7700 ION User's Guide
Contents
1. Modbus Slave Module 2 Setup Register Setting Format signed 32 bit Base Address 40027 Scaling YES In Zero 214748364 In Full 214748364 Out Zero 2147483640 Out Full 2147483640 Modbus Slave Module 4 Setup Register Setting Format signed 32 bit MFP Base Address 40089 Scaling NO 4 21 4 22 Modbus Slave Module Parameter Mapping The following tables show which measurements are provided by each of the four Modbus Slave modules The source for each measurement is shown Source ION Module so that you can easily delete parameters if you want to access different data Note that the Modbus Register remains the same if you link a different parameter into one of the Modbus Slave module inputs i e any value you link to Modbus Slave module 1 Source Input 1 will use Modbus Register 40011 Modbus Slave Module 1 Links Measurement Label Source ION Module Modbus Module and Input Number Modbus Register L N Voltage Phase A Vina Power Meter Modbus Slave 1 Source Input 1 40011 L N Voltage Phase B VIn b Power Meter Modbus Slave 1 Source Input 2 40012 L N Voltage Phase C Vln c Power Meter Modbus Slave 1 Source Input 3 40013 Average L N Voltage VIn avg Power Meter Modbus Slave 1 Source Input 4 40014 L L Voltage AB VII ab Power Meter Modbus Slave 1 Source Input 5 40015 L L Voltage BC2. Digital Inputs need etta better e et Displaying Additional Data in Vista Displaying Data with Power View 00000000000 0000000000000000 0n 0 nenen ene 0n nenen en nenen nennnne Summary of Data Provided e eene PowerView s Data Screens Mode ccscccssscesssessecesecessecssecessecsseceseesseeescesseseeeesseseseess Selecting Different Display Screens Displaying Data with the MGT 60000000000000 0000000000000000 nen na en nenen none te tense tete tnus Data Display Screens eemper nhu ene mei e ede p Interpreting Numbers in Numeric Displays see 2 14 Bar Graph Displays ss kailangan aa annuitant etie EN adan EE Trend Displays sesakane ae aaa E ea ad en t EO E ies Harmonies Displays etiem heo P ee D URP Display Screens Available under SETUP Complete List of Factory Configured Measurements and Functions 2 19 Energy amp Demand Framework sse eene 2 19 Min Max Framework aan sada WE Un i expen ba eite Pe e Ue Ee a a ga ges 2 20 Historic Data Logging Framework 2 23 Harmonics Logging Framework sse eene 2 25 Power Quality Monitoring Framework eee nene 2 26 Setpoint Framework onte eee ee meti ertt pese t 2 28 Digital Inputs Framework ettet emt caen ana e eere ta 2 29 Real Time Measurements Core Modules eere 2 30 Making Configuration Changes
3. TE AS GENG tnn sn tnn Ordering External Output Device Part Number Summary eee 5 25 Warranty and Registration 000000000000 0000000000000000 000000 0n nen na naen en nane na nn nenen nane en nane 5 26 Product Return Procedure eese esee tete entente tn eost tons 5 26 yCOnn 5 27 APPENDIX A 7700 ION Revenue 1 Differences between Standard and RM Models eese A 2 Security Mechanisms nesre sere nan ren a EE A E ET EERS A 3 Configuring the 7700 ION RM ssessessessessoseesessesceseoscoseesesseoresroreesesseseesroneosesseseesesseosess A 5 Safety Preca tions otn cede gak a ga np Aa Ega E euam A 5 Configuration Proce d re one e perat A 5 CT amp PTI Selectiot ui eee rte reet I RE E Rc REED AN ag etnia A 6 Checklist for Factory Sealed 7700 ION RMICAN 6600000000 0000000000000000 00000 ene ene nnnne A 7 Data Recorder 1 Sealed eee nandana anaa iee enne estate intus inen ngega eba aan A 8 Indeks TT RESET _ _ D ee Introduction The 7700 ION is a highly advanced digital power meter suited to virtually any
4. Convert avo O gt n denotes Core module refer to Chapter 4 Total Available in 7700 up to 18 up to 30 20 4 Comm 1 Comm 2 Comm 3 and MGT see also Ethernet module 20 TECHNICAL REFERENCE Used in Factory Config none none none none none High Speed Capable none none 20 N A N A none 20 no setup registers GPS TRUETIME DATUM GPS ARBITER Setup Registers Range or Options Creation Default Zero Scale 1 x 10 to 1 x 10 0 Full Scale 1 x 10 to 1 x 10 1 Port depends on I O options NOT USED Zero Scale 1 x 10 to 1 x 10 0 Full Scale 1 x 10 to 1 x 10 1 Port depends on I O options SOTOREN Mode AND OR NAND or NOR AND EvLogMode LOG ON or LOG OFF LOG OFF Formula 1 8 49 characters p TZ Offset 43 200 to 46 800 FEN DST Start 0 to 4 3 x 10 0 DST End 86400 to 4 3 x 10 86400 DST Offset 10 800 to 10 800 0 Time Sync Source COMI COM2 CONG ETHERNET COMI Time Sync Type UTC Local UTC Comm Mode RS485 or RS232 RS485 Baud Rate 1200 2400 4800 9600 and 19200 9600 38400 57600 115200 for Comm2 and Comm3 HshakeMode RTS CTS or RTS WITH DELAY RTS WITH DELAY RTS Level NORMAL or INVERTED NORMAL CTS Level NORMAL or INVERTED NORMAL RTS Delay 0 to 1 00 second 0 01 seconds Unit ID 1 to 9999 Factory set Pr
5. Optional min max bars are displayed as and symbols The high boundary of the scale for the second 3 registers is shown here Title 2 is displayed here 4 42 7700 ION USER S GUIDE Parameter 7 8 9 10 11 12 13 14 15 16 17 18 Function min for parameter 1 max for parameter 1 min for parameter 2 min for parameter 2 min for parameter 3 max for parameter 3 min for parameter 4 max for parameter 4 min for parameter 5 max for parameter 5 min for parameter 6 max for parameter 6 2 The closer together your min and max values are the more pronounced your graph s response will be to changes in the register value USING ADVANCED FEATURES To set up a 6 channel bar graph screen 1 10 11 Enter the parameter handle of the first register you want to display on the screen then press ENTER If you want to keep the register that is currently in use press the button labeled KEEP PREVIOUS Repeat this step for the remaining 5 registers The next value you are prompted for is the minimum value attained by the first register in the display If you have linked the first register you are displaying to a Minimum module you can display that minimum value on your bar graph To do so enter the handle of the appropriate Minimum module output register then press ENTER If you have not linked to a Minimum module just press E
6. Threshold 100 to 1000 96 125 EvPriority 255 128 Depth 0102x 10 0 RecordMode CIRCULAR or CIRCULAR STOP WHEN FULL Format 128x14 64x14 64x28 16x22 32x12 32x26 32x40 32x54 16x22 16x48 16x72 16x96 Record Delay Cycles 0 to 2000 0 7700 ION USER S GUIDE Measurements 950 Hz 60 Hz 25 1 to 125 Full Scale FS of input rating 50 mA to 6 25 180 to 180 Parameter Accuracy reading FS MGT Resolution FS Register Bounds 1 second 1 cycle 1 second 1 cycle 1 second 1 cycle Voltage L N in Wye 0 196 0 0196 0 596 0 0596 0 196 0 1 1 150 to 1x106 1x106 Vab Vbc in Delta Voltage L N in Wye 0 5 0 01 1 0 0 1 0 1 0 1 1 LSD to 2x106 to 2x10 Vca in Delta Frequency 0 0196 0 196 0 01 Hz 0 01 Hz 20 Hz to 70 Hz 20 Hz to 70 Hz Current 596 FS 1 096 2 096 0 196 0 196 1150 to 1x10 to 1x106 Current 5 to 125 FS 0 1 0 01 0 5 0 05 0 1 0 1 1 LSD to 1x10 to 1x106 kVA lt 5 FS 1 0 2 0 0 1 0 1 1 LSD 0 to 3 3x107 0 to 3 3x107 kVA 5 to 125 FS 0 2 0 02 1 0 0 1 0 1 1150 0 to 3 3x107 0 to 3 3x107 kVAh 0 2 reading 0 196 of reading to 1038 kW 596 FS 1 096 2 5 0 25 0 1 0 1 1 LSD Oto 3 3 107 Oto 3 3x107 kW Unity PF 0 5 2 5 0 25 0 1 0 1 1 LSD Oto 3 3 107 O to 3 3x107 5 to 25 FS kW Unity PF 0 3
7. eere 971 Configuration Tools tenni nente teen tn tn tutu tatnen 3 2 Basics of the ION Architecture 00 00000000000000 n0ne0a en 0n 00 ena 3 3 The ION Module ION Registers cerent immerito enint eer inre redeas Making ION Configuration Changes eere eese 0n een 00 3 4 Configuring the 7700 ION with ION Designer 0000000000000000 000000 tette 0a nenen en nane 3 5 The Main 7700 ION Configuration Screen eee eese ente nen ne nane ane 3 5 Using ION Designer to Change Setup Registers 3 5 Basic Configuration a aee 3 7 Communications Setup eee eee nenen nenen esten enne tete n ena en ena nenen en enakan 3 8 Communications Protocols ere SANA a ni iet a fiii Re E E Sa AA I HUS 3 8 Demand 3 9 Meter Clock Setups 3 9 Power Quality Setup sasap anana aneda sh ake gang NE Ga a pean ANG a b Nn ae d ET to tote anga b akak 3 10 Data Logging 3 11 Changing the Parameters that are Logged sss eee 3 11 Setpoint SetuP ecreis ioris Cisis erisin okera SEE eE EESE SES ECEE Sea EEEE ret erete Eees 3 12 Advanced EST X 3 12 Third Party Protocols sennen enhn tete en OS ASING i to NGA IG 3 13 Configur
8. sss eene 2 11 Summary of Data Provided sse 2 11 PowerView s Data Screens Mode sse enne 2 12 Selecting Different Display Screens sse 2 12 The PowerView Data Filter nennen ennemi 2 12 Displaying Data with the MGT sssseeeeeeeee ee nnns 2 13 Data Display Screens 0 uote a gan a na Peter iere eet 2 13 Interpreting Numbers in Numeric Displays sss 2 14 Bar Graph Displays entnehmen o deer ter bags 2 15 Trend Displays eme ed eret obe d ret Dite 2 16 Harmonics Displays enne rete nere the rete tts 2 16 Display Screens Available under SETUP s sss 2 17 Complete List of Factory Configured Measurements and Functions 2 19 2 1 A NOTE Many of the Vista diagrams also provide interactive control and parameter reset functions 2 2 Displaying Data with PEGASYS Vista 2 0 PEGASYS Vista version 2 0 is the premiere display and analysis tool for the 7700 ION and other Power Measurement IEDs A standard set of Vista User Diagrams displays real time and logged data for various power system parameters Interactive objects are provided on the diagrams that allow operators with appropriate PEGASYS authority to enable and disable logging functions and reset cumulative parameters Summary of Data Provided The standard set of five Vista diagrams included with PEGASYS 2 0 display a variety of the data measured and logged
9. 0 25 F S DC 0 25 F S 0 1 per Vcm total error Maximum Common Mode 20 V 0 1 V Option 1 0 VAC VDC nominal full scale input 1 25 VAC VDC max Overload withstand 20 VAC VDC continuous 40 VAC VDC for 1 second non recurring Input Impedance 49 9 kQ Accuracy AC 60 25 F S DC 6 0 25 F S 0 1396 per Vcm total error Maximum Common Mode 12 V Vcm Common mode voltage TECHNICAL REFERENCE Input Ratings continued Optional 0 10 V Option 10 0 VAC VDC nominal full scale input 12 5 VAC VDC max Onboard Analog Overload withstand 20 VAC VDC continuous 40 VAC VDC for 1 second non recurring Inputs continued Input Impedance 49 9 Accuracy AC 0 25 F S DC 0 2596 F S 0 025 per Vcm total error Maximum Common Mode 25 V A Standard 85 240VAC 47 440 Hz or 110 300VDC 1 Amp worst case loading 56 W 100 25 upply P24 48 20 60VDC 30 W worst case option Power supply fuse current rating type and rupturing speed 3 A slow blow Power supply ratings apply to both 7700 ION and the external output boards Optional Input Output Modules Analog Input Modules Voltage Inputs Current Inputs Part Number GAIVDCI GAIVDC5 GAIVDC5B GAIVDC10 GAIVDCIOB GAIIDC420 Range O to 1 VDC 0 to 5 VDC 5 to 5 VDC Oto 10 VDC 10 to 10 4 to 20 mA VDC Resolution 244 1
10. 4 20 Modbus Slave Module 4 21 Modbus Slave Module Parameter Mapping sse 4 22 Importing Data using Modbus 4 24 Using the DNP 3 0 Protocol eese 4 25 The 7700 ION s Factory DNP 3 0 4 25 DNP Slave Export Module Settings sse eene 4 26 DNP Options Module Settings intet terree tete nire tbe 4 27 Importing Data using DNP tree e Ee Gi er Ate ceeds 4 27 Using Power Measurement s EtherGate Protocol eene 4 28 Communicating Through the 7700 ION sse nene 4 28 Communicating To the 7700 ION rtt tree tenete 4 29 Specifying the Protocol and the IP Port Number sse 4 30 Using the 7700 ION in LonWorks Networks 00000000 0000000000000000 000000000000 ne ene nenen 4 31 PEGASYS Configuration Updates are Not Required sse 4 31 Configuring the LonWorks Using Time 5 12 Time Synchronization Accuracy sasana ag aa a a ga naa naen araga gen Communications Ports and Protocols Used xi Time Synchronization using PEGASYS sssssssseeeenen eene Time Synchronization using a GPS Receiver 4 35 Supported GPS Receiyvets ee
11. lt gt below the line diagram Em va mata ay Event log 7 Lo Ro mm LL i e Trendi Pune Line to line voltages mc daa Double click any A LE dad scia Geert of these buttons to see data logs m Phase power WE un eec tum Line to neutral voltages Double dick this object to enable or disable data logging Double click to see the min max screen Min max reset is available here Long term Min Max Double click the Long term Min Max object to see a Vista grouping window showing min max values for line to line and line to neutral voltages voltage unbalance phase currents power values and kW frequency and power factor Level 3 PEGASYS authority is required to reset the min max values To return to the real time diagram use the File Up One Level menu item Min max values are valid from the time the meter was powered or valid from the time the last reset was performed 2 4 7700 ION USER S GUIDE Historic Data Logging Enable The Log Server must be running to view historical data Historic data logging is enabled by default Level 3 PEGASYS authority is required to use the control object The control object indicates the logging enable status the switch is in the up position 1 when logging is enabled a
12. GAIVDC5B 5 to 5 VDC Analog Input Device 73G IV5B GAIVDC10 0 to 10 VDC Analog Input Device 73G IV10 GAIVDC10B 10 to 10 VDC Analog Input Device 73G IV10B GAIIDC420 4 to 20 mA Analog Input Device 73G I1420 Thermocouple Units GAITCJ Type J Thermocouple Input Device 73G ITCJ GAITCK Type K Thermocouple Input Device 73G ITCK GAITCR Type R Thermocouple Input Device 73G ITCR GAITCT Type T Thermocouple Input Device 73G ITCT GAIRTD 100 Ohm Platinum RTD Input Device 73G ITR100 TECHNICAL REFERENCE 5 25 Warranty and Registration This product is warranted against defects in materials and workmanship for three years The Warranty is effective from date of purchase Power Measurement Limited will repair or replace at its option any product found to be defective F O B point of manufacture during the Warranty period provided the equipment has been installed wired programmed and operated in accordance with the manufacturer s instruction manual included with each unit and the applicable sections of the Electrical Code The Warranty will be invalid if any unauthorized alterations are made to the product or if the product has been abused or mishandled Damage due to static discharges will void the Warranty as will application of voltages or currents out side the specified ratings of the device inputs EXCEPT TO THE EXTENT PROHIBITED BY APPLICABLE LAW NO OTHER WARRANTIES WHETHER EXPRESSED OR IMPLIED INCLUDING WARRANTIES OF ME
