessing data until a password 1s entered and accepted NOTE When you connect to a meter that 1s a different type from your configuration loaded JEMStar or C120 the following error screen will a
113. egisters containing both the High Order amp Low Order words must be included in the request or the command will be rejected B 2 APPENDIX B MODBUS Communications The meter MODBUS interface can access data in either RTU or ASCII mode The supported Register Sets and the MODBUS Function Codes FC used to retrieve the data are as follows Function Code FC Register Set 01 Read Discrete Outputs 02 Read Discrete Inputs 03 Read Holding Registers native data types 04 Read Input Registers Scaled and Cascaded 05 Force Single Discrete Outputs 15 Force Multiple Discrete Outputs 16 Preset Multiple Holding Registers LRC Calculation ASCII mode When the meter MODBUS interface operates in ASCII mode it uses LRC for error checking The LRC value is one byte contained in two ASCII characters The LRC consists of the 2 s complement of the byte sum of all the binary byte values after each pair of ASCII coded hex characters are converted to a byte of the Device Address through the last Data byte Neither the Start of Message colon nor the carriage return line feed pair is included in the LRC calculation The LRC value is calculated by the transmitting device that appends the LRC to the message The receiving device recalculates the LRC and compares it to the value in the message If the values are not the same the receiver ignores the message CRC Calculation RTU mode The MODBUS interface also operates in RTU mode and u
114. elays to 0 ms e ps TX Start Delay _ TX End Delay TXD TX Start Delay TX End Delay Turnaround Delay Diagram 99 JEMWare Meter Configuration Software TX Start Delay Corresponds to the delay between the time that the RTS line is asserted and the time that the data is transmitted TX End Delay Corresponds to the delay between the time that C120 stops sending data and the time that the RTS line is de asserted Turnaround Delay Corresponds to the delay between the time that C120 finishes receiving a command and asserts RTS to begin transmitting a reply Allows the master station time to turn off its own transmitter Serial Port 2 RS 232 RS 485 Use this tab Figure 3 to configure the meter s serial data interface Use the pull down menu to choose the baud rate that you want to use for communicating with your Ci20 meter Communications Optical Serial ModemySerial2 Ethernet Baud Rate Protocol Type BINARY ki Details Communication Parameters Serial12 Tab Set the Protocol Type for Binary unless you are using ANSI Tables Modbus or DNP 3 0 See Optical Seriall section58 for field descriptions Modem The C120 internal modem has two modes of operation e The capability to call originate and e To answer incoming phone calls NOTE The Modem features are optional check your model number to determine if this is available on your meter Use this tab see Modem Settings to co
115. ending on the exact definition of a given display item by the user Meter Displays can contain a numeric value expressed as a Long or a Mod x 3 format with a primary scaling factor a Long format without scaling or a Time format Each Display has a corresponding Register Description see Reg Desc below that contains among other things a Format Type field that explains how to interpret that Display s data LP Record The Load Profile Record contains the Load Profile data for a single interval This format consists of a time stamp in the Time format described here followed by 1 to 12 pulse B 26 APPENDIX B MODBUS Communications channels depending on the meter s configuration Each pulse channel is three MODBUS registers in the format R1 R2 104R3 The first register is a pulse count the second register 1s a pulse weight in for example Watthours per pulse and the third register is a power of ten The complete interval s accumulation for that channel is found by multiplying the first register by the second register then multiplying the result by 10 raised to the power in the third register LP Header The Load Profile Header is a data structure that describes the meter s implementation of Load Profile for MODBUS retrieval Register Register Register Description Notes Offset Name Table of Beginning register of record which This is a pointer to the block where the 1 12 Contents lists the register numbers that are channel
116. enu JEMWare opens saves and deletes configuration files The File Menu also provides you access to a default configuration as a point of reference You can also compare two configurations at the same time to determine the differences between them This is also the menu that allows the user to change passwords and exit the program Meter Settings Menu The Meter Settings Menu is the section of the program that defines the meter configuration Each item listed on the menu brings up a screen that defines certain aspects of the meter s configuration Some of the menus such as Registers and TOU Setup bring up submenus that break down the setup of these parameters even further When creating a configuration for the registers or TOU Setup it is important to complete all of the Menu screens Meter Communication Menu The Meter Communication Menu performs the actual communication with the meter to download or retrieve meter configurations and Set or Get the meter s time PC Settings Menu The PC Settings Menu is used to set up the program for use with your computer s COM port and to view set the internal PC clock Help Menu JEMWare is equipped with a Help Menu to provide the user with assistance for each screen and program function Most Help screens include pop up descriptions of each function JEMWare Meter Configuration Software USING JEMWARE FIRST TIME USE Open the program by double clicking on the JEMWare icon on your desktop You
117. er Call answer parameters Communication Parameters 96 Call Purpose Reason for most recent call out Progress of most recent calls to each phone number fog omen O undefined C 9 Glossary GLOSSARY Apparent Power The product of the applied voltage and current in an ac circuit Apparent power or volt amperes 1s not the real power of the circuit because the power factor 1s not considered in the calculation A meter calculates Apparent Power V Watts VARs ARO At Rated Output Average Power Factor The ratio of kilowatt hour pulses to computed equivalent kV Ah pulses for the billing period Billing Period The period of time commonly a month between readings of a meter when those readings are used for billing a power customer Also the period of time between two consecutive demand resets Billing Period Reset A task commonly associated with the Billing Read is the Billing Period Reset The Reset causes a snapshot of register readings to be copied to storage as well as clearing Peak Demand readings and updating Cumulative and Continuous Cumulative readings You must break a seal to perform a Billing Period Reset on the front panel The Reset is recorded in the Billing Period Reset event buffer Billing Read A Billing Read is the task of reading billing information from the meter front panel If the billing information is required to be available to anyone it can be programmed into the Normal display list Se
118. er installation The diagnostic display is a polar coordinate diagram showing the three phase voltages and three phase currents The formats of the vectors are arranged to industry standards The zero axes point straight out to the right Ninety degrees is straight down Each voltage phase vector is colored red thin line arrows above its angle indicates the voltage phase angle and its length indicates the voltage magnitude Each current phase vector is colored blue thick line arrows above its angle indicates the current phase angle and its length indicates the current magnitude The color and attributes of the vectors are arranged such that both current and voltage vectors are visible at all times regardless of overlap For each vector the phase label phase angle and magnitude are displayed as text B Default cfg A E File Settings for Meter PC Communication Help olem sel Ref 2 Running Meter Diagnostic 270 Ya 117 100 Y 0 0 la 3 8004 7 0 240 300 PF 0 9925 7 0 LAG Ve Ph Watts 441 663 Ph VA 444 980 b 113 650 Y 120 0 Ib 3 700 A 116 0 PF 0 9976 4 0 LEAD 210 Ic 330 Ph Watts 419 481 Ph VA 420 505 Ye 119 200 Y 240 0 Ic 2 800 A 244 3 PF 0 9972 4 3 LAG Ph Watts 332 820 Ph VA 333 760 Va Total Watts 1193 964 Help 180 0 Total VA 1199 245 I neutral 1 986 Save i a Close 150 30 120 YP 60 90 For Help press F1 NUM 110 JEMWare Meter
119. er upper voltage limits for each phase in the Voltage Swell Threshold fields in primary volts Voltages that go above these limits will be recorded as a Voltage Swell Enter lower voltage limits for each phase in the Voltage Sag Threshold fields in primary volts Voltages that go below these limits will be recorded as a Voltage Sag For both Voltage Sag and Voltage Swell settings keep in mind that the meter s secondary operating voltage range 1s 55 to 530 volts Settings should be within those limits Enter the minimum duration in line cycles of events to be logged in the Minimum Duration field Events that are shorter than this duration will be detected but not logged If it is important to accurately measure short duration high voltages i e voltage swells higher than 10 above the normal circuit voltage or high currents i e greater than 10 above the average current over the last few seconds check the Maximize Voltage Swell Overcurrent Resolution checkbox WARNING Enabling the Maximize Voltage Swell Overcurrent Resolution feature seriously degrades the accuracy of power and energy readings at low currents See the Votlage Sag Swell Detection and Logging section of the User Manual JEMStar 1083 600 or C120 1086 381 for accuracy specifications while this feature is enabled 95 JEMWare Meter Configuration Software Totalization JEMStar The meter is able to add energy readings from external devices to Consumption measure
120. eter Password The Meter Password is used to gain access to the meter and should not be confused with the Login password 1 e Engineer and Technician levels that is used to access the JEMWare program Meter Passwords are not stored in the JEMWare configuration file they are sent directly to the meter each time access is requested The list of privileges associated with each Meter Password is stored in the cfg configuration file Only the Master meter password will allow changes to privileges If you use an incorrect password level to perform a download you will receive an error message Master Password The Master password provides access privileges for all program features The password must be exactly 6 alphanumeric characters In order to change the privilege list for Password 2 3 or 4 you must login to JEMWare using an Engineer level password Password 2 3 4 For Passwords 2 through 4 there is an associated list of features that can be selected If the user attempts an operation not allowed by the current session password that operation will fail and a failure status will be recorded in the Log for the user to view Failed operations do not affect the success or failure of subsequent operations The password must be exactly 6 alphanumeric characters Any of the following features can be separately assigned to each Password 2 3 4 Read Normal register list Read Alternate register list Read Load Profile Data Set Time Perfor
121. eter contains 4 Discrete Output registers 39 Discrete Input Registers 232 Holding registers and 53 Input registers All Holding Registers contain 32 bit data values in consecutive pairs Thus the individual Holding Registers 40001 through 40232 will contain either the High Order Word or the Low Order Word of a 32 bit data type The Input Registers of the meter are stored as signed and unsigned 16 bit integers These integers represent a value in some Engineering Unit with a Scale Factor of some number of decimal places The meter register values are visible via MODBUS as MODBUS Holding Registers The 32 bit register values are mapped as two consecutive MODBUS registers with the High Order 16 bit segment first Any or all of these MODBUS Registers can be accessed via the MODBUS Read Holding Registers 03 command however each request must be limited to 120 Modbus registers maximum The following pages show the MODBUS memory map in table form Read Output Coil Status function 01 Point list MODBUS Address PLC Address REG 00 10001 Digital Output 1 REG 01 10002 Digital Output 2 REG 03 10003 Digital Output 3 REG 04 10004 Digital Output 4 B 7 APPENDIX B MODBUS Communications Read Input Status function 02 Point List B 8 APPENDIX B MODBUS Communications Read Holding Registers function 03 Point List MODBUS PLC Signed Scale Factor Register Contents Address Address Unsigned REGO4 40005 Reserved
122. eving meter data The ANSI Standard C12 19 1997 Utility Industry End Device Data Tables or ANSI Tables describes a set of data tables that are used to represent all types of metering data The specification defines the data structures used to represent data involved in the configuration control and reading of utility meters This does not define any process or behavior it is strictly intended for data structure table definitions It is recommended that you review the Standard before operating the meter with ANSI Tables Protocol Note that the Standard does not require the entire set of Data Tables to be implemented A complete ANSI Tables Protocol Technical Reference Manual is available from AMETEK that describes all meter specific communication parameters Refer to document 1083 609 TABLE ORGANIZATION ANSI Data Tables are numbered and grouped into Decades that are associated with a particular metering function For example Decade 0 Tables 00 09 describes the end device meter configuration identification and procedural capabilities Decade 1 Tables 10 19 describes data sources such as device inputs units of measure etc Individual tables are built from basic data types that are also defined in ANSI C12 19 These basic types include Boolean integer character and floating point representations of various sizes Basic types are collected into arrays and combinations of singles and arrays are collected i
123. fault Variation 5 Point by point list attached Sends Multi Fragment Responses Yes Appendix A DNP Serial Communications Reports time tagged Binary Input Change Events when no specific variation requested Never Sends Static Data in Unsolicited Responses Never No other options are permitted Counters Roll Over at 32 Bits Other Value 999 999 999 Point by point list attached A 3 Appendix A DNP Serial Communications THE METER IMPLEMENTATION The Meter DNP implementation conforms to the standard for a Level II slave device with some additions Implementation consists of the following static objects e 38 Single bit Binary Input without flag Object 1 Variation 1 50 Analog Inputs configurable with JEMWare for either 32 bit analog input without flag points Object 30 Variation 3 or 16 bit analog input without flag points Object 30 Variation 4 e A configurable number up to 64 of 32 bit counters Object 20 Variation 5 that can be assigned to any register in the Normal or alternate display set e A corresponding number of 32 bit frozen counter without flag Object 21 variation 5 that represent the values of the counter points at the time of the last meter freeze IMPLEMENTATION TABLE The following table identifies the variations function codes and qualifiers supported by the meter in both request messages and in response messages For static non change event objects requests sent with qualifiers 00 01
124. fg file in the list and open it The parameters will be listed in comparison to the currently running file 13 JEMWare Meter Configuration Software Comparing Configuration Files File ADefault cfg File FA WEMS TAR WEMMARE WJemwareTest 9 14BETA 2 chg lt lt gt gt Print Differences Data Io EE NALOG_OUTPUTI_PARAMS watts 0 000000e 000 1 800000e0N A 1 gt ANALOG_OUTFPUTI_FARAMS VARs 1 500000e 001 9 000000e 001 4 El l ANALOG_OUTPUT2_PARAMS VARs 0 000000e 000 1 800000e 001 4 2 gt NALOG_OUTPUTE P4R4Mm5 PF 1 000000e 002 0 000000e 000 E 3 ANALOG_OUTPUT3_PARAMS Wols 0 O00000e 000 1 500000e 002 A 3 ANALOG OUTPUTS PARAMS Amps 7 000000e 001 2 000000e 001 M 4 5 l COMM_ANSWER_DELAYED_ANSWER_ WINDOWS 2 5 gt COMM_ANSWER_DELAYED_ANSWER WINDOW 5 6 l COMM_ANSWER_NDAMAL_ANSWER WINDOW 00 00 30 NEVER Monday 1 2 6 gt COMM_ANSWER_ NORMAL _ANSWER_WIMNDOW 18 0 30 WEEKLY Monday 1 3 T COMM MODEM _BAUC 9600 a COMM _MOCEM_DETAILED_SETTINGS 1 1 J COMM MODEM _INIT_STRING ATH 10 COMM_ MODEM PROTOCOL BINARY 11 COMM_OPTICAL_BAUD 9600 12 COMM OPTICAL DETAILED SETTINGS 2 1 112 gt COMM OPTICAL DETAILED SETTINGS 1 1 13 COMM_OPTICAL_PROTOCOL BINARY 14 l COMM PHONE HOME_SHARED 12 00 1 NONE Monday 1 14 gt COMM _PHONE_HOME_SHARED 12 00 0 WEEKLY Saturday 23 15 gl COMM_PHONE NUMBER1 999 9999 FALSE FALSE FALSE FALSE FALSE FALSE 2 ASCII JEMSTAR A
125. fining an event Threshold 3 See Alarms menu for defining an event Threshold 4 See Alarms menu for defining an event Retrieval See previous paragraph Site Monitor Alarm See Alarms menu for defining an event When entering the phone number be sure it is exactly as you would dial it including line access codes area codes etc You can enter up to 50 characters in the phone number field You can configure the following for each phone number Message Text String Enter your custom alphanumeric message up to 99 characters In addition to the specific message you can add the following text to implement macros in the JEMStar firmware T time of the phone home call D date of the phone home call The following macros can also be added to your message to enhance the amount of information that will be reported These macros access the information that was previously configured in the Meter Identification screen MO Label 1 default header is Meter Name M1 Label 1 User description field M2 Label 2 default header is Administrator M3 Label 2 User description field MA Label 3 default header is Location MS5 Label 3 User description field M6 Label 4 default header is Configuration ID M7 Label 4 User description field MS Label 5 default header is Account Number M9 Label 5 User description field Example D T MO0 M1 M4 M5Bank 2 outage will send the Dat
126. format 1s defined for the layout and contents of message fields The MODBUS protocol has two distinct forms RTU mode and ASCII mode RTU mode essentially means binary mode where each byte of information is transmitted as an actual 8 bit binary byte ASCII mode packages each byte in two ASCII coded hexadecimal characters In addition the two modes use different methods to calculate their checksums and message packet boundaries These methods are detailed later in this section Further information concerning MODBUS implementation standards can be found at the following website www modicon com techpubs toc7 html The MODBUS Device Address timeout and communications parameters are configured via the JEMWare software The meter will always be a MODBUS slave device COMMUNICATIONS The following MODBUS communications parameters are configurable via JEMWare ASCII or RTU mode 7 or 8 bit mode ASCII only Parity Even Odd None Baud Rate 1200 9600 19200 38400 RS 232 full duplex or RS 485 half duplex signal levels SERIAL PORT CONNECTIONS MODBUS Point to Point Connection Using RS232 This method is used for connecting the meter MODBUS directly toa MODBUS Master device The transmit and receive data pins on the MODBUS host system may vary between pin 2 and pin 3 according to the type of equipment used In applications where B 1 APPENDIX B MODBUS Communications an IBM compatible PC with a 9 pin D Type connector is used TXD i
127. gorithm 0 Demand 1 Consumption 2 Average PF 3 Peak Demand 4 Instantaneous 5 Thermal 6 Peak Thermal 7 Demand Prediction 11 is the Demand Algorithm and is used only for Demand Peak Demand or Peak Thermal Registers or Channels For Demand Registers or Channels 0 Unused 1 Past Interval Demand 2 Present Interval Demand For Peak Demand Registers O Peak Demand 1 Time of Peak Demand 2 Coincident Demand 3 Date of Peak Demand For Peak Thermal Registers 0 Peak Thermal 1 Time of Peak Thermal 2 Unused 3 Date of Peak Thermal ddd is the Display Update 0 Working value updates at any time 1 Freeze value updates on communications Freeze 2 Season value updates on TOU Season Change 3 Billing Period Reset value updates on BPR 4 Cumulative Peak Demand value accumulates on BPR 5 Continuous Cumulative Peak Demand value accumulates on BPR and Demand Interval nnnnn isa Selection Number that defines which Status ID or Time value or Totalization channel this Display Register contains For Time Registers O Present Time present value of the meter clock 1 Last BPR Time time of the last Billing Period Reset 2 Last Freeze Time time of the last communications Freeze 3 Last Season Time time of last Time of Use season change 4 Next DST Time time of next Daylight Saving Time change 5 Present Date present value of the meter clock 6 Last BPR Date date of the last Billing
128. hannels MODBUS register 1727 The number of Load Profile pulse channels max 12 currently configured in the meter B 25 APPENDIX B MODBUS Communications MODBUS Register Formats These extended MODBUS holding registers come in a variety of formats These formats are described here Int The Int type is a signed 16 bit integer number It is the basic MODBUS register Long The Long 1s two MODBUS registers sent consecutively to form a 32 bit value The first register contains the sign bit and the 15 most significant bits of the value The second register contains the remaining 16 least significant bits Time The Time format is three MODBUS registers sent consecutively to form a date time group encoded thus Upper 8 bits Lower 8 bits First register Month 1 12 Day 1 31 Second register Year 0 199 Hour 0 23 Third register Minute 0 59 Second 0 59 Mod10 x 3 The Mod10 x 3 format is three MODBUS registers sent consecutively to form a 12 digit decimal value encoded thus First register 4 least significant of 12 digits of complete value in binary 0 9999 Second register 4 middle of 12 digits of complete value in binary 0 9999 Third register 4 most significant of 12 digits of complete value in binary 0 9999 Therefore the complete value is R3 1048 R2 amp 104 R1 This format can accommodate values from 0 to 999 999 999 999 decimal Display The Display format varies dep
129. he entire 3 phase bank or common core transformer Data must be entered as VA not kVA In the following example the total is 27 000 000VA Divide the total by three phases and enter 9 000 000 in each field of the screen above When you click OK to accept the entries the number is displayed exponentially Transformer Rated Voltage Volts RMS Rated voltage of the transformer Use line to neutral voltage for 4 wire Wye Forms 6 and 9 or 3 wire Network Form 5 meter configured for network services Use line to line voltage for 3 wire and 4 wire Delta and 3 wire ungrounded Wye services Form 5 meters configured for Delta Open Delta or 3 wire Wye Transformer Fe loss at No Load PER PHASE no load loss watts at rated voltage This represents the watts loss due to the transformer core Transformer Cu loss at Full Load PER PHASE loss watts at rated voltage and rated VA This represents the watts loss due to the transformer windings Transformer Exciting Current exciting current at rated voltage expressed as a percentage of the rated VA This represents the VA loss due to the transformer core Transformer Impedance impedance at rated voltage and rated VA expressed as a percentage of rated VA This represents the VA loss due to the transformer windings Line Resistance Enter the total DC resistance in ohms of the lines between the transformer secondary and the CT primary Note The Line Loss entry is not required for JEMWare to calculate T
130. he sum of the first register and the number of registers is either greater that Ox3F or results in the request of only one word of any 32 bit quantity an Illegal Data Value exception is generated An Exception Response is the meter s Device Address the function value with the High Order Bit set to 1 and the Exception Code followed by either the LRC ASCII mode or the CRC RTU mode For example in RTU mode an Illegal Data Address exception to a function 03 request would be B 5 APPENDIX B MODBUS Communications Exception Byte I Meter Device Address 2 MarkedFunction Code Exception Code High Order Byte CRC Low Order Byte CRC TIMEOUTS RTU Mode The timeout period from the reception of a matching Device Address until that message is completed is software assignable using JEMWare software If a timeout occurs the portion of the message already processed 1s discarded and the meter will again look for a matching Device Address The default timeout is 1 second but can be configured for 100 to 65000 mS ASCII Mode In ASCII mode the timeout is meaningless to the meter since it is always the SLAVE Device Whenever a colon character is encountered the MODBUS logic automatically interprets it as the start of a new message and discards any portion of the previous message Similarly if a timeout were to occur any portion of the previous message would be discarded and the logic would wait for the next colon cha
131. her a serial printer hooked up to a modem or a computer running terminal emulation software such as PROCOMM Note that phone communication is discontinued immediately upon restoration of power Therefore if power is restored during a call sequence the phone home function will not be completed The Load Profile report will show an entry for the time of power failure and the time of restoration Power Outage Phone Home Settings Dial Type Pulse Phone Number 1 Phone Number 2 Phone Number 3 Phone Number 4 Phone Number 238 4061 Message String JEMSTAR Power Lost III Maximum Dial Attempts 2 Event Reporting Option DTMF t Tone caca o Configure the necessary information for the Phone Home Power Outage modem Dial Type Select whether the meter will use pulse or tone dialing when calling any of the phone numbers 50 JEMWare Meter Configuration Software Meter Phone Numbers 1 2 3 4 You can dial up to four separate phone numbers each with its own message Each phone number can be set for Enable or Disable thus keeping a library of numbers and only using ones that are necessary at this time When entering a phone number be sure it is exactly as you would dial it including line access codes area codes etc You can enter up to 50 characters in the phone number field You can configure the following for each power outage phone number Message Text String Enter your custom alphanumeric
132. hold 3 alarm condition is present 9 1 Threshold 4 alarm condition is present 8 1 reserved 7 1 reserved 6 l reserved 5 l reserved 4 1 reserved 3 1 Phase C voltage active 2 1 Phase B voltage active l 1 Phase A voltage active e VT Ratio MODBUS registers 1710 1711 The meter s configured external Voltage Transformer ratio multiplied by 1000 e CT Ratio MODBUS registers 1712 1713 The meter s configured external Current Transformer ratio multiplied by 1000 e W VA Wb VAh Primary Unit of Measure MODBUS register 1714 A power of ten showing the configured Unit of Measure for Real and Apparent power and energy measurements 0 units watts VA 3 kilo units 6 mega units B 24 APPENDIX B MODBUS Communications 9 giga units VAR Q VARh Qh Primary Unit of Measure MODBUS register 1715 A power of ten showing the configured Unit of Measure for Reactive and Q power and energy measurements 0 units VAR Q 3 kilo units 6 mega units 9 giga units Volt Primary Unit of Measure MODBUS register 1716 A power of ten showing the configured Unit of Measure for Volt measurements 0 units volts 3 kilo units 6 mega units Amp Primary Unit of Measure MODBUS register 1717 A power of ten showing the configured Unit of Measure for Amp measurements 0 units amps 3 kilo units 6 mega units Volt Primary Squared Unit of Measure MODBUS register 1718 A power of ten
133. iguration and display it as the currently open configuration file If you have not already entered the meter s password you will be prompted to enter 1t now Click OK when finished Meter Password N l l Cancel This ig the password this program will send to the meter when sending commands This will not change to the meters current password During the read you will see a Progress indicator on your screen Ed When the progress indicator is finished you will see the configuration file name at the bottom of the screen change to Untitled cfg The data is not saved until you initiate the File Save As command and save the data as a configuration cfg file NOTE You may use the latest version of JEMWare to open a configuration file saved with a prior version or to read the configuration from a meter that was programmed with a prior version If you do this however you must verify all settings in the configuration before saving it or programming it into a meter Verify the settings by opening each item in the Meter Settings menu and reviewing the settings This allows you to be confident that the correct settings are in place and also allows JEMWare to insert appropriate default settings for features that may not have been present in the older version of JEMWare Disconnect This choice will end the communications connection between the PC and meter 105 JEMWare Meter Configuration Software Read Register
134. igured registers with the up down arrows then entering an upper and lower limit where the alarm will trigger and reset respectively Threshold and Site Monitor Alarms Ea Site Monitor Alarms Threshold Alarms lM Threshold Alarm 1 I Threshold Alarm 2 0 l Cons WH ADET wk i 00 PRD Amp A Ewik Register El ons Register T Amp Active Polarity Active Polarity Upper fioo te Closed Open Upper 200 te Closed Open Active Polarity Active Polarity Closed Open C Closed f Open W Threshold Alarm 3 Regie mo PKT Ww ADE Wk peace i 51 a CndD WA ARE wk Active Polarity Active Polarity Upper 200 C Closed Open Lipper aoo C Closed Open Active Polarity Active Polarity Lower 20 Closed Open Lower g Closed Open Cancel Help Note The Active Polarity Open Closed of the Lower Threshold must be opposite of the Upper threshold polarity Contact Input Output Contact Input Output JEMStar Input Channels This screen is used to assign the operating Channel 1 interval Sync conditions of the Contact Input and Output ION Extemal Enery Bl channels TOU Override Fate fa z n p uts Output Channels There are two Contact Input channels Channel 1 Energy Pulse Nom Open m Hr Settings available on both types of I O board The Channel Energy Pulse Nom Open WHr Settings inputs require a switched external voltage Channel 3 Energy Pulse Nom Open VA
135. ion Software Optical Use this setting 1f you are connecting with an optical probe such as the Scientific Columbus Model 5282 or GE Smart Coupler These pickups use a quick connect magnetic attachment to the front of the meter and the globe can remain attached or be removed during communications Consult the manuals provided with these devices for operating instructions PC Clock nd Properties HEI Date amp Time Time Zone Date Time This selection displays the current Date and Time that A A y is running on the computer and simply mimics the E y standard Windows display You can change the PC 2 sii time and date from this screen To set the meter time 2 10 112 131415 IAS and date go to the Set Meter Time menu id ir Current time zone Eastern Daylight Time Cancel 114 JEMWare Meter Configuration Software CONNECTING TO A METER Step 1 Connect the Hardware You can connect a meter to your computer using any of the following methods Direct Connection uses your computer s RS 232 COM port wired directly to the RS 232 port on the meter This is the simplest method but limits the distance to about 50 ft RS 45 DB 9 ADAPTER TEEPE COMPUTER SERIAL PORT 9 PIN RJ 45 DATA CABLE TO METER COMMUNICATION PORT You can also create an RS 485 network to connect one or more meters to your computer at a time which will increase the maximum cable distance to abou
136. ional Totalization channel with no TOU Rate selected and record it in Load Profile 99 JEMWare Meter Configuration Software METER COMMUNICATION The Meter Communication menu is used to set up all Meter Communication the parameters necessary to talk with the meter After Meter Password you have created a configuration file for a meter using Change Meter Password the Meter Settings menus previous these items are used to transfer that configuration file to the meter Se PN me o Write Meter Contig Ctrl 3 This menu also includes functions for retrieving meter ReadMe Conio Chl 4 health and status information Note that JEMWare does eoad Ctrl not retrieve Load Profile and other stored register data 7 You will need JEMRead or MV 90 software to perform Mean Cosel Set Meter Time h functions those functions Get Meter Time Freeze Health Check Site Monitor Status Status Query Diagnostics Heter Password Meter Password This menu is used to enter the six digit Meter password which is required to send Cancel This is the password this program will send and retrieve data You must first establish to the meter when sending commands This will not change to the meters current a connection to the meter before you can password enter the password see the Connect menu If you do not enter a password before a communication session JEMWare will prompt you to enter it before data
137. ist and select the next one in the list MODBUS ASCII ANSI TABLES Device address cancel List of Protocols Visit each protocol in the list and make sure that it has the correct number of max connections for your needs When you are finished save your configuration and then send it to the Ci20 In most cases you ll need to configure the meter for the first time using a serial port but if you know the meter s network address and port setup it is possible to configure the meter via the Ethernet interface If you try to configure a meter for more than 4 simultaneous connections JEMWare will display a warning when you send the configuration to the meter It will still send the config but once the first 4 connections have been assigned all further port assignments are ignored Ports are assigned to protocols in the order of the list shown in List of Protocols Display Setup Use this configuration menu to set up how the meter LCD will display information Configuration Preset Mode timeant li 1 60 mirn Preset Mode Timeout Test Mode timeout 301 1000 min Enter a number 1 60 for the number Demand Reset lockout 0 60 minj of minutes that the LCD will display a Display s Backlight Timeout Always Off Preset quantity before automatically E Display s Number of Digits 6 digits Jeading blanks returning to the standard display mode a M Dizplay s Scroll Rate sec 5 Test Mode Timeout Date Format MMDD