13. Please complete and mail the enclosed Warranty Registration card immediately This will allow us to add you to our mailing list to keep you up to date on the latest product firmware releases and new feature offerings Your comments and suggestions for product improvement and feature additions are welcome TECHNICAL REFERENCE 5 27 aes Se LL N APPENDIX A A NOTE All 7700 ION RM devices are equipped with 1 MB of NVRAM 7700 ION Revenue Meters This appendix provides an overview of the 7700 ION RMxxxx Revenue Meters The fundamental functions of a revenue meter are to provide measurements that are within industry accepted limits for accuracy over a defined range of operating conditions and to provide adequate protection against unauthorized alteration of these measured quantities International and national standards ensure industry accepted accuracy limits A combination of national and utility based standards regulates protection against unauthorized quantity alteration 7700 ION RM Models Two models of the 7700 ION RM revenue meter are available each model is designated by the certification it holds Type Certification Achievement Current Inputs Revenue Metering Security Systems RMICAN Canadian Revenue Metering Rated for 0 1 Amps Enabled unsealed Standards to 10 Amps AC RMANSI Accuracy complies with the ANSI Rated for 0 1 Amps Enabled unsealed C12 16 Revenue Metering to 10 Amps AC
14. Channel 12 Parameter DEFAULT kVAh total Channel 13 Parameter User Selectable CNT 1 Channel 14 Parameter User Selectable CNT 2 Channel 15 Parameter User Selectable CNT 3 Channel 16 Parameter User Selectable CNT 4 pono Recorder Depth Default 100 records 1 day Suggested Alternatives 960 records 10 days 1920 records 20 days 2880 records 30 days p Recorder Interval Default 15 minutes Notes 1 For compatibility with the UTS MV 90 billing software Data Recorder 1 must be configured as a 16 channel recorder 2 Data Recorder 1 is locked when it is sealed Channel assignments must therefore be specified prior to sealing 7700 ION USER S GUIDE Index A advanced features of the 7700 4 1 Advanced Setup folder 3 12 analog output modules 5 17 auxiliary analog inputs 4 16 4 19 bar graph displays MGT 2 15 4 40 basic configuration ION Designer 3 7 before you use this guide 1 6 C CBEMA plot 2 5 CBEMA Type 2 and Type 3 3 10 classes register See register classes clock setup 3 9 comm protocol configuring 3 13 common applications 1 1 communications options 1 4 communications options new 1 2 Communications Setup folder 3 8 configuration changes making 3 1 3 4 configuration improvements new 1 2 configuration tools 3 2 4 2 core modules 4 4 customizing the 7700 4 2 D default configuration See factory configuration data d
15. Dielectric Isolation Input to Output 1500 VAC rms Turn off Time Operating Temperature Range 20 C to 85 Storage Temperature Range 40 C to 125 C Transient Protection Meets ANSI 37 90 1989 Surge Withstand Capability Test Additional Specifications Operating Temp 0 C to 50 C 32 to 122 F ambient air for TRAN model 20 C to 50 C 4 F to 122 F Storage Temp 30 C to 70 C 22 F to 158 F Humidity 5 to 95 non condensing Standards Compliance UL UL Certified to UL 3111 CSA Certified to CAN CSA C222 No 1010 1 IEC 1010 1 Registered under CB Scheme to EN61010 1 International Surge Withstand quum Quality Assurance TECHNICAL REFERENCE Measuring inputs comply with Installation Category III Power supply inputs comply with Installation Category II inputs pass ANSI IEEE C37 90 1989 surge withstand and fast transient tests Part 15 of FCC Rules for a Class A Digital Device approved ISO 9002 certified by OMI 5 21 Ordering Information Basic Model 7700 ION With 85 240 VAC 110 300 VDC power supply MGT with 10 ft 3 0 m cable a single optically isolated RS232C RS485 communications port and 512kB of on board memory Revenue Metering Models 7700ION RMICAN 7700ION RMANSI Meets Canadian revenue metering standards unsealed Rated for 0 1 to 10 Amp AC
16. Setup Register Function Volts Mode The power system s configuration WYE DELTA Single etc PT Prim The Potential Transformer s primary winding rating for V1 V2 and V3 PT Sec The Potential Transformer s secondary winding rating for V1 V2 and V3 CT Prim The Current Transformer s primary winding rating for I1 I2 and I3 CT Sec The Current Transformer s secondary winding rating for 11 I2 and I3 14 CT Prim The Current Transformer s primary winding rating for 14 14 CT Sec The Current Transformer s secondary winding rating for 14 Nom Volts The nominal power system voltage used for power quality calculations Phase Lbls The phase label format assigned to the outputs ABC RST XYZ RYB RWB or 123 Serial COM The Serial COM menu accesses the Communications modules that control the 7700 ION s serial ports Comm 1 and Comm 2 Comm 3 on the optional XPRESS CARD Setup Register Function Comm Mode Sets the Comm 1 serial port s communications mode RS 232 or RS 485 Baud Rate Sets the communications speed in bits second for the serial port Unit ID Sets the 7700 ION s Unit ID a unique Unit ID is required for each device Protocol Sets the communications protocol for the serial port refer to page 3 8 These setup registers are available for each installed serial port The displays CM1 2 CM 3 to indicate communications ports 1 2 or 3 3 21 3 22 Ethernet COM The
17. You can also view the value in an output register using ION Designer software Hold down the Shift key and left click on the module s output USING ADVANCED FEATURES The 7700 ION s factory configuration uses approximately 90 of the available processing power Any additions you make to the device s configuration will increase this number The processor power used cannot exceed 100 You can add some functionally to the factory configuration without exceeding 10096 processor power By monitoring the impact each change has on the processor s capacity you can determine whether or not the change can be implemented without removing some existing functionality If frameworks you are adding exceed 10076 of available processor power you will be prevented from saving them in the device ION Designer or PowerView will report an error and you will not be able to download the framework If you want to make large additions or additions that use high speed modules you will need to dismantle some of the factory configuration to free up processing power first Checking the Processor Power Level The 7700 ION s Diagnostics module contains an output labeled Prc Pwr Used The output reports the amount of processor power being used by the device s configuration To monitor processor power add a numeric object to a Vista diagram and link it to the Prc Pwr Used output register of the Diagnostics module Each time you download a change you make i
18. however because you are required to specify time in milliseconds these modules should be addressed slightly differently Since the frequency of the system defines how many milliseconds there are ina cycle and the frequency of the system can drift slightly specifying an exact number of milliseconds may not always correspond with the number of cycles you expect For example if you specify a value in milliseconds that exactly corresponds to three cycles your event may sometimes occur every three cycles and sometime every four if there has been any drift You can take advantage of the fact that some modules always round time values up to the closest update rate they can support to ensure that your time value results in the number of cycles you want For example in a 60 Hz system if you specify 13 instead of 16 67 milliseconds the module will automatically update every cycle even if the frequency has drifted and the number of milliseconds in cycle has changed to 15 Sequence of Module Execution ION modules are executed in the order in which they are logically linked rather than the order in which you actually linked them In other words modules are executed in the same order in which the data flows from one module to the next This allows you to create a framework by linking modules in any order you want and maintain a logical execution order For example you can link the Data Recorder the Maximum and the Thermal Demand modules tog
19. 0 0210 3 5 1 0 Watt Amp typ 1 5 Watt Amp typ 0 02 to 1 0A 0 0210 3 5 A Turn on Time 8 3 msec max 8 3 msec max 20 usec max 75 usec max 75 usec max 60Hz 60Hz Turn off Time 8 3 msec max 8 3 msec max 50 usec max 750 usec max 500 usec max 60Hz 60Hz Surge Current peak 80 Amps 60 80 Amps 60 5 Amps maximum 5 Amps maximum 5 Amps maximum Hz 1 cycle 25 Hz 1 cycle 25 for 1 second for 1 second for 1 second Amps 60 Hz Amps 60 Hz 60 cycles 60 cycles Transient Power Dissipation N A N A 400 Watts 1 msec non recurring Optical Isolation Input to Output 4000 VAC rms Operating Temperature Range 40 C to 100 C Storage Temperature Range 40 C to 125 C Standards and Certification Transient Protection 5 20 UL File E58632 CSA File LR38763 Meets ANSI 37 90 1989 Surge Withstand Capability Test 1 0 Watt Amp typ 7700 ION USER S GUIDE Mechanical Relays Part Number Maximum Line Voltage GDODC100M 100 VDC 120 VAC maximum Contact Rating 10 Watts maximum Switching Current 0 5 A dc maximum Inductive loads require diode suppression Carrying Current 1 0 A maximum Inductive loads require diode suppression Contact Resistance 250 mQ maximum Turn on Time 1 0 msec maximum 1 0 msec maximum Off state Leakage Current 2 uA maximum 60Hz
20. 2 19 digital inputs 2 29 energy and demand 2 19 harmonics logging 2 25 historic data logging 2 23 min max 2 20 power quality monitoring 2 26 real time core modules 2 30 setpoint 2 28 factory information module 3 14 compliance 3 14 device type 3 14 nominal frequency 3 14 owner 3 14 revision 3 14 serial number 3 14 tags 3 14 firmware version 7700V200 1 2 fixed links 4 4 frameworks See also factory configured depth 4 3 editing 4 14 deleting links 4 14 output register owners 4 14 replacing links 4 14 G getting more information 1 6 GPS receivers supported 4 35 GPS time synchronization 4 32 Grayhill board See expansion boards grouping windows folders 3 6 H harmonics logging 3 11 logging framework 2 25 measurement and display 2 5 MGT screens 2 16 4 44 trending 2 6 high accuracy update rate 4 6 high speed capability framework 4 6 historic data logging 3 11 enable 2 5 framework 2 23 input ratings 5 15 Input Output 1 5 4 15 auxiliary analog inputs 4 16 expansion boards 4 16 new options 1 2 onboard status inputs 4 15 optional modules 5 16 register descriptions 5 2 inputs ION module 3 3 4 14 integrator screens MGT 4 49 INVLD and N A messages 2 14 ION architecture 3 3 ION Designer 3 5 accessing setup registers 3 6 changing setup registers 3 5 linking modules 4 11 main configuration screen 3 5 ION module 3 3 L labels ION register
21. CntChangeEvDepth 100 maximum number of Counter Change Events that can be stored AlStatic 16 bit Analog Input w o flag variant for Analog Input Static objects FrzAlStatic 16 bit Frozen Analog Input w o variant returned from Class O poll for Frozen Analog Input Static objects FrzAlEvents 16 bit Frozen Analog Event w o time variant for Frozen Analog Input Event objects FrzAlEvDepth 100 maximum number of Frozen Analog Input Events that can be stored AlChangeEvents 16 bit Analog Input Change variant for Analog Input Change Event objects Event w o time AlChangeEvDepth 200 maximum number of Analog Input Change Events that can be stored AOStatic 16 bit Analog Output Status variant for Analog Output Block objects SelectTimeout 10 Select Before Operate timeout period in seconds TimeSynchPeriod 86400 time in seconds between IED requests for time syncs ALFragSize 2048 maximum application layer message size in octets that IED can send DLAck Never when device will request data link layer acknowledgements DLTimeout 2 how long data link layer waits for acknowledgement from Master DLNumRetries 0 how many times a data link layer packet is re sent after failing USING ADVANCED FEATURES Importing Data using DNP 3 0 Data can be imported into the 7700 ION from a DNP control relay or analog output device DNP Slave Import modules are used to take a DNP Analog output or Binary output object and
22. Rec Del Rec Output A2 kVAh PULSE L Specify Del Rec Del Rec Output A3 kVAh PULSE Speci y Del Rec Del Rec Rollover O Default 1 000 000 Pulse Width ms Default 20ms Revenue Meters are factory sealed for use in Canada only All Revenue Meters must be registered with the regional Industry Canada Legal Metrology Branch office This registration process is the responsibility of the end customer or main contractor and results in an Industry Canada E number being issued for each energy demand meter Utility customers can use a meter tag number in place of an E number Energy Pulse Outputs requires optional IOCA card and relay modules Nameplate Information PLEASE PRINT CLEARLY 7700 ION REVENUE METERS 7 8 Data Recorder 1 Sealed Fill in the parameters to be recorded by the Data Recorder module 1 Channel 1 Parameter DEFAULT V avg Channel 2 Parameter DEFAULT I avg honus DEFAULT kW total Channel 4 Parameter DEFAULT total Channel 5 Parameter DEFAULT total Channel 6 Parameter DEFAULT PF Signed total DEFAULT FREQ Channel 8 Parameter DEFAULT kWh import Channel 9 Parameter DEFAULT kWh export Channel 10 Parameter DEFAULT kVARh import Channel 11 Parameter DEFAULT kVARh export
23. The value in the register is displayed and updated once per second EBENEN To set up a large character screen 1 Enterthe parameter handle of the first register you want to display on the screen then press ENTER If you want to keep the register that is currently in use press the button labeled KEEP PREVIOUS 2 Repeat step 1 for the remaining 3 registers that you want to display If at any point you want to return to the main menu press the ESC button You do not have to specify a handle for every register if you do not want to use all 4 lines Pressing ENTER will skip a line in the display screen that line will be left blank Bar Graph Screens The MGT offers two different kinds of bar graph screens to display numeric registers on the connected device a 4 channel and a 6 channel display These displays offer a graphical representation of fluctuations in the register values and they are suitable for viewing from a distance For both the 4 and 6 channel displays you can define a minimum and a maximum boundary of the bar graph and hence control the scale of the graph If you have linked any of the registers you are displaying to a Minimum or Maximum module you can also display the minimum and maximum values attained by the register 7700 ION USER S GUIDE 4 Channel Bar Graph The 4 channel bar graph displays four numeric register values in bar graph form If you are displaying high accuracy registers the graph is updated