138. ithin the message Ifa greater interval occurs the receiving device assumes that an error has occurred B 4 APPENDIX B MODBUS Communications Typical meter ASCII Queries Start character PO Communication Errors Communication errors consisting of an illegal character in ASCII mode a Parity LRC or CRC error will result in the message causing the error to be ignored by the meter The MASTER Device will timeout and retransmit the message Exception Responses The meter MODBUS implementation can produce 1 of 3 possible exceptions e Illegal Function Exception Code 01 e Illegal Data Address Exception Code 02 e Illegal Data Value Exception Code 03 An Illegal Function is self explanatory If the meter receives a MODBUS query that contains a function that it does not support anything other than 01 02 03 04 03 15 or 16 an Illegal Function Exception 01 will be returned The Data Address is the Holding Register or Input Register address For example an Illegal Data Address for a Function 03 command would be either a register value greater that OxE7 or a register value that begins at the second word Lo Order Word of a 32 bit quantity An Illegal Data Address for a Function 06 command would be any register other that 0x16 The meaning of the Data Value depends upon the command The Data Value for a Function 03 command is the number of Holding registers requested starting with the first Data Address register If t
139. ived PF at Peak VAR Delivered at last BPR Amphours PF at Peak VA Delivered at last BPR Volt Squared hours e Watt Delivered Predicted Demand Amp Squared hours VAR Delivered Predicted Demand Average PF Delivered Phase A e VA Delivered Predicted Demand Average PF Delivered Phase B Average PF Delivered Phase C Average PF Delivered Polyphase Average PF Received Phase A Watt Delivered Past Interval Demand VAR Delivered Past Interval Demand VA Delivered Past Interval Demand Amp Phase A Past Interval Demand Amp Phase B Past Interval Demand Amp Phase C Past Interval Demand Neutral Amp Past Interval Demand Peak Demand Watt Delivered Peak Demand VAR Delivered Peak Demand VA Delivered Peak Demand Amp Phase A Peak Demand Amp Phase B Peak Demand Amp Phase C Peak Demand Neutral Amp Peak Demand Watt Delivered at last BPR Peak Demand VAR Delivered at last BPR Peak Demand VA Delivered at last BPR Time of Peak Demand Watt Delivered Time of Peak Demand VAR Delivered Time of Peak Demand VA Delivered Time of Peak Demand Amp Phase A a 00 Appendix A DNP Serial Communications Other data formats that may be assigned to display registers include e Time and Date registers are represented as seconds since midnight 1 1 70 e Diagnostic and String register types will be represented as O e Status registers will be represented as a direct 32 bit mask value The corresponding frozen counter object is implemented as Object 21 Variation 9 The
140. l 1f a sliding window has been selected has ended Site Monitor Alarm Select and a single contact closure is generated when a Site Monitor alarm is activated Refer to the Alarms section for setting the Site Monitor conditions Threshold Alarm Select and a single contact closure is generated when a Threshold alarm is activated Refer to the AlarmsError Reference source not found section for setting the Threshold alarm conditions Sag Swell Alarm Select and a single contact closure is generated when a Voltage Sag or Swell alarm is activated Refer to the Voltage Sag Swell section for setting the sag swell conditions System Error Alarm Select and the contact output channel closes if a System Error e g a Battery Warning is detected Performing a Billing Period Reset on the meter clears all System Error indications External Status Monitors an external contact and report its open closed status in the Load Profile External Energy Pulse Records KYZ pulse outputs from another meter and report them as Load Profile in the C120 TOU Rate Override Sets an external contact closure to trigger a forced override of the current Time of Use rate When this type of Pulse Input is active it switches the pre existing TOU rate programmed in the Time Of Use menu to the one set on this window As long as the external contact is closed the override rate is in effect When the contact opens the meter automatically reverts to the schedule
141. l associated with a TOU rate create a Totalization channel with no input channels and record it in Load Profile 97 JEMWare Meter Configuration Software Totalization Ci20 The meter is able to add energy readings from external devices to Consumption measurements taken by the meter itself and display the result To configure this feature use the Totalization dialog Totalization Totalization Y Totalization 6 Totalization 9 Totalization 10 Totalization 11 Totalization 12 Totalization 1 Totalization 2 Totalization 3 Totalization 4 Totalization 5 Totalization 6 Measurement Quantity Input Channel Pulse Weight Zero Channel 1 Phase Phase A Channel 2 Direction Channel 3 Delivered TOU Channel 4 A El Channel 5 Channel E Load Profile Uncompenzated Cancel Help There are twelve Totalization channels each having a tab at the top of the screen Choose the tab for the channel you wish to configure then enter the following information Measurement Quantity Choose an integrated measurement from the pull down list This quantity is measured directly by the Ci20 and added to the Totalization channel s contents continuously If you want to display only energy measured outside the Ci20 1 e only from external pulses select Zero Phase Choose an input element phase or Polyphase for the total of all elements When adding or subtracting the pulse energy from the input chose whether
142. l of the I O functions of the meter Register Freeze A command that can be issued by the user to move recorded data into storage registers for the purpose of downloading or retrieving the information at a certain instant The meter will continue to record data without interruption RMS Root Mean Square the equivalent DC value of a periodic AC signal 5 amps RMS delivers the same amount of power to a given load as 5 amps DC Rolling Interval Sliding Window A demand measurement consisting of the summation of values calculated over multiple consecutive subintervals A calculation is updated at the completion of each subinterval but includes a defined number of previous subintervals Season A season is a range of dates whose start date is contained in the season schedule in seconds time format Season Schedule A season schedule is an array of dates within the TOU schedule that enables the meter to identify the seasons Seconds Time Format A 32 bit number in units of seconds referenced from January 1 1990 Special Event An event stored in load profile data such as a register freeze power fail time set etc Storage Register A copy of a quantity which could be a displayable register and is saved when triggered by a demand reset Subinterval The increment of time in which demand calculations are updated THD Total Harmonic Distortion a measure of the amount of harmonic content in a periodic signal expressed as a percentag
143. lity to call originate and to answer incoming phone calls Communications Optical Seria Modem Serial2 Modem To configure JEMStar s internal modem open the II a Serial Communications menu and select the Modem Serial2 page Choose the Modem radio button then click on Settings Cancel OF Mod Use the pull down menu to choose the baud rate that i you want to use for modem communications The Protocol Type should be set for Binary unless you are using ANSI Tables Modbus or DNP 3 0 Protocol Type BINARY sv Details Answer Settings Phone Home Settings Power Outage Phone Home Settings Cancel Baud Rate A Click the Details button to configure the following parameters Binary Details for Modem Network Address E 0 65534 Password Time Out f a 1 60 min Modem Init String ATH carcel Heb Network Address Assign a unique number for each meter to be connected on a single network Only numbers 0 254 are valid addresses for connecting JEMWare to a meter Password Timeout Once communication commands have ceased the timeout cycle will begin Assign an amount of time that the meter will wait before the active session times out When the timeout takes place you must re enter the meter password before communications can continue 46 JEMWare Meter Configuration Software Modem Init String Use the standard default shown unless you have a special req
144. lization of Display Register or Load Profile channel 1 Quantity Type Describes the measurement quantity of a Numeric or Totalization Used only if Reg Type is Display Register or Load Profile channel Numeric or Totalization otherwise contains zero 2 Demand Quantity Type If this Display Register is a Coincident Demand this describes the Used only if Reg Type is measurement quantity of the Peak Demand associated with it Numeric Coincident Demand to indicate quantity of associated Peak demand Otherwise contains zero This describes how the Display Register or Load Profile channel data is to be interpreted and formatted for display 4 Reg ID Number The Identification number assigned by the user to this Display Register or the Load Profile Channel Number displayed with this Display Register This will contain all nulls for Load Profile channels Text Description 20 bytes of text padded with nulls that the user assigned to be Reg Type The Reg Type register contains a number of bit fields that describe the basic type of the Display Register or Load Profile channel Reg Type MSB gt tttaaalldddnnnnn lt LSB Where ttt 1s the Register Type B 28 APPENDIX B MODBUS Communications 0 Numeric Power Display Register or Channel 1 Time Display Register 2 Status Display Register 3 ID Display Register 4 Unused Register 5 Totalization Display Register or Channel aaa is the Display Register or Channel Al
145. lti Data link Confirm Retries 10 0 255 C Application Confirm Timeout 11 0 16776961 ms ae Time Set Tolerance Class 0 Counter Type Analog Input Yaratan Restrict counter values to le digits M Running Object 20 0 10 a ee I Frozen Object 21 Register ID Description Internal 0 Wh Del Poly Internal 14h Rec Poly Internal ARh Del Poly Internal 3 MARh Rec Poly Normal 1 Cons w H P DE T Mormal 2 Cons M RH P DE T Mormal 3 Cons MH FP RE T Normal 4 Cons MARH P RE T Alternate 101 Cons WH POE Alternate 102 Cons VARH P DE Alternate 103 Cons wH PRE A 00 00 MD MA oo Pi oo 5 Now configure the parameters at the top of the screen The following paragraphs define these fields Write Time Interval This field sets up a time synchronization request The number of minutes between time sets requested from the master is specified here Zero 0 means that no time sets will occur Data Link Confirm Timeout 17 JEMWare Meter Configuration Software Time in milliseconds to wait for master Data Link confirm of the last frame sent before doing retries only if frame sent with confirm requested Data Link Confirm Retries The number of times the meter will re transmit a confirmed data link frame before aborting the transaction Application Confirm Timeout Required for multi fragment responses or event data Note If Application Layer Confirms is used with Data
146. ly use the C12 21 Telephone Modem protocol For connection details refer to the section titled Communication Ports in Chapter 2 of this manual Direct connect RS 232 or RS 485 Port If a meter is configured for ANSI Tables on an RS 232 or RS 485 port it will automatically use the C12 21 Telephone Modem protocol For connection details refer to the section titled Communication Ports in Chapter 2 of this manual C 3 Appendix C ANSI Tables Communication SUPPORTED DATA TABLES Only the following Tables are supported in the meter Rows shaded in gray are either undefined by the ANSI C12 19 Standard or not supported by the meter Decade 0 Decade 0 Device Configuration Identification and Procedure Tables Table Title Description No General config General info on end device configuration data formats Manufacturer ID Manufacturer HW and FW revision numbers Device Nameplate Nameplate data form class voltage freq etc Device Device serial number Identification Utility Utility and installation identification Information Procedure Initiate Activate device procedures BPR etc Procedure Results of previous Procedure Initiate Table 07 write Response undefined Pt Supported Procedures in Table 07 Procedure Initiate Number 3 Clear Data Erase Registers amp Load Profile retain Configuration try to retain Event Logs e Lie Device Mode AA o se OO Status Flags AAA lone TT
147. m Billing Reset Enter Test or Calibrate Mode Preset Registers Configure meter identity ID strings CT PT ratios etc and Comm parameters Configure TOU schedule Change the Password for the active level only Configure Miscellaneous everything not listed above except passwords Read Configuration Data 85 JEMWare Meter Configuration Software Meter Passwords 86 JEMWare Meter Configuration Software Loss Compensation Transformer Loss Compensators are defined in the IEEE Standard Dictionary of Electrical and Electronic Terms reference 1 to be A n electric network that is connected in series parallel with a meter to add or subtract from the meter registration active or reactive components of registration proportional to predetermined iron and copper losses of transformers and transmission lines Typically power dissipated in the transmission lines and in the cores of transformers cannot be measured by meters connected to the transformer secondary circuits The technique of Transformer Loss Compensation has been developed over the years to electrically or computationally account for the lost active and reactive power A set of equations has been derived which describes the amount of active Watts and reactive VARs power lost due to both copper and iron effects Loss Compensation in the meter is a mathematical method used to determine the amount of power loss in a transformer and power lines This is a sig
148. mand Load Profile Interval Timing settings e Load Profile channel assignments JEMWare Meter Configuration Software Energy Pulses The Energy Pulse feature will be re initialized if these configuration sections are changed e Energy pulse channel assignments SECURITY KEYS Meters include two security keys to protect the meter from tampering and unwanted access to meter functions There are two removable jumpers keys located inside the meter on the Metrology board One security key is used to disable all configuration changes from the front panel keypad menus plus the following serial port commands when accessing the meter via JEMWare Numbers shown in parentheses are the hex equivalent of the command in JEM binary see Command Protocol manual 1083 803 Enter Test Mode 4D 01 Preset Normal Registers 57 01 Preset Alternate Registers 57 02 Configure Timekeeping 43 07 Configure Interval Timing 43 08 demand and Load Profile intervals Configure Demand Parameters 43 09 subinterval length outage deferral Configure Load Profile 43 0A Configure Pulse I O 43 0B Configure Analog Outputs 43 0C Configure Primary Scaling 43 OD Configure Normal display List 43 OE Configure Alternate Display List 43 OF Configure Test Display List 43 10 Configure TOU Schedules 43 12 Configure TOU Seasons 43 13 Configure TOU Holidays 43 14 Configure Loss Compensation 43 15 Configure Reactive Selection 43 16 Configur
149. mand and values selected by Table 27 Data undefined 25 Previous Demand Register Data as of most recent Demand Reset Reset Data C 5 Appendix C ANSI Tables Communication Decade 3 Decade 3 Local Display Tables Dimension Maximum dimensional values for local display operation Display Limiting Actual Display Actual dimensional values for local display operation Display Source Select source data for local display Primary Display Configuration of Primary display list data timing scroll etc List Secondary Configuration of Secondary display list data timing scroll etc Display List 38 undefined 39 undefined No 30 31 32 33 34 35 36 37 38 39 Decade 4 Decade 4 Security Tables Table Title Description Read Write Dimension Maximum number of passwords and security access levels in end Security Limiting device Actual Security Actual number of passwords and security access levels in end Limiting device No i OS Ko 2 Security Passwords Read Write and Execute permission flags ORO i i 5 OR 6 me 8 9 Control included in Table 44 Access Control Table and procedure access permissions for tables not using default access control R R R Key Authentication and or encryption keys R undefined undefined 48 undefined E undefined AMAN l Default Access Default table and procedure access permissions for tables not
150. ments taken by the meter itself and display the result To configure this feature use the Totalization dialog Totalization E4 Totalization Totalization 8 Totalizatian 3 l Totalization 10 Totalization 11 Totalization 12 Totalization 1 Totalizatior 2 Totalization 3 Totalizatior 4 Totalization 5 Totalization E Measurement Quantity g Hr Phaze Phase Input Channel Pulse Weight Channel 1 None jo Channel 2 Mone ss op Channel None flo Channel 4 None o Direction Delivered TOU a sl Channel 5 None o Channel 6 None o Channel 7 None o Channel 8 None o Tes Uncompensated Load Profile 0 Cancel Help There are twelve Totalization channels each having a tab at the top of the screen Choose the tab for the channel you wish to configure and then enter the following information Measurement Quantity Choose an integrated measurement from the pull down list This quantity will be measured directly by the meter and added to the Totalization channel s contents continuously If you want to display only energy measured outside the meter i e only from external pulses select Zero Phase Choose an input element phase or Polyphase for the total of all elements Direction Choose a direction of power flow TOU Choose a Time of Use rate period during which to accumulate energy or Total to accumulate continuously 96 JEMWar
151. meter The DNP code used in the JEMStar does not support multiple ports All other meter protocols may be assigned to any number of ports in the JEMStar e Every JEMStar serial protocol requires a serial device address just as if it was being used on an RS 485 network For convenience it is recommended to use 1 for all virtual port serial addresses A typical virtual port configuration may look like this Binary Protocol IP Port number 2001 Max connections 2 Device address 1 MODBUS RTU IP Port number 2002 Max connections 1 Device address 1 DNP IP Port number 2003 Max connections 1 Device address 1 ANSI Tables IP Port number 2004 Max connections 0 Device address 1 MODBUS ASCII IP Port number 2005 Max connections 0 Device address 1 55 JEMWare Meter Configuration Software DPMS IP Port number 2006 Max connections 0 Device address 1 This configuration will allow up to 2 Binary connections one DNP connection and one MODBUS RTU connection simultaneously assuming the Modbus and DNP protocols were purchased with the meter It will block all other protocols The JEMStar default configuration is to use DHCP to obtain an automatic IP address and uses Binary Protocol on port 2001 max connections 4 device address 1 All other protocols are set for max connections 0 Configuring the JEMStar Ethernet Interface JEMWARE is used to program the JEMStar meter including the Ethernet interface Use the Meter Settings Serial Commu
152. n Power Outage Settings 61 JEMWare Meter Configuration Software Answer Settings This 1s the standard setting used when you want to call the meter from a remote computer with a dialup modem Answer Settings Screen Answer Settings Normal Answer Window Answer Window Stark pa Duration 60 1 1439 min Frequency C Never f Every Day One Day Each Week f One Day Each Month Humber of Rings to Answer 2 Delayed Answer Window Number of Rings to Answer 3 Answer Settings Screen The following fields are available Normal Answer Window A user selectable period of time when C120 expects to receive a call Answer Window Start This time specifies the beginning of the answer window Duration Specifies the length of the window and therefore the stop time of the answer window If a call is received outside this answer window the meter answers after the number of rings specified in the Delayed Answer Window field The maximum duration that can be accepted is 1439 minutes Frequency Defines the window as to day or date Number Rings to Answer Defines when the modem answers 1f the call occurs within the Answer Window time period If O is selected the modem never answers Choices are 0 20 Delayed Answer Window Defines when the modem answers if the call is not within the Answer Window If O is selected the modem never answers Choices are 0 20 62 JEMWare Meter Configuration Software Pho
153. nalog input without flag object 30 Var 3 points or 16 bit analog input without flag object 30 Var 4 points Refer to Appendix A for the complete list of points Restrict Counters to lt N gt Digits A meter register configured as a DNP Counter point may contain a value as large as 999 999 999 nine digits Some DNP master devices cannot accept counter values this large You may use this field to configure a meter to restrict the reported value of Counter points to 3 4 5 6 7 or 8 digits or allow the full 9 digit precision to be reported 78 JEMWare Meter Configuration Software Restricting the number of digits reported affects only DNP counter points not the actual display registers 6 The bottom half of the screen is used to configure which data will be sent to the DNP Master Since the DNP data usually depends upon your Display Register settings the display registers Normal and Alternate should be configured before proceeding with DNP Once the display registers are determined fill in these columns from left to right Point There are 64 DNP points sent during a communication session numbered 0 63 You can arrange the sequence of your transmitted data by assigning the first data to point 0 next to point 1 etc Register Set This determines which meter register group will be used to assign data to the DNP point The choices are e Unused default setting Instructs DNP that no data is sent related to this p
154. ne Home Settings Instructs the C120 to call a phone number and report a predetermined text message The call is initiated upon a user defined event occurrence such as a Site Monitor alarm or Threshold alarm Phone Home Setting This feature allows C120 to call any of four specified numbers if any of the selected events occur The meter can have four different phone numbers programmed to call Each phone number has an associated alarm event assigned to 1t This event determines the action the meter takes when calling the number The meter sends a text string in a user selectable format indicating which meter called the time the call was initiated and the event s that occurred This allows the phone home features to be utilized without the need of any special software or system All that is required is either a serial printer hooked up to a modem or a computer running terminal emulation software such as PROCOMM The meter can also communicate via a serial protocol such as DNP 3 0 or ANSI Tables provided it is equipped with the option This is useful if you are using a data management program such as MV 90 Phone Home Settings Dial T as Phone Nurnber 1 Phone Number 2 Phone Number 3 Phone Number 4 Phone Number 999 9999 Retrieval Call Message String JEMSTAR Automatic Message Retrieval Call Ti 1200 SMeval Lall ime Maxinurn Dial Attennpts 12 Frequency Event Reporting Option las Cll had f Never Threshold 1 Retrie
155. neous Register Thermal Demand or analog outputs Integrated Quantities Integrated quantities are power measurement quantities that are integrated over time and which may be accumulated Integrated quantities are used for developing Consumption Fixed or Sliding Window Demand Peak or Coincident Load Profile or pulse outputs Interval A period over which a demand is calculated consisting of one or more subintervals IRLED Infrared light emitting diode such as the optical port on the meter GLOSSARY 3 Glossary Ke Kh Km Kt See Energy Constant KYZ A meter output that indicates energy by toggling a Form C contact output at a frequency proportional to power flow Each transition represents some constant amount of energy typically referred to as Ke energy constant that has been consumed A meter mimics this function by allowing the user to configure two solid state contact outputs into a similar arrangement LLC Line Loss Compensation the ability of an instrument to measure or calculate the power lost in an imperfect conductor and to use that figure to modify its power or energy readings Liquid Crystal Display LCD Display area on the meter face that contains alpha numeric characters for data readout Load Linearity Specifies the maximum deviation of performance in percent registration over a range of current load assuming all other conditions at nominal reference conditions Load Profile A record of energy
156. neous Uncompensated Watts 31800 to 32768 to A S REG 61 30098 Instantaneous Uncompensated VARs 10600 to 3276 to A S REG 62 30099 Instantaneous Uncompensated VARs 10600 to 39768 to A E B 17 APPENDIX B MODBUS Communications MODBUS PLC Register Contents Engineering Scaled Address Address Units Range Range O A Phase C Bidirectional 10600 VAR 32767 REG 64 30101 Instantaneous Uncompensated VARs 31800 to 32768 to Polyphase Bidirectional 31800 VAR 432767 Extended Holding Registers function 03 The meter contains a number of Holding Registers that facilitate its use in energy monitoring and management systems and to provide limited access to Load Profile data This section describes those registers and their interpretation They are read using Function Code 03 the same as the basic Holding Registers MODBUS Meter Parameter Units Format Number of Register Registers o mstantaneous COI 1000 Amps phase A Primary milli amps 1002 Amps phase B Primary milli amps 1004 Amps phase C Primary milli amps 1006 Amps phase N Primary milli amps 1008 Amps polyphase Primary milli amps 1010 Volts L L phase A B Primary milli amps Volts L L phase B C Primary milli 1012 volts Long Long ES ES O O O 5 5 5 ys va ys Volts L L phase C A Primary milli 1014 volts Volts L L polyphase Primary milli 1016 volts ES O ys 2 2 1020 Volts L N phase B N Primary milli gt volts 1022
157. nfigure Ci20 s internal modem 60 JEMWare Meter Configuration Software Use the pull down menu to choose the baud rate that you want to use for modem communications Set the Protocol Type for Binary unless you are using ANSI Tables Modbus or DNP 3 0 Communications Optical Seriall Serial2 Modem Ethemet Baud Fate Protocol Type BINARY Details Answer Settings Phone Home Settings Power Outage Phone Home Settings Modem Settings Click Details to configure the Binary Details Binary Details for Modem Binary Details for Modem Network Address il 0 65534 Password Time Out 1 0 1 60 min Modern Init String ATH cancel Hee Binary Details for Modem Network Address Assign a unique number for each meter to be connected on a single network Only numbers O 254 are valid addresses for connecting JEMWare to a meter Password Timeout Once communication commands have ceased the timeout cycle begins Assign an amount of time that the meter waits before the active session times out When the timeout takes place you must re enter the meter password before communications can continue Modem Init String Use the standard default shown unless you have a special requirement The complete AT command set is listed in Appendix A of this manual The C120 internal modem can be used to perform three categories of communications e Answer Settings e Phone Home Settings e Phone Home o
158. nication Ethernet tab in JEMWARE to set up the desired Ethernet operation The first screen is used to set the Ethernet address of the meter Enter the IP address Subnet mask netmask and default gateway addresses provided to you by your network administrator or check the Use DHCP box to have the meter obtain these values automatically Communications IF address Subnet mask Default gateway Figure 6 Ethernet address setup To set up the serial protocol ports click Protocols Enter the desired port number max connections and device address for Binary Protocol Protocols a E x Protocol BINARY bl IP port number 2001 Max connections i Device address li Cancel Figure 7 Binary Protocol setup 96 JEMWare Meter Configuration Software To set up other protocol ports pull down the Protocol list and select the next one in the list Figure 8 List of protocols Visit each protocol in the list and make sure that 1t has the correct number of max connections for your needs When you are finished save your configuration and then send it to the JEMStar In most cases you ll need to configure the meter for the first time using a serial port but if you know the meter s network address and port setup it is possible to configure the meter via the Ethernet interface If you try to configure a meter for more than four 4 simultaneous connections JEMWARE will display a warning when you send the
159. nificant factor when you are using the meter to measure a large load secondary side and the utility billing point is prior to the transformer primary side Transformer losses such as hysteresis and eddy currents will affect the reading obtained at the meter and create a deviation from the utility reading Power transformers are tested for losses by the manufacturer prior to shipping and test results are usually provided for each transformer You will need specific data concerning the transformers involved If specific test reports are not available you may be able to obtain information from the transformer data plate When the proper information is entered on the Loss Compensation screen the meter will calculate and add or subtract the transformer and line losses to the actual reading at the meter The resultant output of the meter will accurately reflect the amount of power used prior to the transformer Loss Compensation is an optional configuration and can be enabled or disabled at any time 87 JEMWare Meter Configuration Software Using Loss Compensation Choose the Loss Compensation menu and the following screen will appear Loss Compensation settings Transformer Delivered Transformer Received Percents Delivered Percents Received Constants Data Entry Settings Values Type f Enterfor Total System C Enter For Each Phase Recelved Losses M Enable Add to measured quantity Delivered L
160. nitor the network bus continuously this silence interval can be used to identify the beginning of a new message with the first field of a new message being the Device Address Devices that use the silence interval to detect a new message expect the entire message frame to be transmitted continuously and do not allow a silent interval of more than 1 5 characters to occur before completion of the entire message The meter MODBUS implementation does not monitor the network bus continuously and thus will not detect any silence interval Consequently the strict rules about silence intervals will not be enforced The start of a new message will be detected using a synchronization algorithm Typical meter RTU Queries Query Field Read Holding Regs Force Single Coil Device Address Register Address 00 04 00 01 Regs Preset Value 00 06 FF 00 Error Check CRC XX XX XX XX ASCII MESSAGE FRAMING In ASCH mode messages start with a colon character ASCII 3A hex and end with a carriage return line feed pair ASCII OD amp OA hex The carriage return line feed pair is optional The allowable characters transmitted for all other fields are hexadecimal 0 9 and A F SLAVE Devices monitor the network bus continuously for the colon character When one 1s received each device decodes the next field the address field to determine if the query is directed at it Intervals of up to one second can elapse between characters w
161. nter Rates Holiday Schedule 4 d Description 0170171999 al New ears 05301999 Holl Memorial Day O1 01 2000 Holz Mew ears 05072000 Hole Mother s Day 05 28 2000 Hol Memorial Day IP 01 01 2001 Hol New Years _Add Definite Dates 05 06 2001 Hole Mother s Day 05 27 2001 Holt Memorial Day Add Relative D ates 0170172002 Holz New ears 05052002 Holz Mother s Day Remove Selected 05262002 Holl Memorial Day 05042003 Holz Mother s Dap Remove by Desc 050222004 Hal Mother s Day 057 0172005 Hole Mothers Day Memorial Day Remove All Mas 400 Cancel Help Note that each rate period Spring Summer Autumn Winter can have separate Hol1 and Hol2 rates Be sure that you are in the correct rate period that encompasses the holiday date when you configure the TOU rate Number of Entries 14 32 JEMWare Meter Configuration Software Timekeeping and DST Changes Use this menu to set up the meter s Time and Date functions including Daylight Savings Time DST adjustments Note that there are two pages to this screen The first one to appear 1s the Timekeeping page Click the tab labeled DST Changes to set up the meter for Daylight Savings Time Auto Register Freeze Timekeeping and DST Changes Configure this Group Box for the exact time you want a Register Freeze to occur Timekeeping DST Changes Auto Biling Period Reset Frequency Monthly am DayofWeek Fiday DayofM
162. nter gain correction percentages for each voltage and current phase input 18 JEMWare Meter Configuration Software Entering a positive percentage increases the meter s registration of the corresponding signal volts or amps and all measurements that depend on it watts VARs etc The user may enter any percentage between 10 00 and 10 00 in 0 01 increments This correction does not affect the meter s factory established calibration Changing the gain of a voltage or current input will cause any single phase measurement using that input to increase or decrease by the amount of the change For example changing the Phase A Volts by 1 00 will cause all Phase A measurements to read 1 high except for amp quantities Polyphase measurements will change by the average of the changes made to each individual phase For example if Phase A Volts is changed by 1 00 Phase B Volts by 2 00 and Phase C Volts by 4 00 the change to polyphase watts is 1424 4 3 2 333 NOTE When sharing a single configuration file among multiple meters be sure to verify that the gain corrections are correct for all meters or else edit them to the appropriate value for the meter about to be programmed Gain Correction Phase Phase B Phase E VT Correction o oo Sy 0 00 a o oo he E CT Correction 0 00 E 0 00 oe 0 00 Transformer Gain Correction JEMStar Pressing this button opens another screen where the user may enter gain correcti