24. With universal power supply MGT with 10 ft 3 0 m cable 1024kB on board memory and single optically isolated RS232 RS485 communications card Approval AE 0688 Accuracy meets ANSI C12 16 revenue metering standard unsealed Rated for 0 1 to 10 Amp AC With universal power supply 1024kB on board memory MGT with 10 ft 3 0 m cable and optically isolated RS232 RS485 communications card Meter Options must be specified with 7700 ION when ordering RM Revenue security enabled 5 Amp current inputs 120 For 69 120 120 208 or 120 240 single phase Volts systems 277 For 240 416 or 277 480 Volts systems 347 For347 600 Volts systems 50Hz For 50 Hz systems 60Hz For 60 Hz systems 1Amp 1 0 Amp nominal full scale current inputs P24 48 20 to 60 VDC power supply instead of 85 to 240 VAC 110 to 300 VDC TROP Tropicalization conformal coating treatment TRAN Modular Graphics Terminal MGT XMEM Additional 512kB of NVRAM XPRESS Basic XPRESS card with two RS 485 ports and one 10BaseT Ethernet port RMSEAL Factory sealed meter for RMICAN meters only Contact factory for RMSEAL checklist RMKEY Hardware key for programming unsealed revenue metering units Xpress Card Options FIBER 10BaseFL Ethernet port LONFT LonWorks with FTT10 Transceiver IMEG Extra 1 MB of memory 2MEG Extra 2 MB of memory 3MEG Extra 3 MB of memory 5 22 7700 ION USER S GUIDE Display Modular Graphics Terminal with 10
25. on page 4 11 How Custom Functions are Created To create custom functions ION modules are linked together and then configured Linking ION modules is a simple task output registers on one module are linked to the inputs of subsequent modules The data flows from the output register on the first module to the input on the second Each module that receives data makes decisions and processes the data based on the settings in its setup registers Once a module has processed the data it has received it makes the data available at its output registers These output registers can then be linked to the inputs of other modules and so on Most ION modules perform simple discrete functions Itis the combination of modules linked together that creates powerful functionality As the operation of the device can be separated into the specific smaller functions performed by the modules creating functionality is simple if you understand the functions of the component pieces Recommended Configuration Tools Both PEGASYS and PowerView software provide the tools necessary to customize the 7700 ION s operation Whenever possible PEGASYS ION Designer should be used to create custom functionality as it provides a more powerful interface to the device s internal operation ION Designer presents ION modules and module links graphically you are able to view the flow of data on the screen Many of the discussions in the chapter assume you are using ION Desi
26. the Maximum and Recorder modules If you used an Analog input module which all have a 1 second update rate instead of the high speed Power Meter module the framework would operate as high accuracy 1 second update rate In most cases the number of high speed capable modules is limited so you should only use them when necessary 4 6 7700 ION USER S GUIDE A NOTE The modules that have time sensitive setup registers include Setpoint Relative Setpoint Periodic Timer One shot Timer Digital Input Digital Output Pulse In addition both the Sliding Window Demand module and the Thermal Demand module have definable time intervals USING ADVANCED FEATURES Time Sensitive Modules Many modules in the 7700 ION have setup registers requiring you to specify a time interval Typically these registers are specified in seconds and you can enter any value that is within the allowable range Due to the update rate of the module however the time that you specify cannot always be supported If you specify a time that is shorter than the update rate of the module or falls in between update cycles the module will round up to the shortest time possible For high accuracy modules it is advisable to specify time values in the various setup registers in multiples of the update rate For high speed modules it is still advisable to restrict your time values to multiples of the update rate e g one cycle two cycles three cycles etc
27. 4 kVAh rec pulse e Data Recorder Module 1 Vhand lh 7700 ION USER S GUIDE Configuring the 7700 ION RM When enabled the 7700 ION RM security system prevents unauthorized alteration of revenue related quantities Refer to the previous section Security Mechanisms for details By default all 7700 ION RM meters are shipped from the factory with the security system enabled The following sections describe the steps required to configure a 7700 ION RM meter Safety Precautions Before attempting to remove the back plate of the 7700 ION RM ensure that the device is protected against static electric discharge To prevent damage to the unit wear an anti static wrist strap at all times During normal operation of the 7700 ION hazardous voltages are present which can cause severe injury or death These voltages are present on the terminal strips of the device and throughout the connected potential transformer PT current transformer CT status input relay and control power circuits Installation and servicing should be performed only by qualified properly trained personnel A CAUTION Failure to replace the XPRESS CARD before powering up the 7700 ION will result in loss of configuration data 1 Open all PT fuses or direct voltage input fuses and close all CT shorting blocks Turn off all power to the 7700 ION RM and disconnect the Line and Neutral or DC power wires from the Supply Power inputs to the unit 2 Di
28. 4 6 linking ION modules 4 2 4 3 4 11 4 13 linking restrictions ION module 4 3 logged parameters changing 3 11 LonWorks Networks 4 31 7700 ION USER S GUIDE M measurements preconfigured 2 19 See also factory configured min max framework 2 20 min max long term 2 4 2 6 Modicon Modbus protocol 3 13 4 20 factory configuration 4 20 importing data 4 24 module settings 4 21 Slave parameter map 4 22 Modular Graphics Terminal 2 13 3 18 bar graph screens 2 15 4 40 4 channel 4 41 6 channel 4 42 buttons 3 19 Configure ION 3 24 creating custom displays 4 37 data display screens 2 13 entering data 3 19 harmonics displays 2 16 4 44 integrator screens 4 49 interpreting numeric displays 2 14 INVLD and N A messages 2 14 large character screens 4 40 parameter reset 3 23 energy 3 23 min max 3 23 sliding window demand 3 23 status counter 3 23 thermal demand 3 23 parameter trending screens 4 45 passwords and timeout 3 20 Quick Setup 3 21 SETUP display screens 2 17 3 18 date time display 2 18 nameplate info 2 17 standard character screens 4 39 status display screens 4 46 7 and 14 4 47 large 4 46 trend displays 2 16 using display formats 4 38 waveform display screens 448 modules ION creating 4 12 deleting 4 12 execution sequence 4 7 linking 4 11 4 13 specifying a port 4 19 technical summary 5 2 time sensitivity 4 7 modules optional analog outpu
29. Amps 60 Hz 60 cycles 20 usec max 50 usec max 5 Amp for 1 second Power Dissipation On state Voltage Drop peak 1 5 Volts max 1 0 Watt Amp typical Optical Isolation Input to Output 4000 VAC rms Operating Temperature Range 40 C to 100 C Storage Temperature Range 40 C to 125 C Standards and Certification Transient Protection TECHNICAL REFERENCE UL File E58632 CSA File LR38763 Meets ANSI 37 90 1989 Surge Withstand Capability Test 3 to 60 VDC Part Number Nominal Line Voltage Load Power Factor Frequency Range Maximum Line Voltage Maximum Off state Leakage 60Hz AC or 60 VDC DC Load Voltage Range AC Outputs Zero Voltage Turn On GDOAC120 120 VAC 0 4 min 25 Hz to 70 Hz N A 24 to 140 VAC Normally Open Solid State Relays DC Outputs GDOAC240 GDODC60 240 VAC N A N A 25 Hz to 70 Hz N A N A 60 VDC 1 5 mA 24 to 280 VAC 3 to 60 VDC GDODC200 N A N A N A 200 VDC 0 01 mA 4 to 200 VDC GDODC60L Low Leakage N A N A N A 60 VDC 0 01 mA 3 to 60 VDC On state Voltage Drop Clamping Voltage 1 5 Volts max N A 1 5 Volts max 1 2 Volts max N A 80 VDC max 1 75 Volts max 360 VDC max 1 2 Volts max 80 VDC max Power Dissipation Load Current Range RMS 1 0 Watt Amp typ 0 0310 3 5 A 1 0 Watt Amp typ 0 03 to 3 5
30. Config none denotes Core module refer to Chapter 4 High Speed Capable none none Setup Registers Range or Options Creation Default Volts Mode AW WYE 3W WYE AW WYE DELTA SINGLE or DEMO PT Prim 1 to 999999 120 277 347 depends on ordering option PT Sec 1 to 999999 120 277 347 depends on ordering option CT Prim 1 to 999999 5 CT Sec 1 to 999999 5 14 CT Prim 1 to 999999 5 I4 CT Sec 1 to 999999 5 V1Polarity NORMAL or INVERTED NORMAL V2Polarity NORMAL or INVERTED NORMAL V3Polarity NORMAL or INVERTED NORMAL 11 Polarity NORMAL or INVERTED NORMAL I2Polarity NORMAL or INVERTED NORMAL I3Polarity NORMAL or INVERTED NORMAL I4Polarity NORMAL or INVERTED NORMAL PhaseOrder ABC or ACB ABC Nom Freq not configurable factory ordering option Phase Lbls ABC RST XYZ RYB or 123 ABC EvLog Mode LOG ON or LOG OFF LOG OFF PulseWidth 0 to 2 x 106 seconds 1 OutputMode PULSE or KYZ PULSE Polarity INVERTING or INVERTING NON INVERTING Port The Port option is variable and depends on the options ordered with the 7700 ION There is no default port the available ports will be presented when you enter this setup register Eval Mode Value Percentage Value Over Pickup to 1x10 96 0 Over Dropout to 1x10 96 0 Under Pickup 0 to 1x10 96 0 7700 ION USER S GUIDE ION Module Summary Table Continued ION Module Name
31. Counter S3 Counter Digital Input 4 status changes e e Counter 4 S4 Counter S4 Counter Digital Input 5 status changes e e Counter 5 S5 Counter S5 Counter Digital Input 6 status changes e e Counter 6 56 Counter 56 Counter Digital Input 7 status changes e e Counter 7 S7 Counter S7 Counter Digital Input 8 status changes e e Counter 8 S8 Counter S8 Counter Status change counter reset e e External Pulse 6 S Count Rset S Count Rset 2 29 Real Time Measurements Core Modules This portion of the factory configuration contains the real time phase voltage and current measurements harmonics measurements symmetrical components data and output from the device s real time clock Description of Displayed Accessible by Default ION Module ION Module Output Register Parameter or Function Vista PowerView MGT Name Label Label Phase A L N Volts e Power Meter Module Power Meter Vin a Phase B L N Volts e e e Vin b Phase C L N Volts e e e VIn c Average L N Volts e e e Vin avg L L Volts AB e e e VII ab L L Volts BC e e e VII bc L L Volts CA e e e VII ca Average L L Volts e e e VII avg Phase A Current e e e la Phase B Current e e e Ib Phase C Curreni e e e lc Average Current e e e avg Phase A kW e e e kW a Phase B kW e e e kW b Phase C kW e e e kW c kW total e e e kW tot Phase A kVAR e e a Phase B kVAR b Phase e e kVAR c kV
32. DNP Options module Do not make any changes to the DNP Options module s setup registers unless you understand the effects each change will cause Refer to the ION Reference for complete details on DNP Slave Export and DNP Options module function As DNP 3 0 is a very complex protocol an in depth understanding of DNP 3 0 is required to interpret the settings in the DNP Options module and the DNP Slave Export modules It is beyond the scope of this guide to describe DNP consult the DNP User s Group or other resources to learn more about the protocol DNP Slave Export Module Settings The 14 factory configured DNP Slave Export modules are configured as shown in the following table Setup Register Setting BasePoint Varies each analog input or binary counter has a different BasePoint StaticObj 11 modules are Analog Input three are Binary Counter EventObj Disable Event Objects Deadband 0 FrozStaObj Disable Frozen Static Objects FrozEvtObj Disable Frozen Event Objects EventClass Class 1 Scaling OFF excluding Unbalx10 and Freqx10 which are ON IONZero 0 IONFull 0 1000 for Unbalx10 and 100 for Freqx10 DNPZero 0 DNPFull O 10000 for Unbalx10 and 1000 for Freqx10 As the table indicates some of the setup register settings vary for different modules Specifically BasePoint will be different for each module within a group Analog Input and Binary Counter are groups and StaticO
33. Demand values OTHER SETTINGS accesses the CHANGE PASSWORD and PASSWORD TIMEOUT screens CONFIGURE ION provides access to the setup registers of all ION modules CONFIGURE BUTTONS is for creating custom MGT display screens refer to Chapter 4 The DISPLAY OPTIONS NAMEPLATE INFO and DATE TIME DISPLAY menu items are described in Displaying Data with the MGT in Chapter 2 3 18 7700 ION USER S GUIDE Using the MGT s Buttons Move through the MGT s menu items by pressing the buttons adjacent to menu items on the screen To enter data use the numeric keypad and the arrow keys to make a selection or enter a value detailed below Once a selection is made or a value is entered use the ENTER button to confirm the input and send the data to the 7700 ION The BKSP button is used to delete the values you have entered one character at a time The ESC button moves you back to the previously viewed screen discarding any changes you have made B d Use the arrow keys to move through options presented on the screen Use the keypad to enter numbers or letters when prompted Press the ESC key to return to the previous screen without making any changes Press ENTER to select a highlighted menu item or to confirm an input you have made Making Selections and Entering Data Many configuration changes are made by selecting options from a list To makea se
34. I O devices supported by the 7700 ION is available in Appendix A under the section Ordering Options The functions of the I O devices are controlled by Analog Input Analog Output Digital Input Digital Output and Pulser modules Refer to page 4 11 for instructions on adding modules to the 7700 ION using ION Designer software 7700 ION USER S GUIDE A NOTE Slots are numbered on the expansion boards Note that slots 0 7 do not support analog input devices and slot 15 is not used USING ADVANCED FEATURES The Input and Output modules are configured by specifying the port they use to send or receive signals see page 4 19 and configuring other settings specific to the type of operation they perform Refer to the ION Reference for complete details on the function of each module type Each expansion board offers 15 slots you can plug I O devices into Slots 0 through 7 support digital input digital output and analog output devices only analog input devices are not supported Slots 8 through 14 support digital input digital output analog input and analog output devices Slot 15 is not supported Other restrictions apply to the use of analog I O devices as discussed below Slots O through 7 support Slots 8 through 14 support DI DO and AO DI DO Al and AO Devices in slots through 7 must be Devices in slots 8 through 14 must ALL INPUTS or ALL OUTPUTS be ALL INPUTS or ALL OUTPUTS do not mix inputs and outputs do not
35. I O modules 5 16 setup register creation defaults 5 2 standards compliance 5 21 third party protocols 3 13 time synchronization 4 32 diagnostics and event logging 4 36 with GPS 4 32 4 35 with PEGASYS 4 34 time sensitive modules 4 7 timing considerations 4 6 transient module settings 3 10 trend displays MGT 2 16 U update rates 4 6 using this guide 1 5 V Vista displaying data 2 2 2 10 summary of data provided 2 2 digital inputs 2 3 energy and demand 2 2 power quality 2 2 real time measurements 2 2 setpoints 2 3 voltage disturbance counter reset 2 6 voltage unbalance monitoring 2 9 warranty and registration 5 26 waveform display screens MGT 4 48 what s new 1 2 X XPRESS CARD 4 28 protocol and IP number 4 30 SERVICE pin 4 31 7700 ION USER S GUIDE
36. Input 4 40095 40096 Imported kVARh kVARh imp Integrator Modbus Slave 4 Source Input 5 40097 40098 Exported kVARh kVARh exp Integrator Modbus Slave 4 Source Input 6 40099 40100 Total kVARh kVARh tot Integrator Modbus Slave 4 Source Input 7 40101 40102 Net kVARh kVARh net Integrator Modbus Slave 4 Source Input 8 40103 40104 Total kVAh kVAh Integrator Modbus Slave 4 Source Input 9 40105 40106 Max Phase A Voltage THD V1 THD max Maximum Modbus Slave 4 Source Input 10 40107 40108 Max Phase B Voltage THD V2 THD max Maximum Modbus Slave 4 Source Input 11 40109 40110 Max Phase C Voltage THD V3 THD max Maximum Modbus Slave 4 Source Input 12 40111 40112 Max Phase A Current THD I1 THD max Maximum Modbus Slave 4 Source Input 13 40113 40114 Max Phase B Current THD 12 THD max Maximum Modbus Slave 4 Source Input 14 40115 40116 Max Phase C Current THD I3 THD max Maximum Modbus Slave 4 Source Input 15 40117 40118 Importing Data using Modbus RTU It is possible to bring data into the 7700 ION using Modbus Various ION registers can be written by Modbus Master devices by correlating the Modbus register number with the address of the ION register you want to write When a Modbus register is written with a value the corresponding ION register will be written provided the Modbus RTU protocol is active on the communications channel that connects the Modbus Master to the 7700 ION You can use
37. Modules 2 t iaiia aanas 5 17 Digital Input Modules nete neret eee teris 5 17 Digital Input Dry Contact Modules sse eee 5 18 Thermocouple Input Modules sss 5 18 RID Input Modules rtt tei ett ind 5 18 Digital Output Modules inerenti 5 19 Additional Specifications sse eene 5 21 Standards Compliance 5 21 Ordering Or abingah Kn eee eene ga a ga naka nnne 5 22 Warranty andiReg ISA on eienn sanesa 55 nge pan roei aaa NGANGGE EES BAG Apang Ng 5 26 Product Return Procedure a ga wa aaa ana ni A ener eene enne 5 26 1 M 5 27 5 1 ION Module Summary The following table pages 5 2 through 5 12 lists all of the ION modules available in the current version of the 7700 ION The table shows how many of each ION module are available how many of each are used in the factory configuration and how many are high speed capable high speed capable modules update every cycle standard modules update every second A NOTE Refer to the ION Reference for complete ION module details The ION Module Summary table also shows the ranges or options available for each module s setup registers and the setting each register holds when a new module is created Setup Register Creation Defaults It is important to note that the creation defaults shown in
38. Register Parameter or Function Vista PowerView MGT Name Label Label High kW total e e Maximum 40 kW tot high kW tot high High kVAR total e e Maximum 41 kVAR tot high kVAR tot high High kVA total e e Maximum 42 kVA tot high kVA tot high High Power Factor lag e e Maximum 43 PF lag high PF lag high High Power Factor lead e e Maximum 44 PF lead high PF lead high High Frequency e e Maximum 45 Freq high Freq high Low L L Volts AB e Minimum 20 VII ab low VII ab low Low L L Volts BC e e Minimum 46 VII bc low bc low Low L L Volts CA e e Minimum 47 VII ca low VII ca low Low L L Volts average e e Minimum 33 VII avg low VII avg low Low Voltage Unbalance e e Minimum 34 V unbal low V unbal low Low Phase A Current e e Minimum 35 low low Low Phase B Current e e Minimum 36 b low b low Low Phase C Current e e Minimum 37 I c low c low Low Average Current e e Minimum 38 avg low avg low Low Neutral Current e e Minimum 39 14 low I4 low Low kW total e e Minimum 40 kW tot low kW tot low Low kVAR total e e Minimum 41 kVAR tot low kVAR tot low Low kVA total e e Minimum 42 kVA tot low kVA tot low Low Power Factor lag e e Minimum 43 PF lag low PF lag low Low Power Factor lead e e Minimum 44 PF lead low PF lead low Low Frequency e e Minimum 45 Freg low Freg low Historic Logging Trigger e Periodic Timer 2 Hist Log Trg Hist Log Trg Historic Logging Enable e E
39. Relative Setpoint continued 4 N Sag Swell b Scheduler Sliding Window Demand Symmetrical Components gt Thermal Demand Total Available in 7700 24 40 Used in Factory Config none none 29 denotes Core module refer to Chapter 4 TECHNICAL REFERENCE High Speed Capable none 24 none none Setup Registers Range or Options Creation Default Under Dropout to 1x10 96 0 SusUntlON O to 3600 seconds 0 SusUntlOFF O to 3600 seconds 0 EvPriority 255 128 Swell Limit 100 to 1000 96 106 Sag Limit O to 100 88 ChangeCrit O to 100 96 10 NomVoltage to 1x10 Volts 1200 EvPriority 255 127 Calendar refer to ION Reference High Limit 1x 10 to 1 x 10 0 Low Limit 1 x 10 to 1 x 10 0 SusUntlON 0 to 3600 0 SusUntlOFF 0 to 3600 0 Input Mode Signed or Absolute Signed Eval Mode GreaterThan or LessThan GreaterThan EvPriority 255 128 Sub Intvl 60 to 5940 seconds 1800 s Sublntvis 110 15 1 Pred Resp O to 99 70 Harmonic fixed at the fundamental harmonic Interval 60 to 5940 seconds 1800 Time Const 1 to 99 9096 ION Module Name Transient Waveform Recorder Total Available in 7700 Used in Factory Config ION Module Summary Table Continued High Speed Capable Setup Registers Range or Options Creation Default
40. Send Delta 1x10 All Data Source 35x10 All SNVT no setup registers no setup registers refer to ION Reference SNVT not used 7700 ION USER S GUIDE ION Module Summary Table Continued ION Module Name Modbus Slave M IGN One Shot Timer Pe Periodic Timer Power Harmonics x kw Total Available in 7700 90 TECHNICAL REFERENCE Used in Factory Config none none High Speed Capable none none none Setup Registers Range or Options Creation Default Format Unsigned 16B 1 Unsigned 16B Signed 16B 2 amp 3 Signed 32 Unsigned 32B 4 Signed 32B M10K Signed 32B Unsigned 32B M10K Signed 32 M10K Packed Boolean Base Addr 400001 to 41800 1 40011 2 40027 3 40059 4 40089 Scaling Yes or No 1 2 and 3 Yes 4 No In Zero In Full 1 x 1038 1 x 1038 1 0 6553 2 214748364 214748364 3 214748364 214748364 4 No Scaling Out Zero Out Full 2147483647 to 1 0 65530 2147483647 2 2147483640 2147483640 3 2147483640 2147483640 4 No Scaling Duration 0 010 to 2 x 10 seconds 1 Period 0 010 to 2 x 10 seconds 900 Sync Mode NO TRIG ON SYNC or NO TRIG ON SYNC Harmonic Number TRIGGER ON SYNC 1 to 63 5 9 ION Module Summary Table Continued ION Module Name Power Meter Relative Setpoint Total Available in 7700 Used in Factory
41. The ION Module The ION module is the basic building block of the ION device s operating software module can be considered as a function box it receives data from its inputs makes decisions based on the settings in its setup registers and then makes data available at its output registers All functionality provided by an ION device can be considered in terms of its modules and the linkages between them OUTPUT REGISTERS The module holds the results of its calculations in its output registers this data is available to other modules INPUTS Data flows into the module through the inputs inputs are connected to the output registers on other ION modules ION Module Input 1 Input 2 SETUP REGISTERS Settings in the setup registers control how the module processes data MAKING CONFIGURATION CHANGES 3 3 A NOTE More detail on ION modules and registers is provided in Chapter 4 There are approximately 50 types of modules in the ION architecture the 7700 ION has 32 different module types Most ION devices can support several instances of a certain module type for example the 7700 ION supports 16 Thermal Demand modules 20 Periodic Timer modules and one Clock module ION Registers Each module has one or more output registers and most modules have Setup registers A module s inputs can be thought of as a link to the output registers on other modules There are different types of registers cla
42. USER S GUIDE Minimum 2 The cursor looks like this when a linking operation is progress USING ADVANCED FEATURES Linking Modules Module linking involves clicking on one module s output register symbol choosing the output register you want to link then clicking the input of a second module and selecting the input to link to This operation can be performed in reverse you can start with one module s input and link to another module s output register if desired You can link modules that reside on different nodes provided that you are linking between software nodes or from a meter to a software node You cannot link modules between meters The paragraphs below describe how to link modules that reside on the same node Refer to the ION Reference or the ION Designer On Line Help for instructions if you want to link modules that reside on different nodes Follow the steps below to link modules on the 7700 ION 1 To lista module s output registers click on the symbol on the right side of the module icon To list the module s setup registers hold the CTRL key while clicking on the symbol In most cases a pop up menu will appear listing the available registers If the module has many registers a dialog box will appear instead 5001 S winDemand 5001 PredDemand Event Register or 2 Click on the register you want to select In the case of the dialog box double click on an output register or ch
43. appear in Port setup registers if the optional analog input card is installed The following tables indicate what ports selections are available with the different 7700 ION I O options Expansion Board Expansion Board Status Inputs Aux Analog Inputs Port Port B O STATUS1 AUX1 optionalDC Port A 1 Port B 1 STATUS2 AUX1 optionalAC Port A 2 Port B 2 STATUS3 AUX2 optionalDC Port A 3 Port B 3 STATUS4 AUX2 optionalAC Port 4 Port B 4 STATUS5 AUX3 optionalDC Port A 5 Port B 5 STATUS6 AUX3 optionalAC Port A 6 Port B 6 STATUS7 AUX4 optionalDC Port A 7 Port B 7 STATUS8 AUX4 optionalAC Port A 8 Port B 8 Port A 9 Port B 9 Port A 10 Port B 10 Port A 11 Port B 11 Port A 12 Port B 12 Port A 13 Port B 13 Port A 14 Port B 14 Auxiliary analog input options include 0 20mA 0 1 0 1V and 0 10V Note that ION module setup registers will only display the ports that are not yet assigned As the 7700 ION s factory configuration makes use of all eight status inputs STATUSI through STATUSS will not appear in new Digital Input modules you create To make a STATUS port available set the Port setup register to NOT USED in one of the factory configured Digital Input modules USING ADVANCED FEATURES 4 19 Using the Modbus RTU Protocol A NOTE Refer to the document 7700 ION Modicon Modbus Seria
44. data from the factory configured displays Use the ESC button to exit the screen you are in and return to the last screen you viewed The STATUS light is on when the MGT is operational The 24 screens provided display data in a number of different formats The following paragraphs detail some of the important aspects of the various display formats DISPLAYING DATA 2 13 Interpreting Numbers in Numeric Displays Eleven of the 24 display screens show up to 15 parameters in a list with the parameter name on the left and the corresponding value on the right One of the screens Total Power uses a large character display with four parameters on the screen Both the standard 15 parameter display and the large character display show numeric values When displaying numeric values the MGT can display up to four digits of resolution If more than four digits of resolution are required use PEGASYS software to display data If a value is too large or too small to be displayed with four digits the MGT uses an abbreviated engineering notation that uses standard metric prefixes to indicate the magnitude of the reading For example MCGT Display Value 120140 cincti 0 0124 12K A0 inn nitet eet tte 12 400 12MMO 12 400 000 16240 1 240 000 000 Numeric values are displayed in base units voltages are displayed in volts while current is displayed in amps The following values however a
45. dialog to see that various standard modules will be deleted Press OK on the confirmation dialog box After a brief wait the modules are deleted and the main 7700 ION Configuration screen is blank except for the Advanced Configuration folder the Advanced folder contains the core modules which cannot be deleted 3 ChooseSelect from the Edit menu to select the Advanced Configuration folder this also selects all folders and modules within the folder 4 Choose Paste from Framework in the Edit menu and select the file 7700 v20 default fwn from the PEGASYS 2 0 Config fmwk nd folder Click OK Click OK on the confirmation dialog box A message appears indicating that ION Designer is pasting modules 5 All modules are selected when the paste is complete Click anywhere in the background of the node diagram to deselect all of the modules Click the Power Meter shortcut in the Basic Configuration box to select it 6 With the Power Meter module shortcut selected click the Reset button in the ION Designer toolbar or select Reset from the Edit menu This reverts the Power Meter to the settings it had before you deleted any modules retaining the basic setup you previously had Choose Send amp Save from the File menu The factory configuration is now restored any custom functionality you created is removed Adding and Linking Modules in ION Designer USING ADVANCED FEATURES In most cases you will only need to change the settin
46. display meters then click on the 7700 ION 2 12 Status Monitoring of over kW over phase currents and over voltage unbalance status of Digital Inputs Waveform All waveform records in tabular form waveform plotting functions PowerView s Data Screens Mode In order to view data in PowerView you must first set the view mode to Data Screens This is done by selecting Data Screens from the View menu or clicking the Data Screens button on the toolbar see the graphic below Once in Data Screens mode select a meter in the left pane and the right pane displays the data display groups that are available for viewing i EWA 5 7 a z s Double click folders to see tA additional data screens a WORST ATOM Er E radar Double click a data screen icon to view the associated data Selecting Different Display Screens PowerView can display different data screens for different versions of the 7700 ION New data display screens called tables can be downloaded from Power Measurement s website at www pml com Save these tables in PowerView s Tables Pm17700 Default folder Contact Power Measurement Customer Service if you need assistance To change to a different set of display screens expand the workstation tree and right click the meter s icon Select Properties from the pop up menu Under the Display tab of the Device Properties dialog box select from the list of tables shown Although all tables shown will