163. nto tables C 1 Appendix C ANSI Tables Communication COMMUNICATION METHODS Three related ANSI Standards define the protocols for transmitting ANSI Tables over various communication channels The meter is fully compliant with all communication types e ANSI C12 18 1996 Protocol Specification for ANSI Type 2 Optical Port e ANSI C12 21 1999 Protocol Specification for Telephone MODEM Communication e ANSI C12 22 Protocol Specification for Interfacing to Data Communication Networks unapproved draft ANSI Type 2 Optical Port Protocol C 12 18 ANSI C12 18 defines the physical structure and dynamic processes required to send and receive ANSI Data Tables via an optical communications interface The Optical Port Protocol describes how to establish a connection with the meter negotiate communication parameters establish user identity and privileges perform various functions and send and receive data tables Since the Optical Port cannot support multiple end devices on a single connection it makes no provision for unique device addresses ANSI Telephone Modem Protocol C12 21 ANSI C12 21 defines the dynamic processes required to send and receive ANSI Data Tables via a dial up modem connection C12 21 does not define the process for establishing a modem connection it picks up responsibility for communication after the modem connection is established The Telephone Modem Protocol describes how to negotiate communi
164. nu Program Folder in which JEMWare was placed during setup Follow the simple instructions to remove the program Method 2 Click on Start then Settings In the Control Panel double click on the Add Remove Programs icon Select Ametek JEM Ware Software from the list and click on the Add Remove button If you then click on the Yes button all files and shortcuts installed during setup will be removed JEMWare Meter Configuration Software CHANGING METER CONFIGURATIONS The meters are provided from the factory with a default configuration setting which 1s listed in the JEMStar User Manual 1083 600 and C120 User Manual 1086 381 This allows the meter to initialize and operate in its basic form however you will want to customize the configuration to your specific application and features The Meter s front panel User Interface offers several basic setup features however to make most changes in a meter configuration you will need JEMWare software Certain features of the meter are forced to be re initialized when portions of the configuration are changed This page summarizes the changes that will force a re initialization Note that when a new configuration 1s loaded into a meter the meter determines individually if each section has changed from the currently stored configuration These features are re initialized ONLY 1f the particular configuration sections are different NOTE You may use the latest version of JEM
165. oint number Normal Takes data from one of the 50 Normal display registers Alternate Takes data from one of the 50 Alternate display registers Internal Takes data from one of the 49 factory assigned Internal registers see Appendix A for descriptions of the assigned quantities Register ID amp Description Select the ID number and description of the register that you want to associate with the DNP point Valid register numbers are Normal display registers 0 99 Alternate display registers 100 199 Internal DNP registers 0 10 see Appendix A Scale Enter a positive numeric value The value of the display register associated with this point will be multiplied by this scale value when it is transmitted Meter display registers can have up to 3 decimal places but DNP deals only with integer numbers To transmit a register value with 3 decimal places it is necessary to multiply it by 1000 first 7 Select the DNP Analog Objects tab to set up your DNP Analog objects Fill in the columns for each point from left to right 19 JEMWare Meter Configuration Software Protocol Setup DNP Counters Modbus DNF Analog Objects DNP Binary Objects O 00 A MON a hi Delivered Delivered Delivered Delivered Recelved Recelved Received Received Delivered Delivered Delivered Delivered Received Recelved Recelved Received Phase E Phase C PolvPhaze Phaze 4 Phaze B Phase C PolyPhase Phase A Phaze B Pha
166. on about the cellular modem Signal strength Registration Status IP Address Phone No ESN Carrier ID Firmware Version Freeze Click this menu choice to perform a register freeze Health Check This feature will read and display the meter s Health Status and Threshold Alarms from the connected meter Also the Phase A B and C Potential Annunciators are reported 107 JEMWare Meter Configuration Software Health and Status Lt oe tf oF a d epe l The Present System page is the status of the meter at the time of the last Freeze Note that you must perform a Freeze to update the current status The Latched System page shows all indicators that have been on alarm since the last meter Reset regardless of whether they are still in the alarm condition or not Site Monitor Status This feature will read and display the meter s Site Monitor Alarms from the connected meter 108 JEMWare Meter Configuration Software Site Monitor Status Fa Present System Latched System Present site monitor status field returned 00000000 Phase Phaze B Phase C ae iT te a E iT a a ae a te a Over Voltage cf Over Voltage fr O Over Voltage O Voltage Swell ff Voltage Swell fi O Yoltage Swell O Under otage 6E Under oltage 6 6E Under oltage e E Voltage Sag A Voltage Sag SN O Voltage Sag O PF Low fi PF Low fi y PF Low fr PF High fc i PF
167. on percentages for each voltage and current phase input Entering a positive percentage increases the meter s registration of the corresponding signal volts or amps and all measurements that depend on it watts VARs etc The user may enter any percentage between 10 00 and 10 00 in 0 01 increments This correction does not affect the meter s factory established calibration Changing the gain of a voltage or current input will cause any single phase measurement using that input to increase or decrease by the amount of the change For example changing the Phase A Volts by 1 00 will cause all Phase A measurements to read 1 high except for amp quantities Polyphase measurements will change by the average of the changes made to each individual phase For example if Phase A Volts is changed by 1 00 Phase B Volts by 2 00 and Phase C Volts by 4 00 the change to polyphase watts is 1 244 3 2 333 19 JEMWare Meter Configuration Software NOTE When sharing a single configuration file among multiple meters be sure to verify that the gain corrections are correct for all meters or else edit them to the appropriate value for the meter about to be programmed Transformer Corrections Voltage Transtormer a hate Phase Bb Phase 0 00 0 00 0 00 0 00 i il Ratio 7 Phaze degrees Current Transtormer Curent Range Phase B Phase C 0 to 0 000 A Ratio 4 OO 00 Phase degrees oo oo to 0
168. onnect Optical or via a ie modem If a modem is used you must a A enter an initialization string to direct the E ae Converter ATS OFF Phone Humber Meter ATS OFF A modem to connect properly the standard Hayes ATZ string 1s provided as the default If this is an optical PC Setup probe connection be sure to COM Port COM Port 2 COM Port 3 COM Port 4 select the proper type from the pull down box Default Baud Rate seno Enter the appropriate SO heen wae vn 254 0 254 odem iA nh information for your meter Optical o Optical Probe Type 7 connection type and click OK to close the setup screen Cancel Help Meter Connection Type If you are employing RS 485 communications select the RS485 check box You will need to enter RTS Request To Send time delays in mS that are specific to the RS232 RS485 converter you are using Typically 5 to 10 mS ON and OFF is sufficient for the Black Box converter available from AMETEK but you may need to experiment with the numbers if you are using a different converter The Meter RTS OFF number should match your entry under Meter Settings Serial Communication screen M R5485 A5485 Delays 0 1 000 me Converter ATS ON o Converter RTS OFF o Meter ATS OFF o Connection Status Connected Ok Register Firmware Version 65 02 05 Metrology Firmware version 01 00 00 Click the Connect button on the Connecting screen ener
169. ontains a Long 2 MODBUS registers 1 unused register and the last register is a Scale power of 10 Display Registers only 5 Mod x 3 scale Display contains a Mod x 3 3 MODBUS registers and the last register 1s a Scale power of 10 Display Registers only 6 Load Profile channel Display contains one Value 1 MODBUS register one Multiplier 1 MODBUS register and a Scale power of 10 Load Profile channels occupy only 3 MODBUS registers Load Profile channels only d d d d is the total number of digits of the value to be displayed Only for Numeric or Totalization Display Registers c ccc is the number of decimal places of the value to be displayed and is part of the total number of digits displayed Only for Numeric or Totalization Display Registers B 32 APPENDIX B MODBUS Communications Reg ID Number The Identification number assigned by the user to this Display Register or the Load Profile Channel Number The decimal value of this number is displayed with the Display Register Text Description 20 bytes of text padded with nulls that the user assigned to be displayed with this Display Register This will contain all nulls for Load Profile channels B 33 Appendix C ANSI Tables Communication APPENDIX C ANSI TABLES COMMUNICATION INTRODUCTION The utility metering industry utility companies equipment vendors government and standards agencies has created a standardized method of retri
170. onth i H Auto Billing Period Reset is ay of Mon Time of Day 23 00 Time of Day 00 00 Frequency weekly bil Day of Week Wednesday Time of Day 12 00 Auto Register Freeze Frequency Configure this Group Box for the exact time you want to perform a BPR The Season selection will perform a BPR at every Meter Clock Sync i Line 7 Internal Time of Use season change Register 3 Cons 4H P DE T Wwk occurrence Register 2 4 Cons W H P RE TAk Register 3 5 Cons VARH P DE T Wk Register 4 13 AvPF_PF A DET Wk Meter Clock Sync Click the radio button in this Group Box to set how the meter clock will be synchronized The line frequency option is taken directly from the A phase input and automatically interprets whether the meter is 50Hz or 60Hz Internal sync uses the meter s internal crystal oscillator Self Read The Self Read function can be used in a manner similar to Load Profile whereby the meter can automatically read up to four registers on a user selected schedule Click the up down arrows to scroll through the currently configured Normal and Alternate registers The Display Register ID numbers are shown along with the register s abbreviated description Note Self Read registers should not be used a replacement for Load Profile channels Memory is very limited and only can store up to two days of readings 33 JEMWare Meter Configuration Software
171. operating conditions of the Contact Input and Output channels There are two components to this window e Configuration Tab Sets the input and output channels e Settings Configures the output channels functions where available Pulse Input Output Configuration Channels Channel MA Channel 2 Unassigned gt Channel 3 Unassigned S Channel 4 Unassigned r Channel 5 Unassigned vw Channel 6 Unassigned Cancel Help Pulse Input Output Screen 39 JEMWare Meter Configuration Software Configuration Tab Channel Select the input or output channel These types include e Inputs There are up to 6 Contact Input channels available on the I O board The inputs require a switched external voltage source of 10 40 VDC to activate them unless the internal supply option has been ordered Refer to the C120 User Manual 1086 381 for input ratings and wiring information Any of the following functions can be assigned to each Contact Input channel 40 Interval Sync Accepts an external momentary contact closure that triggers the start of a Demand Interval By wiring a series of meters to operate from the same contact closure you can synchronize the Demand Interval timing among the group You must enable this feature on the Demand Information menu by selecting a check box on that screen End of Demand Interval Select and a single contact closure is generated that indicates when a Demand interval or sub interva
172. or Amps select one choice of A B C N or Poly 29 JEMWare Meter Configuration Software e If Quantity is V THD or A THD select one choice A B or C e If Quantity is any other there are no phase choices Time of Use Setup Time of Use is a standard feature that is used to automatically adjust billing rates on a user defined calendar There are up to 8 possible TOU rates that can be programmed to meet a wide variety of scheduling needs Each rate can be set to take effect at any time of any day In addition schedules can be arranged to change on the start of a season period or a single holiday date There are six category tabs at the top of the TOU screen Use the arrow buttons at the right side of the window to scroll back and forth The function of each tab is described below e Season Schedule programs the start dates of the season changes e Spring Summer Autumn and Winter Rates allows up to 8 rate changes per day for each day of the week plus two holidays Note that the seasons can be re named and yours may be different see below e Holiday Schedule programs single date occurrences for holiday rate changes Time of Use Configurations E season Schedule Spring Rates Summer Rates Autumn Rates Winter 4 Date Season Change 03 20 1999 Spring OB 211999 Summer 09201999 Autumn 122141999 Winter 03202000 Spring 06 21 2000 Summer 09202000 Autumn 12212000 Winter 03 20 2001 Spring
173. osses M Enable Add to measured quantity C Subtract from measured quantity Subtract from measured quantity Cancel Help You will notice there are six separate pages Settings allows you to select the way by which you will enter transformer loss data Transformer Delivered is used to configure power sent to a load by entering transformer data These values are typically added to the measured Watts and VARs although JEMWare permits adding or subtracting If Enter Percent Losses is selected on the Settings page this page is left blank Transformer Received is used to configure power received from a load by entering transformer data These values are typically subtracted from the measured Watts and VARs although JEMWare permits adding or subtracting If Enter Percent Losses is selected on the Settings page this page is left blank Percents Delivered is used to configure power sent to a load by entering the percentage of compensation required at the Test Amps value selected on the Settings page If Enter Transformer Parameters is selected on the Settings page this page will display a summary of the loss percentages calculated from transformer data 88 JEMWare Meter Configuration Software Percents Received is used to configure power sent to a load by entering the percentage of compensation required at the Test Amps value selected on the Settings page If Enter Transformer Parameters 1s selected
174. ppear You will be prompted to either select Yes ignoring the current configuration file and switching over to the other meter type or select No to save the current configuration file and then switch over to the correct meter type JEMStar T You are attempting to connect to a Ci20 meter this is not your default Meter Your current configuration settings might need saved and a new default configuration will be created Select Yes to continue or No to disconnect 102 JEMWare Meter Configuration Software Connecting to the meter over the Ethernet Interface Any software that supports communication with a meter over an Ethernet interface will require at least the meter s IP address and port number Some software may also give you a choice of using TCP or UDP protocols In that case always use TCP To connect using JEMWARE open the Meter Communication Connect dialog B C COMI is seno C COM2 Cancel Address 204 0 54 Setup Coma AS485 MT oe f Modern Init String TLPAP ooo Hp AS485 Delays 0 1000 mz Converter ATS ON o Converter ATS OFF o Meter ATS OFF o Optical Probe type N ormal SCI Model Phone Number Figure 9 JEMWARE Connect dialog Click the Setup button then select the TCP IP tab COM Port 1 COM Pot 2 COM Por 3 COM Port4 TCP IP IP odddress ee Fort 2001 Meter 4ddrez Cancel Help Figure 10 JEMWARE Ethernet connection settings
175. pported JEMWare Meter Configuration Software User Registration Jemw are Registration License Name DEMO License No DEMO Cancel Help Demo You must type your license name and number exactly as it appears on pour license agreement IF you do not have a license click the DEMO button Contact Rochester Technical Support for further assistance at 200 881 4156 of 716 263 7700 To begin the installation procedure L Insert the JEM Ware CD in your computer s drive A The CD will auto start Gf you have Windows configured this way or you can select Run from the Start menu 3 If manually starting type d setup exe where d is the letter of your CD drive Click on OK 4 Follow the InstallShield Wizard instructions on the screen to complete the installation Note If your operating system is Windows 95 98 the Hunt feature will only work if you install the JEMWare application in a directory path containing filenames of 8 or less characters For example C Program Files AMETEK will not work because Program Files 1s too long C AAMETEK Jemware will work because each filename is 8 or fewer characters This is the default location that the program offers during the installation process Uninstalling JEMWare There are two ways to run the Uninstall program Each method will have the same results Method 1 Select the JEMWare Software Uninstall icon in the Start Me
176. r of Load Profile Days a Configuration These are read only fields that display the approximate number of Quantit Direction Records km Value 1 Amps THD Phase TOU Override 0 0100 1 2 w Hr Phase Recewed TOU Override 7 0667 days of Load Profile data the meter 4 VAR Hr Phase Delivered Always T 0667 can store 1n memory The amount 4 VAR Hr Phase A Received Always 7 0667 A Volts THD Phase Always 1 0000 of storage is based on the number E Frequency Phase A Always 1 0000 External Pulse A RS Always of LP channels in the meter 5 watts Phase A Delivered Always 0 1600 3 Watts Phase Delivered TOU Override 0 1600 Interval Length Each Load Profile 1s divided into a user defined interval The interval length is the same for all channels so that the channel data can be compared to each other Choose from the pull down choices of 1 to Interval Length mins 15 External Interval Sync Freeze Markers I 60 minutes Estimated Days of Storage for Configuration List Above 4 Channels Standard CS 12 Channels Optionall 81 The last meter to use this configuration had capacity for f 2 channels External Interval Sync a E The External Interval Sync can be Cancel Help used to trigger the start of a Load Profile Interval from a remote source If enabled this will override the Interval Length setting and start a new interval Edit a Load Prenle immediately upon sensing an input pulse
177. racter which essentially accomplishes the same purpose However since the Carriage Return Line Feed pair is optional at the end of a query message a second timer is automatically started at the end of the CRC to allow for these optional characters If the Carriage Return Line Feed pair is not received at the end of this 1 second timeout the logic proceeds with processing the message REGISTER PRESETS In the meter Modbus implementation meter registers Normal and Alternate may be cleared or set to a given value with the Preset Multiple Registers command Function Code 16 Note that the start register specified in the command must be the Hi order register number of the appropriate register pair and there cannot be more than 120 registers per request In addition Allow Register Presets must be specifically enabled in the meter with JEMWare Go to menu Meter Settings Protocols Modbus If not enabled Modbus exception 01 illegal function will be returned if register presets are attempted Digital Output Control The meter digital outputs may be forced to a high or low state via MODBUS using either the Force Single coil Func 05 or Force Multiple Coils Func 15 command To use this feature Allow Digital Outputs Control must be enabled in the meter with JemWare If not enabled Modbus Exception 01 Illegal Function will be returned when this is attempted B 6 APPENDIX B MODBUS Communications MODBUS REGISTER MAPS The m
178. ransformer Loss Compensation JEMWare Meter Configuration Software If you selected Enter Percent Losses Loss Compensation Settings Transformer Delivered Transformer Received Percents Delivered Percents Received Constants Delivered Phase Phaze B Phaze L Fe Watt Loss 4L Fe te 0 172 0 172 Cu watt Loss LW Cu 0 497 0 497 0 497 Fe VAR Loss lt LWFe 1 594 1 594 1 594 Cu VAR Lose l Cu 5 101 5 101 5 101 Lancel Help A Select the Percents Delivered or Percents Received page as shown above depending upon power flow B Enter the desired percent Watt Iron Fe Watt Copper Cu VAR Iron and VAR Copper losses in the fields indicated Enter the percentages desired when the meter is operating at the Test Amps selected on the Settings page and the Nominal Voltage entered on the Primary Configuration screen If you selected Enter Transformer Parameters on the Settings page this page will only display the percentages calculated from the transformer data entered elsewhere It will not allow changes to be made to the displayed values 91 JEMWare Meter Configuration Software For either loss entry method Loss Compensation These are internal meter values which are used only by custormer support engineers Phase 4 B C Iron Loss Delivered Kwe 1036 3031 Iron Loss Delivered Kyte 1066 3546 Copper Loss Delivered Kwcu 135 1353 Copper Loss Delivered Rvicu 1386 0159 lron Loss
179. redetermined limits Any Instantaneous electrical quantity can be used to trigger an alarm time amp date are not valid registers for alarms Note that there are four Threshold Alarms available but you can only monitor one register with each To enable a Site Monitor Alarm click the check box associated with the parameter and enter a value in the corresponding edit field When the value is exceeded an alarm will be generated Threshold and Site Monitor Alarms Site Monitor Alarms Threshold Aarns NOTE All voltages and currents are in primary units Phase C Over Voltage as Under Voltage 0 Voltage Swell p Voltage Sag me l Over Curent 0 UnderCurent 0 PF High 0 M PF Low Power Reversed re Under Voltage Voltage Swell Voltage Sag Voltage Sag Over Current Over Current Under Current Under Curent PF High PF High PF Low PF Low Power Reversed Power Reversed Neutral Current Swell po W Volts Imbalance 5 e Neutral Over Current fo e Amps Imbalance E Voltages out of Sequence Voltage Sag Swell Duration in sec fo Set No Alarms 35 JEMWare Meter Configuration Software Alarms can also be configured to drive one of the meter s Pulse Outputs Refer to the Pulse Input Output section of this manual for further setup instructions To enable a Threshold Alarm choose a register number by scrolling through the list of currently conf
180. rial protocol such as DNP 3 0 or ANSI Tables provided it 1s equipped with the option This is useful 1f you are using a data management program such as MV 90 Configure the necessary information for the Phone Home modem Phone Home Settings Dial T ee Phone Number 1 Phone Humber 2 Phone Number 3 Phone Number 4 C Pulse to Tone Phone Number 599 5599 Message String JJEMS TAR Automatic Message Retrieval Call nm A Retrieval Call Time 1200 E Masimum Dial Attempts 2 Frequency Event Reporting Option fasci Never eo Threshold 1 T Retrieval A l MT Threshold 2 Site Monitor lr Aveekly Monda Threshold 3 Threshold 4 Monthy Cancel Help Dial Type Select whether the meter will use pulse or tone dialing when calling any of the phone numbers Retrieval Call This event occurs at a user entered time and 1s used for scheduled data retrieval by a data system such as MV 90 The timing parameters of the call need to be sent to the meter by MV 90 Set the time and day that the retrieval will take place 48 JEMWare Meter Configuration Software Meter Phone Numbers 1 2 3 4 You can dial up to four separate phone numbers each with its own message For each phone number where events are set to cause a call out the user can enable or disable the following events in any combination for each phone number e Threshold 1 See Alarms menu for defining an event Threshold 2 See Alarms menu for de
181. rwritten A Cumulative register will store the selected quantity when a BPR occurs The quantity in the register is saved until the next BPR command at which time the quantity is added to the existing quantity A Continuous Cumulative register will sum the selected quantity read at BPR plus the quantity from the Working register The sum is continuously updated Note that any alteration to the BPR configuration will reset these registers Uncompensated Checking this box will cause the values displayed by the register to never have Loss Compensation applied regardless of the Loss compensation configuration Display Format Choose the total number of digits you want to display up to 8 and then select the number of digits to be displayed to the right of the decimal point An example will be shown below your choices to confirm that your selection is correct Note If you select an 8 digit display using the meter front panel menu or the Display Setup screen the setting shown here will be overridden Display Format Mumber of Digits fe Decimal Position 2 Example 123456 1234 36 Coincident Registers You can set the following register types as Coincident Registers e Time of Peak e Time of Peak Thermal e Coincident Demand If you are configuring one of the three register types listed above psi Phase A an additional field is available to Direction Delivered select the coincident register TOU 7 Use
182. s Use this menu for a convenient method of viewing all active Normal and Alternate registers in a meter and their current settings You can also save these settings as a Preset pre file which can later be used to load registers on a new meter with these values Read Registers x Normal Registers Alternate Registers JD Quantity Phase Direction Settings Register Type Storage Type TOU Format 1 Walks Phase 0 00 Instantaneous Working Total HHHH HH 2 Wols Phaze B 0 00 Instantaneous Working Total HHHH HH 4 Walks Phase C 0 00 Instantaneous Working Total HHHH HH 4 Arps Phaze A 0 000 Instantaneous Working Total HHH HHH A Ampz Phaze B 0 000 Instantaneous Working Total HHH HHH 6 Ampz Phase C 0 000 Instantaneous Working Total HHH HHH A Watts Polyph Delivered 0 00 Instantaneous Working Total HHHH HH 8 WAR Polwok Delivered 000 Instantaneous Working Total HHHH HH 3 Frequency 0 000 Instantaneous Working Total HHH HAH 10 ole THD Phase 4 0 000 Instantaneous Working Total HHH HHH 11 Volts THD Phase B 0 000 Instantaneous Working Total HHH HHH 12 Volts THD Phase C 0 000 Instantaneous Working Total HH HHH 13 Amps Phase 4 0 000 Instantaneous Working Total HHH HHH l4 Amps T Phase B 0 000 Instantaneous Working Total HHH HHH 15 Amps T Phase C 0 000 Instantaneous Working Total HHH HHH 16 Amps Neutral 0 000 Instantaneous Working
183. s are defined by listing the first register being logged for this data log 0 corresponding to the value logged in that register specifies that the data log is not Meter reads Register 2950 being used File Type Specifies the file type 1 e data Meter reads 1 log waveform capture etc Set to 1 for Data Log 2 File Size The file size in records max Meter reads 200 32000 3 Record Size Record size in registers max 39 Calculated by Meter based on Recorder Contents including date time stamp Table of contents will hold Record Size 3 registers File Mode 0 FIFO 1 Fill and Hold Always 0 for the Meter 5 Record Record entry enable Meter is FFFF by default Entry FFFF disable 0000 for data log Enable files Disable Entry Entry update interval in minutes Meter s configured Load Profile interval length in Update for data log files synchronized to minutes Interval entry interval offset time 7 Entry Time in minutes past midnight to Always 0 for Meter Interval synchronize record entry update Offset Time intervals to ME Current Current number of records in the Managed by Meter Maximum 200 Records in File ES first Current first oldest record Managed by Meter Ranges from 1 to 32000 record sequence number in the file sequence 10 Current last Current last newest record Managed by Meter Ranges from 1 to 32000 ba record sequence number in the file sequence 11 Date Time Date Time of l
184. s are not available 1f you are using the 5 KYZ board Analog Output 1 Analog Output 2 Analog Output 3 Measured Quantity fuae Output Type 0 1 mA Input Output Relationship units chosen in Primary Chg Masimum foon watts Minimum jo Watts Ome C 4 270 m C None Cancel Help The first step to configuring Analog outputs is to select an energy quantity from the pull down menu Choose between Watts VARs Q VA Volts Amps PF Hz V THD A THD Amps Volts Note Either VARs or Q is available but not both Your available choice will match what you previously selected in the Primary Configuration screen Second select the phase s that will be monitored Select A I B IC IN I Polyphase Note If the Quantity selected above is Hz the only choice is Phase A Output Type The analog outputs are factory configured for either 0 1 mA or 4 20 mA consult the model number ordering code to determine which type is provided and set this appropriately If your meter does not have the Analog Output Option select None Enter the maximum and minimum input values for the range that you will monitor From the above data the meter will calculate and display an output table Example Quantity Analog Output 1000 Watts 20 mA O Watts 9 33 mA 500 Watts 4 mA Repeat this procedure for up to three channels Note that all outputs must be the same 1 e 0 1mA or 4
185. s pin 3 and RXD is pin 2 MODBUS Master Direction JEMStar I O cable DTE RXD or DCE TXD lt BLUE GREEN DTE TXD or DCE RXD gt BLUE RED Comm GND PURPLE WHITE MODBUS Multidrop Connection Using RS485 differential Notes MODBUS Master Direction JemStar I O cable XMT RCV gt BLUE RED XMT RCV gt BLUE GREEN The meter does not implement hardware handshaking signals with RS 232 or RS 485 serial data The MODBUS port is connected via a pigtail I O cable for S base and A Base meters wire colors shown above See the section labeled Serial Communications for wiring details of Switchboard meters terminal block connections Refer to the section Dual Communications Option for connections if your meter has this feature DATA TRANSFERS USING MODBUS RTU OR ASCII The meter MODBUS implementation will fully support all data transfers with the following commands Read Output Status Function code 01 Read Input Status Function code 02 Read Holding Registers Function code 03 Read Input Registers Function code 04 Force Single Coil Function code 05 Force Multiple Coils Function code 15 Preset Multiple Registers Function code 16 As implied by the Read Holding Registers command all meter available data will be stored in 16 bit Holding Registers However these registers will either hold the High Order or Low Order 16 bits word of a 32 bit quantity Whenever a 32 bit quantity 1s accessed the r
186. se C PolyPhase Phase 4 Phaze B Phase C PolyPhase 1000 Delivered Phase 4 Delivered Phaze B Delivered Phase C Delivered PolyPhase Received Phaze A Received Phaze B Cancel Help Point There are up to 120 DNP Analog points sent during a communication session numbered 0 119 You can arrange the sequence of your transmitted counter data by assigning the first data to point O next to point 1 etc Quantity For each DNP Analog point you must select a measurement quantity You may choose from Watt VAR VA Q Amp Volt Amp Squared Volt Squared PF Frequency Volt THD and Amp THD If you want to limit the number of DNP Analog points in the meter to less than 120 enter only the points you need and set the rest to Unused Direction For each DNP Analog point you must select a Direction For Watt VAR VA PF and Q quantities you may choose from Delivered Received or Bidirectional Delivered and Received quantities are always positive while Bidirectional quantities may be positive or negative depending on power flow VAR measurements may also be selected to be from a single quadrant Q1 Q2 Q3 or Q4 All single quadrant values are positive For directionless quantities such as Volt Amp Volt Squared Amp Squared Frequency or THD the Direction setting is ignored and should be set to N A Phase For each DNP Analog point you must select a Phase You may choose from Phase A Phase B Phase C or Polyphas
187. ses CRC for error checking The CRC value is two bytes containing a 16 bit binary value The CRC value is calculated by the transmitting device that appends the CRC to the message The receiving device recalculates the CRC and compares it to the value in the message If the values are not the same the receiver will not process the message The CRC value is calculated according to the following procedure l Initialize a 16 bit CRC register to OXFFFF De Place the first 8 bit character from the message and place it into a fest register 3 Exclusive OR the test character with the CRC register leaving the result in the CRC register 4 The CRC register is shifted one bit toward the least significant bit the least significant bit is saved into a carry register and the most significant bit 1s zero filled 5 If the old least significant bit was zero go to step 6 if it was one the CRC register is exclusive Ored with 0xa001 Repeat steps 4 and 5 seven times Using each successive character in the message repeat steps 3 through 6 The CRC is the value in the CRC register The CRC value is placed into the message in hexadecimal format with the most significant byte going into the first CRC byte and the least significant byte going into the last CRC byte A ON B 3 APPENDIX B MODBUS Communications RTU MESSAGE FRAMING In RTU mode messages start with a silence interval of at least 3 5 character times If the SLAVE device can mo
188. shold Alarms cannot be assigned to Output Channel 5 5 K YZ board Sag Swell Alarm When chosen a single contact closure will be generated when a Voltage Sag or Swell alarm is activated Refer to the Voltage Sag Swell section for setting the sag swell conditions System Error Alarm When chosen the contact output channel will close if a System Error e g a Battery Warning is detected Performing a Billing Period Reset on the meter will clear all System Error indications 38 JEMWare Meter Configuration Software Configuring Contact Outputs on a 5 KYZ board The 5 KYZ board provides five Form C KYZ contact outputs for connection to external devices The first four outputs operate with all the same functions as the DI DO contact outputs and have all the same features and specifications The fifth contact output can be configured to operate with all functions except Threshold Alarms The configuration of the 5 K YZ Board is the same as setting up a DI DO Board However when you set up a contact output for Normally Open you are setting the K Y section of the output for NO and the K Z section for NC You may also set the output for reverse operation That is if you configure JEMWare for Normally Closed you are setting the K Y section for NC and the K Z section for NO O Y Contact state shown with K JEMWare configured for py 7 Normally Open Pulse Input Output Ci20 This window assigns the