47. event detection and waveform recording Double click this object enable or disable harmonics logging DISPLAYING DATA 25 2 6 Voltage Disturbance Counter Reset Level 3 PEGASYS authority is required to reset the power quality event counter the manual waveform trigger and the control objects Disturbance Details The Log Server must be running to view the CBEMA plot or sequence of events data Harmonics Measurements Total Harmonics Distortion THD is displayed as a percentage of phase measurements Long term Min Max Double click the Long term Min Max object to see a Vista grouping window showing min max values for phase voltage and current THD Level 3 PEGASYS authority is required to reset the min max values Harmonics Trending The Log Server must be running to view the logged harmonics data Harmonics data logging is enabled by default Level 3 PEGASYS authority is required to use the control object The control object indicates the logging enable status the switch is in the up position 1 when logging is enabled and down 0 when logging is disabled 7700 ION USER S GUIDE Net energy values Energy amp Demand The Energy amp Demand diagram shows the real time sliding window demand for kW and and the real time energy values kWh net kVARh net and kVAh Peak demand is displayed for KW and and a link to a demand profile trend is
48. every second If you are displaying high speed registers without minimum and maximum values indicated the graph is updated every 100 msec with the minimum and maximum values displayed the update rate is 1 second The value in the register is represented by the position of the bar No number is given The register label is displayed or the register name if no label has been setup The high boundary of the scale is shown here The low boundary of the scale is shown here If you have elected to show min and max bars they are displayed as the symbols and To set up a 4 channel bar graph screen 1 Enterthe parameter handle of the first register you want to display on the screen then press ENTER If you want to keep the register that is currently in use press the button labeled KEEP PREVIOUS 1 Enter the minimum boundary for the bar graph scale then press ENTER Note that this value should be the lowest value you expect the register to attain For example if your bar graph is to display the voltage on phase a and you expect the voltage to be around 1200 V you may want to enter 1000 as your minimum boundary If you want to keep the value that is currently in use press the button labeled KEEP PREVIOUS 2 Enter the maximum boundary for the bar graph scale then press ENTER Note that this value should be the highest value you expect the register to attain For examp
49. mx I3 THD mx Max Frequency e e Maximum 21 Freq mx Freq mx Max Power Factor Lead e Maximum 22 PF lead mx PF lead mx Max Power Factor Lag e e Maximum 23 PF lag mx PF lag mx Max Phase A Voltage THD e e e Maximum 24 V1 THD mx V1 THD mx Max Phase B Voltage THD e e e Maximum 25 V2 THD mx V2 THD mx Max Phase C Voltage THD e e e Maximum 26 V3 THD mx V3 THD mx Max kW SW Demand e Maximum 27 kW swd mx kW swd mx Max kVAR SW Demand e e e Maximum 28 kVAR swd mx kVAR swd mx Max kVA SW Demand e e e Maximum 29 kVA swd mx kVA swd mx Max kW Thermal Demand Maximum 30 kW td mx kW td mx Max kVAR Therm Demand e e Maximum 31 kVAR td mx kVAR td mx Max kVA Thermal Demand e e Maximum 32 kVA td mx kVA td mx Min Phase A L N Volts e e e Minimum 1 mn VIn a mn Min Phase B L N Volts e e e Minimum 2 Vin b mn Vln b mn Min Phase C L N Volts e e e Minimum 3 Vln c mn VIn c mn Min Average L N Volts Minimum 4 VIn avg mn VIn avg mn Min L L Volts AB e e e Minimum 5 ab mn VII ab mn Min L L Volts BC e e e Minimum 6 VII bc mn VII be mn Min L L Volts CA e e e Minimum 7 VII ca mn VII ca mn Min 1 1 Volis e Minimum 8 VII avg mn VII avg mn Min Voltage Unbalance e e e Minimum 9 V unbal mn V unbal mn Min Phase A Current e e e Minimum 10 la mn mn Min Phase B Current e e e Minimum 11 Ib mn b mn Min Phase C Current e e e Minimum 12 c mn Ic mn Min Average Current e Mini
50. of the data provided by the factory configured meter and shows which parameters are displayed or accessible by default in each of the tools provided by Power Measurement Energy amp Demand Framework The energy and demand configuration calculates and logs energy values and both Thermal and Sliding Window demand Fxternal triggers are included for operator reset of all values Description of Displayed Accessible by Default ION Module ION Module Output Register o Parameter or Function Vista PowerView MGT Name Label Label imported kWh Imported kWh Integrator 1 kWh imp kWh imp Exported kWh e e e Integrator 2 kWh exp kWh exp Total kWh e e Integrator 3 kWh tot kWh tot Net kWh e e Integrator 4 kWh net kWh net Imported kVARh e e e Integrator 5 kVARh imp kVARh imp Exported kVARh e e e Integrator 6 kVARh exp kVARh exp Total kVARh e e Integrator 7 kVARh tot kVARh tot Net kVARh e e Integrator 8 kVARh net kVARh net kVAh e e e Integrator 9 kVAh kVAh kW thermal demand TD e e Thermal Demand 1 kW td kW td kVAR TD e e Thermal Demand 2 kVAR td kVAR td kVA TD e e Thermal Demand 3 kVA td kVA td Average current TD e e Thermal Demand 4 avg td l avg td Energy Demand Periodic Timer 1 EgyDmd Log Trg EgyDmd Log Trg Logging trigger Energy Demand e e External Boolean 5 EgyDmd Log Enbl EgyDmd Log Enbl Recorder Enable Energy Calc Enabl
51. power monitoring and control application This Intelligent Electronic Device IED can take the place of numerous transducers meters and control circuits in your power monitoring system The 7700 ION provides true RMS measurements of voltage current power and energy complemented by extensive I O capabilities comprehensive logging and advanced power quality functions HARA LINK Lit i LELELRELAER SANAN GEN Cau Curie iw The 7700 ION with the Modular Graphics Terminal The 7700 ION can be used effectively in numerous supply side and demand side operations Some common applications of the 7700 ION are Revenue Metering Substation Automation Commercial Industrial Metering Power Quality Monitoring Capacitor Control SCADA These are just a few of the many possibilities Contact Power Measurement Customer Service if you would like assistance with your application 1 1 The 7700 ION is Factory Configured and Ready to Operate Although the 7700 ION is fully customizable it is shipped from the factory with many functions pre configured Once installation and basic setup are preformed all of the basic measurements energy calculations and recording functions are ready to operate right out of the box Many users will find that the factory configuration will serve their purposes without performing any additional configuration What s New in Firmware Version 7700V200 Firmware version 7700V200 o
52. provided Control objects for enabling disabling demand logging and resetting energy and demand values are also included Peak sliding window demand SCADA switchgear Tad Erang amp Demand I MM D Emz Turci Double click this Slidi indow d d ard Ten object to see the iiia ici Wirun ee energy amp demand Millia 3 log eh erano i E I Fra wiht Li MEN EE a nus Haad rar aar mi emp i bimi iey Hj DISPLAYING DATA zn Pye Pd A248 Metri Tirai Double click this object to enable or disable energy and demand logging Demand Energy and Peak Demand Reset Level 3 PEGASYS authority is required to reset these values Demand Profile Trending The Log Server must be running to view the energy and demand log Energy and demand logging is enabled by default Level 3 PEGASYS authority is required to use the control object The control object indicates the logging enable status the switch is in the up position 1 when logging is enabled and down 0 when logging is disabled 2 7 2 8 Setpoints The Setpoints diagram uses setpoints to monitor KW demand over current and voltage unbalance levels Vista annunciates warnings if any of the values exceed specified upper limits Users with Level 3 PEGASYS authority can define the setpoint limits Double click this object to set the kW deman
53. that type created in the 7700 ION s factory configuration If a module Hime e Views DM Shes D pora IE verdi cxt duri Mannan M Lg inisgradca Medes CUM pari Mak kan M pehak LL Mon lm Lp irarum hirii T law blah kan ee hat Mrak ini Find kakak ken Lifen Heroe Hodde OPs hida C Puss Manga Horie DPs Hade Raani Sal jawi M iain i Lp aa Lg chari M packet Ditaip ah kn e Peine Dine A ab keni Lg Thesm Lg d nani M orici t Lan Fes Double click a folder to view the modules of that type appears double click it to configure its setup registers Determining Which Modules to Configure The 7700 ION is factory configured to be fully operational Unless you have a specific setting you want to change you should not edit any of the device s modules If you need to make a change to the device s operation you have to A NOTE If you are unable to determine which module you need to configure to achieve a specific lype of operation contact Power Measurement Customer Service MAKING CONFIGURATION CHANGES determine which module you need to configure This is usually a simple task as all of the ION modules use names that indicate their function If you have a specific task you need to perform but you don t know which module controls that task first refer to Configuring the 77
54. the ION modules in the selected device To edit a module s setup registers double click the module s icon Note that the number of ION modules that appear in the right pane depends on PowerView s setup mode described on the next page MAKING CONFIGURATION CHANGES 3 15 PowerView s Basic and Advanced ION Setup Modes PowerView has two setup modes Basic ION Setup and Advanced ION Setup By default PowerView is set to Basic ION Setup mode and only the ION modules that commonly require user configuration are displayed In Advanced ION Setup mode PowerView displays all of the ION modules available in the device Using Basic ION Setup Mode When you initially select Setup Screens mode in PowerView the kW Sliding Window Demand module and the Power Meter module are displayed in the right pane Double click the kW Sliding Window Demand module to set the Sub Intol SubIntvls and Pred Resp setup registers Refer to page 3 9 for a description of each of these setup registers Double click the Power Meter module to configure various basic setup settings such as PT CT ratios and power system configuration Refer to page 3 7 for a description of each of the Power Meter module s setup registers Changing to Advanced Setup Mode For a comprehensive view of all ION modules in the 7700 ION set PowerView to Advanced ION Setup mode Advanced ION Setup mode can be set for individual devices in the network Right click on the device you
55. the table apply only to new modules when they are created in the device The setup register settings shown do not apply to modules that are included in the factory configuration Many of the modules in the factory configuration have been configured with custom settings Input and Output Register Descriptions Complete descriptions of each module s inputs and output registers can be found in the ION Reference This document also includes operational descriptions for each module type The ION Reference is shipped with PEGASYS software and provided in digital format on Power Measurement distribution CD ROMs ION Module Summary Table ION Module Total Name Available in 7700 Alert 10 ts Used in Factory Config none Capable 10 Setup Registers Range or Options Creation Default Message Up to 120 characters default message Priority 255 128 Destination Up to 50 characters 9 999 999 9999 Type PEGASYS alphanumeric PEGASYS Pager Numeric Pager or ASCII Pager Num Up to 16 characters empty Com Port Com 1 Com 2 Com 3 or Not a port Not a port Attempts 1 to 20 3 Retry Time 5 to 86400 15 Lockout Time 0 to 86400 0 Location Up to 50 characters meter s network name Modem Init Up to 50 characters AT QOV1EO 5 2 7700 ION USER S GUIDE ION Module Summary Table Continued ION Module Name Analog Input Analog Output AND OR zi Arithmetic
56. 0 la mean mean Mean Phase B Current e e SW Demand 11 b mean b mean Mean Phase C Current e e SW Demand 12 c mean c mean Mean Average Current e e SW Demand 13 avg mean avg mean Mean Neutral Current e e SW Demand 14 14 mean 14 mean Mean kW total e e SW Demand 15 kW tot mean kW tot mean Mean kVAR total e e SW Demand 16 kVAR tot mean kVAR tot mean Mean kVA total e e SW Demand 17 kVA tot mean kVA tot mean Mean Power Factor lag e e SW Demand 18 PF lag mean lag mean Mean Power Factor lead e SW Demand 19 PF lead mean PF lead mean Mean Frequency e e SW Demand 20 Freq mean Freq mean High L L Volts AB e e Maximum 20 VII ab high Vil ab high High L L Volts BC e e Maximum 55 VII bc high VII bc high High L L Volts CA e e Maximum 56 VII ca high VII ca high High L L Volts average e e Maximum 33 Vil avg high VII avg high High Voltage Unbalance e e Maximum 34 V unbal high V unbal high High Phase A Current e e Maximum 35 a high a high High Phase B Current e e Maximum 36 b high b high High Phase C Current e e Maximum 37 c high c high High Average Current e e Maximum 38 avg high avg high High Neutral Current e e Maximum 39 I4 high I4 high DISPLAYING DATA 2 23 2 2 Historic Data Logging Framework Continued Description of Displayed Accessible by Default ION Module ION Module Output
57. 00 ION with ION Designer earlier in this chapter ION Designer software organizes the modules into the types of functions they perform such as Power Quality Setup Demand Setup and Meter Clock Setup If you can find the type of operation you need to perform in the headings under Configuring the 7700 ION with ION Designer you can see which modules are used for that operation Also refer to Complete List of Factory Configured Measurements and Functions in Chapter 2 Measurements are described and correlated with module names in this table Configuring the 7700 ION with the MGT The MGT provides device setup capability at the 7700 ION s installed location of the 7700 ION s setup registers can be configured moving through menus on the MGT s screen ION module links cannot be added or deleted using the MGT The MGT also provides quick access to parameter reset for common cumulative parameters The MGT s Setup Menus To access the MGT s device configuration functions press the button next to the SETUP menu item the top button on the left of the display screen If the SETUP menu item does not appear on the MGT s display press the button next to the PREVIOUS menu item until the SETUP option becomes available Press SETUP to enter the MGT s main Setup Menu Use QUICK SETUP fo change PT CT values communications setup and demand intervals PARAMETER RESET allows you to reset Status counters and Min Max Energy and