189. so bypass the network and connect the Ci20 directly to a computer s Ethernet jack using a crossover Ethernet cable You must configure both your computer and C120 with fixed IP addresses first since neither will have access to a DHCP server Selecting an IP Address When permanently connecting a Ci20 meter to a network it is best practice to assign the meter a fixed IP address Addresses automatically assigned by DHCP are subject to change and if the meter s automatic address changes you will not be able to contact it again without visiting the meter in person To display the meter s network settings remove the meter cover and press any arrow button to activate the menus Press the Right button once to move the highlight to the middle columns then the Down button until the word Ethernet is highlighted Press the Right button to move the highlight to the word Type If there is an Ethernet option board installed the field in the upper right corner of the screen will say ETHERNET otherwise it will say NOT INSTALLED Press the Down button to select and display the network settings Here are sample images Ethernet Board Firmware Version 69 JEMWare Meter Configuration Software FI Version IP Address MAC Address Once you have connected the Ci20 to the network and determined its IP address check the connection by issuing a ping command from a computer on the same network On most computers get a command prompt an
190. t 4000 ft To use RS 485 communications you must install an RS 232 to RS 485 converter at your computer s COM port If you do not already have this device AMETEK offers all the necessary hardware Plug the RS 232 485 converter box into your PC serial port Connect the RJ 45 phone cable between COM1 on the meter and the back of the converter If you are creating your own serial cable refer to the JEMStar User Manual 1083 600 or Ci20 User Manual 1086 381 for the required connector types and pinout arrangements Optical connection Each meter has provisions to attach an optical sensor to the front of the meter The optical sensor will provide an RS 232 output that is used exactly the same as the Direct Connection style Modem Connection can be used if your meter has an internal modem JEMWare will dial up the phone number associated with the meter and allow meter communications over any distance 115 JEMWare Meter Configuration Software Step 2 Set up the communication parameters Open the JEMWare application by double clicking the icon on your desktop The Main Screen will appear If this is a first time use go to the menu labeled Meter Communication Connect and set the COM port number 1 4 that your PC is using Connecting C COM Baud Rate TCP Port Now click on the Setup button and 0 COM2 poni Cancel proceed to the PC Setup screen You C COM3 n ist coun must select whether your communication AN is Direct C
191. t allows the meter to determine the present TOU period based upon the real date and time of the meter VA Volt Amperes or Volt Amps the product of voltage and current in a circuit regardless of phase Typically expressed in RMS units this is also called apparent power A meter calculates VA VWatts VARs VAh VA hour VA integrated over time to produce a measurement that may be accumulated VAR Volt Amps Reactive the product of voltage and current in a circuit times the sine of the phase shift between the two Typically expressed in RMS units The unit of reactive or imaginary power VARh VAR hour VAR integrated over time to produce a measurement that may be accumulated GLOSSARY 7 Glossary W Watt the product of voltage and current in a circuit times the cosine of the phase shift between the two Typically expressed in RMS units The unit of real power Wh Watt hour W integrated over time to produce a measurement that may be accumulated GLOSSARY 8 Warranty PROCEDURES FOR FACTORY REPAIR AND RETURN A Obtain a Returned Material Authorization RMA number by calling the AMETEK Repair Department and giving the following information l Model and Serial Number of the equipment 2 Failure Symptom Be Specific 3 Approximate date of installation 4 The site name and address of the failed equipment gt Complete shipping information for the return of the equipment if other than the operating si
192. t functions as you choose The Test registers are for temporary storage and only used when in the Test Mode All the data in a Test register is cleared when Test Mode is exited 20 JEMWare Meter Configuration Software The following illustration shows the main Display Registers configuration screen At the top you will notice that the screen has three page tabs Normal Alternate and Test Click on the tab for the section you will be modifying then proceed to Add Edit or Delete registers as described in the following pages Display Registers Normal Registers Alternate Registerz Test Registers ID Description Guanti Fhaze Direction Colb TOU Register 0 Meter Name String 1 1 Present Time Present T E Present Date Present E Cons wH POE Tk Hr Polvphaze Delivered Total Consump 4 Cons wH PRET Wk Ww Hr Polwohase Recelwed Total Consump al Cone W4RH 4 0E T ak WAR Hr Phase A Delivered Total Consump 6 Cons M ARH P RE T Ak WAR Hr Polviphaze Recelwed Total Consump T Cons YARH P QT T Awk WAR Hr Polyohase Quadrant 1 Total Consump a Cons VARH P O2 T Wk WAR Hr Poljohase Quadrant 2 Total Consump J Cons M RH P OS Tk WAR Hr Polvphaze Quadrant 3 Total Consump 10 Cone M RH P 04 T40k WAR Hr Polvphaze Quadrant 4 Total Consump 11 Cons WAH POE TE WA Hr Polvphaze Delivered Total Consump q2 Cons MAH FRET wk WA Hr Poltohase Recelwed Total Consump 13 AVPFLPF A DET wk FF Phase A Delivered Total Average l4 PRO OW POE Tk watta Pol
193. te 6 Name and telephone number of person to contact if questions arise B Enclose the information with the equipment and pack in a commercially accepted shipping container with sufficient packing material to insure that no shipping damage will occur Mark the outside of the container with the RMA number Ship to the appropriate location Attention Repair Department AMETEK Power Instruments 255 North Union Street Rochester New York 14605 USA Telephone 585 263 7700 Fax 585 262 4777 C Your equipment will be tested repaired and inspected at the factory Normal factory turn around is ten working days or less excluding shipping time WARRANTY AMETEK warrants equipment of its own manufacture to be free from defects in material and workmanship under normal conditions of use and service AMETEK will replace any component found to be defective upon its return transpor tation charges prepaid within five years of its original purchase AMETEK will extend the same warranty protection on accessories which is extended to AMETEK by the original manufacturer AMETEK assumes no responsibility expressed or implied beyond its obligation to replace any component involved Such warranty is in lieu of all other warranties expressed or implied
194. te seno Eos Address 254 0 254 Modern Init String Optical Probe Type T Meter Connection Type Optical Cancel Help You can configure up to four separate serial communication ports Each COM port can be arranged for a different connection type based on your specific requirements The IRQ and port address are set and managed by Windows JEMWare does not override the standard Windows settings To configure first determine a valid COM port number available on your computer 1 through 4 and select the corresponding tab at the top of the screen Next select the Meter Connection Type for the method you are using to connect the communications hardware Meter Connection Type Direct COM Port Use this setting if you are connecting with a standard RS 232 serial communications cable The signals are available on the meter s pigtail cable and should be terminated with an appropriate connector for your application Refer to the JEMStar User Manual 1083 600 or the Ci20 User Manual 1086 381 for the cable color code and signal functions Modem Use this setting if you are connecting through a dial up modem JEMWare supports the generic Hayes command set and will accept a Modem Initialization String of up to 100 Characters The default init string ATZ is provided and may be all you need Consult your modem s instruction manual for further information on initialization strings 113 JEMWare Meter Configurat
195. ter will automatically revert to the scheduled TOU rate Totalization Input This setting can be used to collect energy measurements from external devices for Totalization purposes See the section on Totalization setup for more details Outputs JEMStar can be equipped with either of two optional contact I O boards the DI DO board that consists of four Form A N O contact outputs or the 5 K YZ board that consists of five Form C N O N C contact outputs Note Only one type of I O board can be installed in a JEMStar Any of the following functions can be assigned to each channel Energy Pulse First choose from the pull down menu how you want the energy pulse output to respond e Normally Open NO Output closes on first count then opens on second count e Normally Closed NC Output opens on first Quanity Jw H zi count then closes on second count e 1 shot Output closes then opens for one count Direction i Delivered Received T a ae a Se i Next click the Settings button next to the channel that ilies Pee you want to configure and this submenu will appear Select the Energy Quantity from the pull down PuseWeight ls RE ake choices the power flow direction and the phase s to be considered The energy pulse output can be set with fontiman Confiuration EATS any desired pulse weight The Units of Measurement a Help JEMWare Meter Configuration Software shown as a reference at the bottom of the screen
196. the end of each progressive screen The features you selected in the first Wizard screen will determine which screens must be filled in and also the sequence Use the online Help buttons available on each screen 1f you have any questions about setting up a particular field Each Wizard screen has a matching standalone dialog window that is accessible through the pull down menus Refer to the next section of this manual for a detailed description of each menu function 12 JEMWare Meter Configuration Software MENU FEATURES Whether you use the Wizard or the basic pull down menus each configuration window will look the same The Wizard will automatically switch from window to window progressively where the pull down menus must be accessed individually This section will explain each menu in detail FILE MENU The File menu includes the standard Windows functions such as Open Save As Print etc In addition the following features are special to the JEMWare application Compare Configurations This feature will compare configuration parameters between the currently open cfg file and any other saved cfg file This can be useful when you are trying to determine the differences in two setups From the File Menu click on Compare Configurations and the following screen will appear Select file to compare Look in a SEA E cH aa BETA 2 clg Files of type Meter Configurations cfg Cancel es Highlight a c
197. tified by number Each of the serial command protocols available in a JEMStar meter Binary DNP MODBUS ASCII or RTU etc may be assigned a port number For example in the JEMStar default configuration the Binary protocol is assigned to Port 2001 When a user makes a connection to the meter s IP address at port 2001 he may use Binary protocol to 94 JEMWare Meter Configuration Software communicate with the meter If he wants to use MODBUS RTU he must configure the meter to assign that protocol to a different port number such as 2003 Then he can connect to the meter s IP address at port 2003 to use MODBUS to communicate The JEMStar s Ethernet interface can support up to 4 simultaneously connected ports That means up to 4 separate conversations may be going on at the same time on the Ethernet interface Each connection is treated as a separate conversation nothing that a user does on one port such as activating a password has any effect on any other port The only exception is if one port is used to reconfigure the meter At the end of the configuration session all active connections may be broken as the Ethernet interface is reset along with the rest of the meter Each serial protocol in the JEMStar must be assigned its own port number and the number of simultaneous connections 1t must support Each protocol must have a unique port number You may have more than one of a given protocol s port however For example if you know th
198. tive session times out Once a timeout takes place you must re enter the meter password before communications can continue TX Start Delay TX End Delay Turnaround Delay Certain parameters are required for radio modem applications that use the RS 232 Request To Send RTS handshaking signal If a meter 1s not used in such applications simply set the TX Start TX End and Turnaround delays to O ms RTS Turnaround Delay TXD TX Start Delay Corresponds to the delay between the time that the RTS line is asserted and the time that the data is transmitted 76 JEMWare Meter Configuration Software TX End Delay Corresponds to the delay from the time that a meter stops sending data and the time that the RTS line is de asserted Turnaround Delay Corresponds to the delay from the time that a meter finishes receiving a command and asserts RTS to begin transmitting a reply Allows the master station time to turn off its own transmitter 3 Click OK to accept the Serial port setup 4 The next step 1s to configure the DNP specific parameters and assign meter registers for DNP queries Go to the Meter Settings Protocols menu and the following screen will appear Protocol Setup DNP Counters Modbus DNP Analog Objects DNP Binary Objects o Data link Confirm Mode Frozen Counter Write Time Interval 0 65535 mins EN Events 322 DRP 1 sale Data link Confirm Timeout f0 0 65535 ma ce No Save DNP Table Mu
199. to the left of the most significant digit Leading zeros means that places to the left of the MSD will be filled in with zeros Display s Scroll Rate Enter a numeric integer for the number of seconds that the LCD will display each register before scrolling to the next one The Scroll Rate can be selected from 1 to 20 seconds To turn this feature off so that only the manually selected register is displayed choose No 1n the pull down menu 74 JEMWare Meter Configuration Software Date Format Use the pull down menu to choose how you want the date displayed Choices are MMDDY Y DDMMYY or YYMMDD where M month D day and Y year Alarm Actions on Display Note Threshold and Site Monitor alarms are actually configured in the Alarms menu Use this menu to set how the alarms will be displayed on the meter LCD The types of action are Ignore The meter will not display any alarms You can still have alarms active as a pulse output Annunciator The meter will display the alarm indication at the bottom of the main display and disappear when the alarm clears Latch Annunciator The meter displays the alarm indication and remain after the alarm clears You must manually clear the annunciator by pressing the Reset button twice Override Display The meter will override the currently displayed quantity and display the alarm indication The annunciator disappears when the alarm clears Latch Override Display The meter will o
200. ually by the network s administrator a fixed address IP addresses may be duplicated on different networks but using the same IP address on two or more devices on the same network causes confusion and communication failures MAC Media Access Controller Address A six byte number that is unique to every network capable device and is assigned by the device manufacturer It is used for low level Ethernet communications and to help DHCP servers identify devices that have been assigned automatic IP addresses DHCP Dynamic Host Configuration Protocol A method for automatically providing suitable IP address settings to a network device when it is connected or turned on A network that supports DHCP has a server that newly connected devices contact to obtain an IP address Netmask Default gateway and other settings necessary to communicate on the network Netmask A bit field usually expressed in the same format as an IP address that helps the device to recognize messages from other legitimate network devices and reject messages from foreign devices The netmask may be assigned automatically using DHCP or manually by the network s administrator Default Gateway The IP address to which network devices send messages when they don t know where else to send them The default gateway is responsible for deciding whether to route messages to other devices on the network or to devices on other networks The default gateway address may be provid