58. 00 nne 00 nenen 00 nne 0a nenen en nen 4 6 Time Sensitive MOdules ss isa sasa pang ag a gana ag ag anan a eag a aa naga kant aan aan a aaa 4 7 Sequence of Module Execution enne eee eee tereti reinen 4 7 ION Event Priority Groups eese nete estne nenen nenen ntn stata te tota insat 4 8 External ION evehtsz eiecit ttc nete a ete dean eee 4 9 Dismantling the Factory Configuration eese 4 9 Checking the Processor Power Level eene eee e een 4 9 Deleting Factory Configured Functions seen 4 10 Adding and Linking Modules in ION Designer eese 4 11 Creating New Modules o teet rte nien tei Deere 4 12 Deleting Modules een iet o RB EUER D eas 4 12 Linking Modules retire tese eim ne Heber ite fiber eee rn 4 13 Editing Existing Frameworks sssseeeeeeenenee eene eene 4 14 Using Onboard and Expansion eese tenete tetn tnn tn tnn 4 15 Onboard Status Inputs ttem teo ipee eei teneret diee n 4 15 Auxiliary Analog Inputs oie etit ade ceti deed 4 16 INO Expansion Boards eerte eet genetic ety een 4 16 Specifying a Port in an ION Module sse ene nnne 4 19 Using the Modbus Protocol csssesecssssssssssssssessssssssesesesescsssssensesessssesssssseenes 4 20 The 7700 ION s Factory Modbus Configuration
59. 0V 0 1V gt 50 12 0 10V gt 50 25V Note that each of the four analog inputs can be configured to monitor AC or DC signals however all four inputs must be configured with the same input rating In other words if you ordered the AUX 20mA option all four inputs must be configured as 0 20mA but some can be AC and some can be DC ION Analog Input modules control the function of each analog input As the analog input board is optional no Analog Input modules are included in the 7700 ION s factory configuration Refer to page 4 11 for instructions on adding an ION module to the 7700 ION Analog Input modules are configured by selecting the port they monitor and setting the scaling values used to normalize the incoming signal Once configured you can link the output of the Analog Input module to any other module that accepts numeric data INO Expansion Boards Do not use digital output modules on I O Expansion Board B for control applications False triggers may result when supply power to the board is lost Contact Power Measurement Customer Service for assistance if you want to use digital output modules on I O Expansion Board B for control purposes 4 16 The external input and output capabilities of the 7700 ION can be expanded using up to two plug in I O expansion boards Each expansion board can provide multiple analog inputs analog outputs digital inputs and or digital outputs list of the
60. 16 Bit Frozen Counter Without Flag 5 5 ION Module Summary Table Continued ION Module Total Used in High Setup Registers Range or Options Creation Default Name Available Factory Speed in 7700 Config Capable DNP Slave 1 1 1 FrzCntEvents 32 Bit Frozen Counter 16 Bit Frozen Counter Options Event Without Time Event Without Time continued 32 Bit Frozen Counter Event With Time DNP 16 Bit Frozen Counter C Event Without Time e 16 Bit Frozen Counter Note DNP is Event With Time only available on Com 2 or Com 3 FrzCntEvDepth Fixed at 100 100 CntChangeEvents 32 Bit Counter Change 16 Bit Counter Change Event Without Time Event Without Time 32 Bit Counter Change Event With Time 16 Bit Counter Change Event Without Time 16 Bit Counter Change Event With Time CntChangeEvDepth Fixed at 100 100 AlStatic 32 Bit Analog Input 16 Bit Analog Input 32 Bit Analog Input Without Flag Without Flag 16 Bit Analog Input 16 Bit Analog Input Without Flag FrzAlStatic S 32 Bit Frozen Analog Input 16 Bit Frozen Analog Without Flag Input Without Flag 32 Bit Frozen Analog Input With Time of Freeze 16 Bit Frozen Analog Input Without Flag 16 Bit Frozen Analog Input With Time of Freeze 32 Bit Frozen Analog Event 16 Bit Frozen Analog Without Time Event Without Time 32 Bit Frozen Analog Event With Time 16 Bit Frozen Analog Event Without Time 16 Bit Frozen Analog Event With Time FrzAlEven
61. 2 5 0 25 0 1 0 1 1 LSD 0 to 3 3x107 to 3 3 107 25 to 12596 FS kW Q 0 5 PF 0 696 5 096 0 596 0 196 0 1 1LSD Oto 3 3x107 O to 3 3x107 5 to 25 FS kW 0 5 PF 0 4 5 0 0 5 0 1 0 1 1LSD Oto 3 3x107 0 to 3 3x107 2596 to 12596 FS kVAR 596 FS 1 096 2 5 0 25 0 1 0 1 1 LSD 0 to 3 3x107 to 3 3 107 kVAR 5 to 12596 FS 0 55 0 005 2 5 0 25 0 1 0 1 1 LSD Oto 3 3x107 0 to 3 3x107 kWh kVARh Unity PF IEC 0 5 Class 25 0 1 of reading Oto 1038 kWh kVARh 0 5 PF IEC 0 5 Class 25 0 196 of reading Oto 1038 Harmonics to 63rd 1 Full Scale 0 196 0 0001 to 100 00 K Factor 596 Full Scale 0 1 O to 1x106 Power Factor Unity PF 0 55 0 025 3 5 0 35 0 01 1 0 01 to 100 00 O to 100 to O 100 00 to 0 01 Power Factor 0 75 0 025 6 0 0 6 0 01 1 0 01 to 100 00 Oto 100 to 0 5 Lag amp 5 Lead 100 00 to 0 01 Symmetrical Components 196 Full Scale E 0 196 Magnitude O to 1x10 Phase Resolutions given are from the MGT Higher resolution can be obtained via communications kWh Accuracy Specification meets or exceeds IEC 687 Class 0 5 T LSD least significant digit TECHNICAL REFERENCE kW Measurement Accuracy The graphs below indicate the accuracy of the 7700 ION s KW measurements at 25 C at Power Factor values of 1 0 0 5 lead and 0 5 lag The graphs also compare 7700 ION accuracy with the IEC 687 Class 0 5 spec
62. 5 ports on the XPRESS CARD must be set to EtherGate for them to function as gateways Edit the Protocol setup register in either of the 7700 ION s Comm 2 and Comm 3 modules or both if you are using both RS 485 ports as gateways and select ETHERGATE from the list of protocols You must enter an IP Service Port number when adding a Gateway Site Use 7800 to transfer data to both COM 2 and COM 3 use 7802 to transfer data to COM 2 only or use 7803 to transfer data to COM 3 only If you use EtherGate on both XPRESS CARD RS 485 ports note that Unit ID values assigned to the IEDs must be unique across both networks 4 30 7700 ION USER S GUIDE Using the 7700 ION in LonWorks Networks A NOTE Different LonWorks network installation and management tools are available each with their own configuration proce dures Refer to the document ation for the network tools you are using USING ADVANCED FEATURES The 7700 ION offers an optional LonWorks port and supporting LonWorks Import and Export ION modules As of 7700 ION version 7700V200 LonWorks support is released as a BETA product technical support is limited Data can be imported into the 7700 ION or exported onto the LonWorks network using LonWorks Import and LonWorks Export modules No LonWorks modules are included in the 7700 ION s factory configuration PEGASYS Configuration Updates are Not Required You do not have to update your PEGASYS configuration in Network Bui
63. 7 VAC nominal F S input 25 overrange Barrier strip connector rated to 600 Volts line to line 347 option 347 VAC nominal F S input 25 overrange Barrier strip connector rated to 600 Volts line to line Overload withstand for all options 1500 VAC continuous 2500 VAC for 1 second non reoccuring Input impedance for all options 2 MQ Current Standard 5 Amp nominal F S input 25 overrange 20x fault capture capability Worst Case Burden 6 25 Amps 0 0625 VA Overload withstand for all options 15 Amps continuous 300 Amps for 1 second non recurring Input Impedance 2 mQ 1 Amp AC Nominal F S input 25 overrange Onboard Digital Inputs Standard self excited dry contact sensing no external voltage source required 30 VDC differential SCOM output to S1 through S8 inputs Minimum Pulse Width 1 msec Maximum Pulse Rate 20 pulses sec Optional Onboard Analog Inputs 1 Amp Option 0 1mA Option 1 mA AC DC nominal full scale input 1 25 mA AC DC max Overload withstand 50mA continuous 100mA for 1 second non recurring Input Impedance 49 9kQ Accuracy AC 0 25 F S DC 0 25 F S 0 1 per Vcm total error Maximum Common Mode 8 V 0 20 mA Option 20 mA AC DC nominal full scale input 25 mA AC DC max Overload withstand 35mA continuous 7 for 1 second non recurring Input Impedance 100Q Accuracy
64. A Power Min Max Reset e e External Pulse 5 MnMXx Rset MnMx Rset Demand Min Max Reset e e External Pulse 1 Peak Dmd Rset Peak Dmd Rset Harmonics min max Reset Harmonics min max Reset e e External Pulse 10 Harm MnMx Rset Harm MnMx Rset 7700 ION USER S GUIDE Historic Data Logging Framework This portion of the meter s configuration records standard power system parameters such as voltage current power frequency and power factor Low mean and high values are recorded for all parameters Note that low and high are different from min and max low and high are reset every 15 minutes whereas min and max are typically long term measurements that are only reset by the operator Similarly mean is reset every 15 minutes unlike average which is typically an instantaneous averaging of multiple real time measurements Description of Displayed Accessible by Default ION Module ION Module Output Register Parameter or Function Vista PowerView MGT Name Label Label Mean L L Volts AB e e SW Demand 5 VII ab mean VII ab mean Mean L L Volts BC e e SW Demand 6 bc mean VII bc mean Mean L L Volts CA e e SW Demand 7 VII mean VII ca mean Mean L L Volts average e e SW Demand 8 VII avg mean VII avg mean Mean Voltage Unbalance e e SW Demand 9 V unbal mean V unbal mean Mean Phase A Current e e SW Demand 1
65. AITCR GAITCT Input Range O to 700 C 100 to 924 C 0 to 960 C 200 to 224 C Resolution 0 18 C 0 25 C 0 23 C 0 10 C Isolation Input to Output Accuracy 25 C 3 Offset Drift 100 Gain Drift 55 ppm C Operating Temperature Range to 60 C Storage Temperature Range 25 C to 85 C 2500 Vrms RTD Input Modules Part Number GAIRTD Input Range 50 C to 350 C Resolution 0 10 C Accuracy Across Range 25 C 0 8 C Isolation 2500 VRMS Operating Temperature Range to 60 C Storage Temperature Range 25 C to 85 C 7700 ION USER S GUIDE Digital Output Modules Part Number Nominal Line Voltage Frequency Range Maximum Line Voltage Clamping Voltage Maximum Off state Leakage GDOAC120MO 120 VAC 25 Hz to 70 Hz N A N A 2 mA rms 60Hz AC Outputs 4 mA rms 60Hz GDOAC240MO 240 VAC 25 Hz to 70 Hz N A Zero Voltage Turn On Normally Open Manual Override Output Modules DC Outputs GDODC60MO N A N A 80 VDC max 1 5 mA 60 VDC Load Voltage Range Turn on Time 60 Hz Turn off Time 60 Hz Maximum Surge Current peak Load Current Range rms 24 to 140 VAC 8 3 msec max 8 3 msec max 80 Amps Q 60 Hz 1 cycle 25 Amps 60 Hz 60 cycles 0 03 to 3 5 Amps 24 to 280 VAC 8 3 msec max 8 3 msec max 80 Amps Q 60 Hz 1 cycle 25
66. AR total e e tot Phase e e kVA a Phase B kVA e e kVA b Phase C kVA e e kVA c kVA total e e e kVA tot PF in Quadrant 1 Quadrant 1 n addition to the standard Power Meter module the 7700 ION includes a HS high speed Power Meter and a MU meter units Power Meter modules Module and output register labels from the HS and MU Power Meter modules include an HS or MU prefix Refer to the Power Meter module description in the ION Reference for details Quadrant Boolean values indicate the quadrant where the Power Factor lies Only one Quadrant Boolean will be on at any given time Refer to the ION Reference for details on the Power Factor s quadrant 2 30 7700 ION USER S GUIDE Description of Parameter or Function Real Time Measurements Continued Displayed Accessible by Default DISPLAYING DATA Vista PowerView MGT PF in Quadrant 2 PF in Quadrant 3 PF in Quadrant 4 Power Factor Phase A e e Power Factor Phase B e e Power Factor Phase C e e Power Factor total e e e Leading Power Factor Phase A Leading Power Factor Phase B Leading Power Factor Phase C Leading Power Factor total Lagging Power Factor Phase A Lagging Power Factor Phase B Lagging Power Factor Phase C Lagging Power Factor total Voltage Unbalance e e Current Unbalance e Current Line 4 e Phase Revolution Frequency P
67. CARD is required if time synchronization from a GPS receiver is implemented two communications ports are required in this configuration and COMI should be used to receive time synchronization signals Time synchronization can be achieved using ION and DNP3 0 protocols note that DNP 3 0 can be used on only one XPRESS CARD port per device GPS time synchronization uses special protocols defined for the type of GPS receiver you are using Configuring the 7700 ION to Interpret Time Synchronization Signals To implement PEGASYS or GPS time synchronization use ION Designer or the MGT to configure the Clock module and the Communications or Ethernet module Specify which port will receive time synchronization signals by setting the Time Sync Source setup register in the 7700 ION s Clock module Only signals received on the port specified will be used for synchronization Specify the protocol you want to use by setting the Protocol setup register in the 7700 ION s Communications module or Ethernet module for the port that receives the signals You may need to modify the Time Sync Type setup register if a DNP Master is sending time broadcasts in local time If you are using PEGASYS as the source for time synchronization signals set the Communications or Ethernet module s Protocol setup register to ION If you are using a GPS receiver as the time source specify the receiver type in the Protocol setup register that matches your receive
68. EGASYS administrator DISPLAYING DATA Setpoints Interactive monitoring of KW demand phase current and voltage unbalance conditions with annunciation when user specified upper limit is exceeded Real time display of KW demand phase current and voltage unbalance Digital Inputs Monitoring of the 7700 ION s eight on board status inputs Status change counter for each input Common Diagram Elements Each diagram shows the name of the meter the time on the meter s clock and the type of meter The five main diagrams also provide buttons that let you jump to other diagrams Double click any of the buttons near the top right hand corner to jump to the associated diagram this is illustrated in the Real Time Measurements section below Displaying Data if PEGASYS is not Fully Configured The PEGASYS 2 0 Administrator s Guide shipped with PEGASYS 2 0 provides a set of guidelines that should be followed during commissioning If PEGASYS 2 0 has been installed and configured using the recommended guidelines the standard Vista user diagrams display real time and logged data from your 7700 ION automatically If commissioning has not been completed or if commissioning was performed without following the guidelines some effort may be required to view 7700 ION data in Vista 2 0 If you are not able to run the PEGASYS Communications Server Log Server or Vista you will need to complete commissioning before you can display data fro
69. Ethernet COM menu accesses the Ethernet module s setup registers The Ethernet module controls the 10Base T and 10Base FL ports on the optional XPRESS CARD Setup Register Function Protocol Sets the communications protocol for the Ethernet ports refer to page 3 8 IP Address Sets the IP Address for the 7700 ION Subnet Mask Used if subnetting applies to your network see your Network Administrator Gateway Used in multiple network configurations see your Network Administrator Typically your Network Administrator will provide you with the appropriate IP Address for the 7700 ION The Subnet Mask and Gateway settings are only required if you have communications between multiple Ethernet networks and if subnetting is implemented Demand The Demand menu accesses some of the setup registers in the factory configured Sliding Window Demand and Thermal Demand modules These setup registers control the timing of demand calculations Setup Register module Function Sub Intvl Sliding Window The time in seconds in the sliding window demand sub interval Sublntvls Sliding Window The number of sub intervals in the sliding window Interval Thermal The time in seconds in the thermal demand interval These setup registers are available for each demand module The displays 501 to 504 to indicate Sliding Window Demand modules 1 through 4 and TD1 through TD4 to indica
70. ION is initially put into service the device will not operate properly until Volts mode and PT and CT ratios are set but some registers may need to be changed to refine the device s operation Basic Configuration The functions of the setup registers in the Power Meter module are as follows Setup Register Function Volts Mode The power system s configuration WYE DELTA Single etc PT Prim The Potential Transformer s primary winding rating for V1 V2 and V3 PT Sec The Potential Transformer s secondary winding rating for V1 V2 and V3 CT Prim The Current Transformer s primary winding rating for I1 I2 and I3 CT Sec The Current Transformer s secondary winding rating for 11 I2 and I3 14 CT Prim The Current Transformer s primary winding rating for 14 14 CT Sec The Current Transformer s secondary winding rating for 14 V1 Polarity The polarity of the Potential Transformer on V1 V2 Polarity The polarity of the Potential Transformer on V2 V3 Polarity The polarity of the Potential Transformer on V3 11 Polarity The polarity of the Current Transformer on 11 12 Polarity The polarity of the Current Transformer on I2 13 Polarity The polarity of the Current Transformer on 13 14 Polarity The polarity of the Current Transformer on l4 Phase Order The expected rotation of the voltage phases ABC or ACB Phase Lbls The phase label format assigned to the outputs ABC R
71. Limited covering or relating to any combination machine or process in which such device might be used EXCEPT TO THE EXTENT PROHIBITED BY APPLICABLE LAW UNDER NO CIRCUMSTANCES SHALL POWER MEASUREMENT LIMITED BE LIABLE FOR CONSEQUENTIAL DAMAGES SUSTAINED IN CONNECTION WITH SAID PRODUCT AND POWER MEASUREMENT LIMITED NEITHER ASSUMES NOR AUTHORIZES ANY REPRESENTATIVE OR OTHER PERSON TO ASSUME FOR IT ANY OBLIGATION OR LIABILITY OTHER THAN SUCH AS IS EXPRESSLY SET FORTH HEREIN ION and PEGASYS are registered trademarks of Power Measurement Limited 7700 ION Vista and ION Designer are trademarks of Power Measurement Limited Modbus is a registered trademark of Modicon Corporation Windows Windows 95 Windows NT are registered trademarks of Microsoft Corp 1998 Power Measurement Ltd The information contained in this document is believed to be accurate at the time of publication however Power Measurement Ltd assumes no responsibility for any errors which may appear here and reserves the right to make changes without notice ISO 9002 94 Registration Cert 002188 POWER START Basic communications settings baud rate protocol and metering settings volts mode CT PT ratios must be configured before you can use the 7700 ION If these settings have not been configured follow the steps in the 7700 ION Installation amp Basic Setup Instructions before consulting this User s Guide You may only need to read certain sections o
72. Measurement s PEGASYS Software You will get the most out of the 7700 ION using Power Measurement s PEGASYS software suite When PEGASYS is used the 7700 ION becomes part of a fully networked information system together with other Power Measurement IEDs and local and wide area computer networks PEGASYS provides tools for managing your power monitoring network analyzing real time and logged data generating power system reports and creating custom functionality at the IED level PEGASYS is recommended for all power monitoring systems where advanced analysis and control capabilities are required Power Measurement s PowerView Software The 7700 ION can be installed in power monitoring systems that use Power Measurement s PowerView software PowerView provides real time and available logged data display and analysis features and complete device configuration capabilities PowerView provides a low cost solution for smaller power system where the advanced features of PEGASYS are not required The 7700 ION s Modular Graphics Terminal Local monitoring and standalone applications are facilitated by the 7700 ION s front panel interface the Modular Graphics Terminal the MGT The MGT combines real time display features with limited device configuration functions The MGT is often used in combination with a PEGASYS or PowerView system providing an interface for field personnel Third Party Tools The 7700 ION can be integrated into various in
73. Module One Shot Timer Module Setpoint Module Trigger Waveform Trigger Waveform is recorded and stored in a log file One Shot Timer waits for a specified period then outputs a trigger pulse Setpoint goes ON when Vin a exceeds a limit and outputs a trigger pulse Module Linking Restrictions The maximum number of modules that can be linked in a row is 8 This is referred to as the framework s depth Modules that branch off or branch into the chain do not affect the depth and there is no restriction on the number of branches you can have in a framework Another restriction concerns circular linking of modules You cannot link a module s output register to its own input or to the input of any module that precedes it in the chain This protects you from creating infinite loops that can waste system resources Some devices including the 7700 ION support the Feedback module which makes circular linkages possible refer to the ION Reference The Not Available Value If a module is not linked to anything its output registers will not contain any values and are set to Not Available In addition if a module has an input that is invalid for example a line to neutral measurement for a 3 wire Delta system its output register is also set to Not Available This helps distinguish between cases where a register contains a value like 0 or OFF and cases where there is actually n
74. NTER to continue Next you are prompted for the maximum value attained by the first register in the display If you have linked the first register you are displaying to a Maximum module you can display that maximum value on your bar graph To do so enter the handle of the appropriate Maximum module output register then press ENTER If you have not linked to a Maximum module just press ENTER to continue Repeat steps 3 and 4 for the remaining 5 registers that you want to display If at any point you want to return to the main menu press the ESC button Enter the minimum boundary for the bar graph scale for the first three registers then press ENTER Note that this value should be the lowest value you expect any of these registers to attain Enter the maximum boundary for the bar graph scale for the first three registers then press ENTER Note that this value should be the highest value you expect any of these registers to attain Enter the minimum boundary for the bar graph scale for the second three registers then press ENTER Enter the maximum boundary for the bar graph scale for the second three registers then press ENTER You are prompted to specify if you want to display min and max bars on the bar graph If you specified parameter handles in steps 2 or 3 and you want to display these values select 1 then press ENTER If you have not linked to any Minimum or Maximum modules or you do not want to display these values select 0
75. ON s setup is complete These users will use the front panel PowerView software or PEGASYS software to change settings in the device s operating software PEGASYS is highly recommended for device configuration Chapter 3 is directed at the user who wants to get more out of the 7700 ION by making adjustments to its factory configured functionality This chapter focuses on the different configuration changes that can be made with minimal effort and what effects each type of setting will have Very few details about the device s internal operation are provided Advanced User or Systems Integrator Advanced users may want to make use of the flexibility and power provided by the device s operating software These users will need to become familiar with the device s operating software the ION Architecture and the PEGASYS tools used to customize the device s operation Chapter 4 is useful for the advanced user who wants to become familiar with the device s internal operation and its more sophisticated capabilities This chapter is designed to facilitate different applications by providing background information and detailed functional descriptions specific applications are only discussed to illustrate a particular function Configuration instructions for particular applications can be found in Power Measurement Application Notes available from Power Measurement Customer Service Before You can Use this Guide By the time yo
76. RCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE SHALL APPLY TO THIS PRODUCT UNDER NO CIRCUMSTANCES SHALL POWER MEASUREMENT LIMITED BE LIABLE FOR CONSEQUENTIAL DAMAGES SUSTAINED IN CONNECTION WITH SAID PRODUCT AND POWER MEASUREMENT LIMITED NEITHER ASSUMES NOR AUTHORIZES ANY REPRESENTATIVE OR OTHER PERSON TO ASSUME FOR IT ANY OBLIGATION OR LIABILITY OTHER THAN SUCH AS IS EXPRESSLY SET FORTH HEREIN Product Return Procedure A NOTE Units received without prior authorization will not be acce pted under any circumstances 5 26 The following procedure must be strictly adhered to when returning any Power Measurement product to the factory for the purpose of repair replacement credit upgrade recalibration or for any other reason 1 Contact Power Measurement or your local Power Measurement Sales Representative and obtain a Return Merchandise Authorization RM A number prior to shipment of any unit back to the manufacturer Be prepared to provide the product s model number serial number and the reason for returning the unit 2 If the unit is being returned for repair replacement or upgrade a product return report should be completed and included with the unit The information provided should include A functional description of the unit defect or failure and the electrical environmental conditions at the time of failure This will significantly reduce repair upgrade time and cost if warranty has expired If the unit is b
77. Refer to Creating Custom The high speed current display called CURRENT HS BAR GRAPH has fixed limits MGT Displays in Chapter 4 of 0 to 6000 Amps If your voltage or current values are above the fixed upper limits the MGT will display OFFSCALE in place of the bar Similarly the voltage bar graph displays OFF SCALE if you have a Delta power system as there are no line to neutral voltage values available The phase voltage and current bar graph called VOLTS AMPS BAR GRAPH displays line to neutral phase voltage and phase current values As with the high speed bar graphs voltage limits of 0 to 400 Volts and current limits of 0 to 6000 Amps are fixed and line to neutral voltages will read OFF SCALE if viewed in a Delta power system The VOLTS AMPS BAR GRAPH also shows the minimum and maximum values measured since power up or the last min max reset Small triangles located on each parameter s bar indicate the min max values d a loaltasez 121 T The maximum value is The minimum value is 121 6 indicated by this triangle indicated by this triangle 195 2 196 5 4 4 688 Currents DISPLAYING DATA 2 15 Trend Displays Trend display screens are provided for total KW and total Both screens show the values for each parameter over the last 150 seconds The limits set for total KW and total are 0 to 2400 If the total kW or total in your system are above this range no trend graph will be disp
78. ST XYZ RYB RWB or 123 The registers are typically set when the device is commissioned Changing the values of these registers while the device is in service is not recommended Once basic setup is performed i e PT CT values Volts Mode the 7700 ION will operate properly Typically there is no need to make further changes to the Power Meter module s setup registers MAKING CONFIGURATION CHANGES 3 7 Communications Setup Communications Setup Baud Rate Protocol Communications Parameters A NOTE The XPRESS CARD is an optional component The standard 7700 ION has a single RS 232 RS 485 port Comm 1 3 8 The Communication Setup area contains a single folder called Communications Parameters Double click this folder to view the four Communications modules The Communications modules control the links between the 7700 ION and the networks or workstations it communicates with The Communications modules have the following functions Module Name Settings Comm 1 Comm 1 RS 232 RS 485 port Comm 2 XPRESS CARD s high speed Comm 2 RS 485 port Comm 3 XPRESS CARD s high speed Comm 3 RS 485 port Ethernet XPRESS CARD s 10Base T and 10Base FL Ethernet port Communication settings are typically configured when the device is initially put into service A communications channel must be configured before you can use PEGASYS if you alter the settings for the channel that is in use yo