201. uared Amp Squared hours 13 Volts Squared Volt Squared hours eee isthe Element or Phase on which the measurement is taken 0 No element Not applicable to any element or line phase Frequency only 1 Polyphase Sum or net of all phases If Channel Quantity is Volts or Volts Squared Polyphase means an average of all phases 2 Phase A Measured on Phase A 3 Phase B Measured on Phase B 4 Phase C Measured on Phase C 5 Neutral Measured on Neutral line Amps only 6 Phase Average Average of all phases Amps or Amps Squared only ddd is the Direction of the measured quantity 0 No direction Directionless quantities such as volts or amps 1 Delivered Power flowing from the line side of the meter to the load 2 Received Power flowing from the load side of the meter to the line 3 Quadrant Delivered watts lagging VARs VARs only 4 Quadrant 2 Received watts leading VARs VARs only 5 Quadrant 3 Received watts lagging VARs VARs only 6 Quadrant 4 Delivered watts leading VARs VARs only rrrr is the Time of Use Rate during which the quantity is measured 0 Total Register is always active 1 Rate A Register measures only during TOU Rate A 2 Rate B Register measures only during TOU Rate B 3 Rate C Register measures only during TOU Rate C 4 Rate D Register measures only during TOU Rate D 5 Rate E Register measures only during TOU Rate E 6 Rate F Register me
202. uirement The complete AT command set is listed in Appendix A of this manual The JEMStar internal modem can be used to perform three categories of communications e Answer modem is the standard setting used when you want to call the meter from a remote computer with a dialup modem e Phone Home settings will instruct the JEMStar to call a phone number and report a predetermined text message The call will be initiated upon a user defined event occurrence such as a Site Monitor alarm or Threshold alarm e Phone Home on Power Outage settings will instruct the JEMStar to call a phone number and report a predetermined message The call is initiated only if meter power fails the modem is powered by an internal battery pack Each category of modem usage is described in the following pages Answer Modem Settings To set up the modem s answer settings configure Answer Serine g the following parameters Normal Answer Indo Answer Window Start EE 00 Duration min fao Frequency Never C Even Day One Day Each Week An Answer Window is a user selectable period of time when JEMStar expects to receive a call The Answer Window Start time specifies the beginning of the answer window The Duration field specifies the length of the window therefore the stop time of the answer window If a call is ee received outside this answer window the meter will answer after the number of rings specified in Number of Fingsto Answer
203. ull down menus The Wizard is designed to be self explanatory and automatically guide you through step by step procedures to build a configuration file that corresponds to your meter usage As you progress through each step of the Wizard you will logically insert information as needed Once you become familiar with the JEMWare process and have some saved configurations you may wish to bypass the Wizard and go directly to the pull down menus for editing specific sections Options x Wizard Options Check all that apply To choose when you want the Wizard to be activated go to the pull down menu File Options and check the screen with your preferences Aun wizard manually from menu To begin the Configuration Wizard from the pull down menus go to File Wizard or click the icon on the toolbar The default arrangement will have all the check boxes selected If you do not have or use a particular option you can de select it and the Wizard will bypass those setups Configuration Wizard Select Feature Groups to Configure Meter Identification Primary Configuration Display Registers Time OF Use Logs Compensation DST Changes and Timekeeping Alarms Eule Input mutput Analog Quputs Demands Se al Communication Mienlap Setup Select All 11 JEMWare Meter Configuration Software Once you have selected the correct features for your meter step through the Wizard by clicking the Next button at
204. us Master Frame Timeouts Select the amount of time that the meter s Modbus port will wait to complete a query from the Master before it times out A timeout begins as soon as there is no data flow and continues for the user specified time If a command is not completed when the port times out the Master must initiate a new command Allow Digital Outputs Control The Modbus port can be used by the Master to drive any of the meter s four digital outputs There are four discrete points in the Modbus implementation corresponding to meter contact outputs thru 4 The outputs may be controlled via Modbus Functions 05 and 15 To set up a Contact output for Modbus control l Click the check box Allow Digital Outputs Control in the above screen rA Go to the Meter Settings Contact Input Output menu Choose which Output Channels 1 4 you want to assign as Modbus controlled Use the drop down list and set it for Not Used Note The Meter will return the Modbus Illegal Function exception to the Master if the outputs are not set properly 84 JEMWare Meter Configuration Software Output point list MODBUS Address PLC Address REG 00 10001 Output Channel 1 REG O1 10002 Output Channel 2 REG 02 10003 Output Channel 3 REG 03 10004 Output Channel 4 Refer to Appendix B for further Modbus Register Mapping information Password Permissions This menu selection associates a custom list of privileges to each M
205. ut When the timeout takes place you must re enter the meter password before communications can continue Binary Details for Optical Port 44 JEMWare Meter Configuration Software Serial Port 1 RS 232 RS 485 To configure the meter s serial data interface open the Serial Communications menu and select the Communications Optical Seriall Modem Serial Seriall or Serial2 tab Note the Modem Serial2 Baud Rate O 7 features are optional check your model number to Protocol Type BINARY y pull down menu to choose the baud rate that you want to use for communicating with your meter determine if this is available on your meter Use the Details N The Protocol Type should be set for Binary unless as you are using ANSI Tables Modbus or DNP 3 0 see Y Protocols menu Binary Details for Serial Port i Network Address D 65534 Click the Details button to configure the following fore Password Time Out 5 1 60 min parameters Ta Start Delay 40 0 5000 mz Network Address Assign a unique number for each ee nd Leay 40 0 5000 meter if you are connecting meters in a network Use E Turnaround Delay o 0 5000 me address numbers 0 234 for connecting JEMWare to a meter or the optional Modbus or ANSI Tables protocols Any address O 65534 may be used with DNP 3 0 protocol Cancel Help Password Timeout Once communication commands have ceased the timeout cycle will begin Assign an amount of
206. utomatic Message 115 gt COMM_PHONE NUMBER1 555 1212 TRUE FALSE FALSE FALSE FALSE FALSE 2 DTMF Call Vendor 4 Different Settings The two files are compared line by line to each other The line number shown in the left column is used to itemize each parameter When you see a line number listed twice this indicates that there is a mismatch between the two files In the example above line 1 has a discrepancy whereas line 7 does not The two lines are discernable both by color and style The top line of each pair 1s red and indicates the working file The bottom line of each pair is blue and indicates the compared file The black single line items indicate that both files match for those parameters The alphanumeric codes shown in the above line descriptions are defined in the command Set Instruction Manual JEMStar 1083 603 and Ci20 1086 684 Show Log File The Log file shows a list of communication activities that occur during normal program operation Errors connections and validations are shown in chronological order and may be used as a historical reference when troubleshooting a problem When you open the JEMWare program the log file jemwarelog txt is created As you perform operations this file will accumulate data and you can view it by going to the File Show Log File menu When JEMWare is closed this file is immediately renamed to oldjemwarelog txt You can view this file by clicking on it and vie
207. val Threshold 2 Site Monitor Weekly I Threshold 3 Threshold 4 C Daily C Monthly cnoe tp Phone Home Setting The following fields are available Dial Type Select whether the meter uses pulse or tone dialing when calling any of the phone numbers Retrieval Call Configure a retrieval call by selecting the Retrieval Call Time and a Frequency radio button as well as the Phone Number fields This is used for scheduled data retrieval by a data system such as MV 90 The timing parameters of the call need to be sent to the meter by MV 90 Phone Numbers 1 2 3 4 63 JEMWare Meter Configuration Software Y ou can dial up to four separate phone numbers each with its own message For each phone number where events are set to cause a call out the user can enable or disable the following events in any combination for each phone number 64 JEMWare Meter Configuration Software Threshold 1 2 3 4 Retrieval See above Site Monitor Phone Number Ensure it is exactly as you would dial it including line access codes area codes etc You can enter up to 50 characters in the phone number field Message Text String Enter your custom alphanumeric message up to 99 characters In addition to the specific message you can add the following text to implement macros in the C120 firmware e T time of the phone home call e D date of the phone home call The following macros can also be added to your message to
208. verride the currently displayed quantity and display the alarm indication You must manually clear the annunciator by pressing the Reset button twice 19 JEMWare Meter Configuration Software Protocols Use this configuration menu to set up the optional DNP 3 0 or Modbus communication protocols Please refer to the appendices at the end of this manual for a complete description of features including the DNP Device Profile Document and point lists To configure the DNP option for a meter 1 Start by setting up a communication port for DNP Determine whether you will use the Serial 1 or optional Serial 2 port You can only set up one DNP port per meter Go to Meter Settings Serial Communication and then EXA Choose the baud rate from the pull down box that m Optical Serai Madem Se al communication port Meters are always considered Type to DNP Baud Rate Protocol Type BINAR Details 2 Click the Details button to configure the followin Network Address Several meters can be networkec the CommRepeater option Assign a unique number for each meter connected on a network If this is a single meter to master connection use the default address 1 Any address 0 65534 may Password Time Out be used with DNP 3 0 o Ena oo Password Timeout Once communication ae nd Delay 40 commands have ceased a timeout cycle will begin Assign an amount of time that the meter will wait before the ac
209. vphaze Delivered Total Peak Dei 15 o PRO Date Ak Date 14 Time of F 16 CrdD Amp P Wk Amps Polyphase 14 Coincider 17 Dkm iat DO DOC T iil AA Dalma Oa Tk D l Pia 4 F Add Edit Delete The display register values can be shown on the meter s front panel as up to 8 numerals with the decimal point O through 3 places from the right Each register has up to a 19 character description You can enter your own custom descriptions or the program will automatically generate an abbreviated description Display Register Value Register Description 21 JEMWare Meter Configuration Software Adding a new Display Register From the Display Registers screen click the Add button IDirange 0 37 E Y to access the Add Display Register Category Register Y Register screen Register Type Consumption Fill in the fields sequentially Base Quantity wHr p Display Format from the top of the screen poke PhaseA Number of Digits g down because some A Direction Delivered a Decimal Position fo 4 selections affect the settings oe Total x Example 123456 i 23 of other later ones Each field is described as follows Storage Type working E Uncompensated Description Cons Ee EAE 7 j 19 characters 1 E a AA EAEN M Suggestion Units of Measurement its from Primary Configuration Cancel Help ID Assign a Register Identification number Register Valid ID Numbers
210. whether the meter uses pulse or tone dialing when calling any of the phone numbers 66 JEMWare Meter Configuration Software Phone Numbers 1 2 3 4 You can dial up to four separate phone numbers each with its own message Each phone number can be set for Enable or Disable thus keeping a library of numbers and only using ones that are necessary at this time When entering a phone number be sure it is exactly as you would dial it including line access codes area codes etc You can enter up to 50 characters in the phone number field Message Text String Enter your custom alphanumeric message up to 99 characters In addition to the specific text you can add the following macro to send the time and date of power failure occurrence e TIME time and date of the power outage call Example Ci20 Meter 123 Power Loss at TIME Your custom message and the time date of power loss is reported Maximum Dial Attempts Enter the number of times that the C120 modem tries to establish a connection 1 30 Event Reporting Option Choose one of the following formats for sending the message e ASCII Sends message string as standard text e DTMF Dial Tone Multi Frequency Sends standard phone tones corresponding to the message string use with pagers Enabled Enable and this phone number is dialed on power outage Each of the four numbers must be enabled or disabled individually For example if only Phone Number 1 and Phone Num
211. wing through your Windows text editor Note that this file does not accumulate data it is overwritten with new data every time that 14 JEMWare Meter Configuration Software JEMWare is closed If you want to create a library and save the old data you must rename the oldjemwarelog txt file to a new name 07 06 2006 11 45 40 System Command Successful Transformer Corrections OF 06 2006 11 49 15 Read Command Successtul QUERY JEMSTAR STATUS OF 06 2006 11 49 15 Read Command Successtul QUERY JEMSTAR STATUS EXT View Configuration This shows the configuration of the currently loaded file It can be printed or copied to the clipboard for future use Meter Identification 11 07 2006 11 59 05 DoProgrammingiombined Jemstar amp Ci2z0yemnvware JEMStarJEMStarDetautt cty 5 500 JEMStar ID Scientific Columbus Rochester Mew York Configuration ID Factory Default Account Number 1 800 950 5505 FORM 9 CLASS 20 63 450 Primary Configuration Nominal Voltage 120 Connection Type 4 Mire Y Reactive Power VAR 1 00 1 00 1 00 1 00 kiloUnit kiloUnits Volts Help Copy to clipboard Print 15 JEMWare Meter Configuration Software METER SETTINGS Depending on what meter type you select either by default at startup or by selecting either the Jem or Ci20 button on the main menu the meter settings may vary depending on which meter you wish to connect to Use this menu to configure all the meter s parameters E
212. y be any number from to 65535 However certain port numbers are traditionally assigned to network functions that the Ci20 does not support such as Web page serving which uses port 80 The Ci20 and compatible software can still use these ports but if someone using a different programs such as a Web browser accidentally connects to the meter s IP address the result is unpredictable Generally port numbers above 1024 are fair game For more information on common port numbers see http www iana org assignments port numbers e You may have DNP assigned to only one port and single user either virtual or serial in any given meter The DNP code used in the Ci20 does not support multiple ports All other meter protocols may be assigned to any number of ports in the C120 e Every C120 serial protocol requires a serial device address just as if it was being used on an RS 485 network For convenience it is recommended to use 1 for all virtual port serial addresses A typical virtual port configuration may look like this Binary Protocol IP Port number 2001 Max connections 2 Device address 1 MODBUS RTU IP Port number 2002 Max connections 1 Device address 1 DNP IP Port number 2003 Max connections 1 Device address 1 ANSI Tables IP Port number 2004 Max connections 0 Device address 1 71 JEMWare Meter Configuration Software MODBUS ASCII IP Port number 2005 Max connections 0 Device address 1 DPMS IP Port number 2006 Max conn
213. ze and capabilities of History and Event Logs Dimensions T2 Event Events supported by end device Identification T History Log Defines History Log codes to be written to History Log Control History Log Data The History Log contents 75 Event Log Defines Event Log codes to be written to the Event Log Control The Event Log contents Decade 8 Decade User Defined Tables Table Title Description No Dimension Maximum values and control parameters for user defined Function Limiting tables Actual Function Actual values and control parameters for user defined tables Limiting Data elements used in the generation of user defined tables Selects data elements used in user defined tables First User Defined User defined table 1 Second User User defined table 2 Defined Third User User defined table 3 Defined Fourth User User defined table 4 Defined Fifth User User defined table 5 Defined Sixth User User defined table 6 Defined C 8 Appendix C ANSI Tables Communication Decade 9 Decade 9 Telephone Control Table Title Description No Dimension Maximum dimensions for telephone control data Telephone Limiting Actual Telephone Actual dimensions for telephone control data Limiting fon Global Parameters General parameters for call answer and originate 93 Originate Call originate parameters Communication Parameters 91 oa 94 Originate Schedule Call out schedule o5 97 Answ

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