79. Standard 7700 ION RM Options The RMSEAL option provides a factory installed anti tamper mechanical seal on the base unit This option is only available with the 7700 ION RMICAN model The Revenue Meter Programming Key RMKEY is a device which when inserted into a 7700 ION RM revenue meter disables the meter s security systems to facilitate programming 1 Differences between Standard and RM Models 2 The 7700 ION RM differs from the standard non revenue 7700 ION meter additional modules for revenue calculations and new energy output register labels have been added to the 7700 ION RM firmware Revenue Meter Energy Output Register Labels The revenue and non revenue meters differ in how they label energy flow standard 7700 ION non revenue meters use the terms imported and exported energy 7700 ION RM revenue meters use the terms delivered and received energy Delivered gt Imported gt Received Exported 7700 ION RM The energy output register labels of the 7700 ION RM follow the revenue metering terminology the energy labels for kVAh kVARh and kWh are different from the non revenue devices as follows imp is del tot is del rec exp is rec net is del rec For example the 7700 ION s output register KVARh tot will be KVARh del rec in the 7700 ION RM A complete list of output registers is given i
80. TTINGS Choose DATE TIME DISPLAY to adjust the MGT s contrast have the MGT display date number display format DATE TIME time and timezone and backlight timeout DISPLAY Display Options The DISPLAY OPTIONS menu includes three options Adjust Contrast Backlight Timeout and Numbers X XXX Adjust Contrast allows you to change the contrast of the MGT s display The MGT has a contrast scale of 0 to 15 Select Adjust Contrast then use the right and left arrow buttons to lighten or darken the display screen Backlight Timeout allows you to set the amount of time the MGT s backlighting stays on when the MGT is idle The bulb that provides the backlighting has a limited lifespan to prolong the life of the bulb you should only have backlighting on when you are actively using the MGT Select Backlight Timeout then enter the amount of time in seconds that the light should stay on after a button has been pressed Numbers X XXX lets you change the numeric display format to use either a period or a comma character as the decimal delimiter when displaying numbers Nameplate Info 1 Nameplate Info 1 displays the 7700 ION s manufactured location serial number accuracy rating and power system details DISPLAYING DATA 2 17 A NOTE Additional information will be displayed in the Nameplate Info screens if the MGT is used with revenue class 7700 ION meters Nameplate Info 2 Nameplate Info 2 displays the MGT s acceptable
81. The setup registers in the Clock module specify timezone and Daylight Savings Time DST parameters and time synchronization functions Setup Register Function TZ Offset The timezone the device is in relative to Greenwich Mean Time DST Start Date and time when DST begins DST End Date and time when DST ends DST Offset The amount of time the clock is changed when DST begins or ends Time Sync Source The communications port that is responsible for receiving time sync signals Time Sync Type The type of time sync signal Local or Universal time Refer to Time Synchronization in Chapter 4 for further details on using the 7700 ION s time synchronization functions 3 9 Power Quality Setup ar Power Quality Setup a Transient Limits z Transient 1 Sag Swell Limits Sag Swell 1 A NOTE If the Sag Swell module s Nom Volts setup register is set to zero all Transient module and the Sag Swell module functions are disabled Nom Volts is typically set when the meter is put into service Nom Volts has not been set enter a value for your system s nominal voltage i e 120 277 or 347 The value you enter will also be used by the Transient module The Power Quality Setup area contains the 7700 ION s two power quality modules the Transient module and the Sag Swell module Right click near the center of either module s icon to configure its setup registers Transient Mo
82. User s Guide Version 2 0 MEASUREMENT For further information or technical assistance please contact your local Power Measurement representative or Customer Service at one of the following locations POWER MEASUREMENT Toll Free 1 877 METER IT 1 877 638 3748 World Wide Web www pml com Worldwide Headquarters POWER MEASUREMENT LTD 2195 Keating Cross Road Saanichton BC Canada V8M 2A5 Tel 1 250 652 7100 Fax 1 250 652 0411 Europe amp Middle East POWER MEASUREMENT EUROPE Zaventem Business Park Ikaroslaan 5 B 1930 Zaventem Brussels Belgium Tel 32 2 720 19 19 Fax 32 2 720 95 86 Asia amp Pacific POWER MEASUREMENT AUSTRALIA 7 16 Ledgar Road Balcatta Perth Western Australia 6021 Tel 61 9 345 3866 Fax 61 9 345 3899 Revision Date September 21 1998 1998 Power Measurement Ltd All rights reserved Printed in Canada 70000 0114 Danger During normal operation of this device hazardous voltages are present which can cause severe injury or death These voltages are present on the terminal strips of the device and throughout the connected potential transformer PT current transformer CT status input relay and control power circuits Installation and servicing should be performed only by qualified properly trained personnel See the 7700 ION Installation amp Basic Setup Instructions for further details Warning This equipment generates uses and can radiate ra
83. VII bc Power Meter Modbus Slave 1 Source Input 6 40016 L L Voltage CA VII ca Power Meter Modbus Slave 1 Source Input 7 40017 Average L L Voltage Vil avg Power Meter Modbus Slave 1 Source Input 8 40018 Phase A Current la Power Meter Modbus Slave 1 Source Input 9 40019 Phase B Current Ib Power Meter Modbus Slave 1 Source Input 10 40020 Phase C Current lc Power Meter Modbus Slave 1 Source Input 11 40021 Average Current avg Power Meter Modbus Slave 1 Source Input 12 40022 Voltage Unbalance V unbal Power Meter Modbus Slave 1 Source Input 13 40023 Current Unbalance unbal Power Meter Modbus Slave 1 Source Input 14 40024 Line Frequency Freq Power Meter Modbus Slave 1 Source Input 15 40025 Neutral Current 14 Power Meter Modbus Slave 1 Source Input 16 40026 7700 ION USER S GUIDE Modbus Slave Module 2 Links Measurement Label Source ION Module Modbus Module and Input Number Modbus Register Phase A kW kW a Power Meter Modbus Slave 2 Source Input 1 40027 40028 Phase B kW kW b Power Meter Modbus Slave 2 Source Input 2 40029 40030 Phase C kW kW c Power Meter Modbus Slave 2 Source Input 3 40031 40032 Total kW kW tot Power Meter Modbus Slave 2 Source Input 4 40033 40034 Phase A kVAR a Power Meter Modbus Slave 2 Source Input 5 40035 40036 Phase B kVAR kVAR b Power Meter Modbus Slav
84. a into the 7700 ION ION modules are linked to DNP Slave Export modules which convert the ION data into the appropriate DNP objects These objects are available through the 7700 ION communications port that is configured to use the DNP 3 0 protocol The DNP Options module sets global options for all of the DNP Slave Export modules DNP Options Module DNP Options module sets global options for all DNP modules DNP M UM E Module Module DNP objects measured data is linked to DNP module s input 2 data is available to DNP devices communications port is DNP module outputs set to DNP 3 0 protocol data as DNP objects 7700 ION Changing the DNP Configuration If the factory DNP configuration does not suit your needs the existing DNP Slave Export modules can be relinked to other parameters that you want to access through DNP Alternately you can add additional DNP Slave Export modules and link the desired ION parameters to them There are 16 DNP Slave Export modules available on the 7700 ION of these 14 are used by the factory configuration 4 25 A NOTE DNP 3 0 can only be used on the XPRESS CARD s RS 485 ports COM 1 and Ethernet ports are not supported Only one port per 7700 ION can be used with DNP 3 0 4 26 If your DNP network requires data in a format different than that provided by the factory DNP configuration you can edit the setup registers in the DNP Slave Export modules and the
85. all of the modules available in the 7700 ION If the toolbox is not displayed choose Show Toolbox from the Options menu and the toolbox appears L ION x t pex d ETE awo pnp DNP l man 1 As you drag the mouse over the icons in the toolbox the status bar at the bottom of the ION Designer window displays the module type Creating the Module Follow these steps to create an ION module in the 7700 ION 1 On the ION Modules toolbox press the mouse button down on top of the icon of the module you want to create and drag it onto the node diagram As you drag the icon the cursor changes shape to indicate you are placing an object 2 Release the mouse button to place the module in the diagram When you release the mouse button ION Designer places a pending module icon into the diagram pending modules appear with a dashed outline 3 Once you have configured the node as appropriate choose Send amp Save from the File menu to download the configuration to the node Once the module has been saved in the node the dashed outline is replaced with a solid outline indicating that your changes have been saved Deleting Modules To delete a module select it by clicking its icon then press the Delete key Use caution when deleting modules any dependant modules will be affected ION Designer will inform you of dependant modules if they exist on the same node 7700 ION
86. allow you to display data the Version 2 0 tables match the 7700 ION s factory configuration allowing PowerView to display a more comprehensive set of parameters The PowerView Data Filter Each time you double click a PowerView display screen icon that contains logged data the data filter appears Use the data filter to select the range of data you want to view and press OK 7700 ION USER S GUIDE Displaying Data with the MGT The MGT or Modular Graphics Terminal provides a detailed graphics and text display for the 7700 ION The MGT has been configured at the factory with 24 displays showing most of the parameters measured by the meter The factory configured MGT displays numeric data screens waveforms trend graphs and harmonics histograms Data Display Screens When the is activated it displays a menu of eight data display screens Press the button adjacent to a menu item in the display area to access a particular display screen or press NEXT move to the next menu of eight displays The SETUP button provides access to configuration screens discussed in the next chapter Pressing the ESC key at any time returns you to the screen that was last displayed The first screen looks like this Press the NEXT button to view the next group of eight display screens Press the button next to a menu item to enter the data display screen The keypad and other buttons on the MGT are not used to display
87. and press ENTER Next you are prompted for a title for the top three bar graphs Title 1 Enter a title of up to 9 characters then press the ENTER button Next you are prompted for a title for the bottom three bar graphs Title 2 Enter a title of up to 9 characters then press the ENTER button 4 43 Harmonics Screens The harmonics screens allow you to display the values calculated by the Harmonics Analyzer module They appear in a histogram form to show the harmonic spectrum of the input for which harmonics are being calculated To maximize the resolution of the display the harmonic with the highest amplitude is scaled to the top of the screen The display is updated every second This button toggles the display of Odd harmonics on and off lt is on when highlighted The title of the screen is displayed here This button toggles the display of Even harmonics on and off It is on when highlighted When thick lines are selected this button scrolls between harmonics 1 31 and harmonics 32 63 To set up a harmonics screen 1 Enter the handle of the first output register of the Harmonics Analyzer A module you want to view then press ENTER If you want to keep the register IMPORTANT that is currently in use press the button labeled KEEP PREVIOUS You only need to enter the 2 Entera title of up to 15 characters then press the ENTER button If you want
88. ant to display on the screen then press ENTER If you want to keep the register that is currently in use press the button labeled KEEP PREVIOUS A Nore If you have already set up a standard character screen and you want to change only some Repeat step 1 for the remaining 14 registers that you want to display If at any point you want to return to the main menu and cancel your changes press the ESC button You do not have to specify a handle for every register if of the registers you are you do not want to use all 15 lines Pressing ENTER will skip a line in the displaying use the KEEP display screen that line will be left blank PREVIOUS button to keep the old registers 3 Once you have entered the parameter handles you are prompted for a title for the display screen Enter a title of up to 26 characters then press the ENTER button If you want to keep the title that is currently in use press the button labeled KEEP PREVIOUS DMA WISE dnd XU USING ADVANCED FEATURES 4 39 The register label is displayed or the register name if no label has been setup 4 40 Large Character Screens Large character screens are also used for displaying numeric register values They display up to four registers on one screen The large character format is well suited for viewing from a distance Data in large character screens are updated once per second regardless of the update rate of the register on the connected device
89. armonic the MGT automat ically reads the remaining to keep the title that is currently in use press the button labeled KEEP harmonic registers If you PREVIOUS enter an incorrect handle for the first output register the rest of the readings will be unpredictable 4 44 7700 ION USER S GUIDE The high boundary of the scale is shown here The low boundary of the scale is shown here USING ADVANCED FEATURES Parameter Trending Screens The parameter trending screens plot the value of a register over time These real time displays allow you to view a register value graphically You can specify the scale for the Y axis of the graph the register value and the X axis time The maximum update rate for a parameter trending screen is 1 second The register label is displayed the register name if no label has been setup TREND DATA I PRESENT VALUE The value in the register is displayed and updated once per second This value depends on ihe number of seconds you specify between each point MALI I E TIMECSEC To set up a parameter trending screen 1 Enter the handle of the register you want to plot on the screen then press ENTER If you want to keep the register that is currently in use press the button labeled KEEP PREVIOUS 2 Enter the minimum boundary value you expect the register to attain then press ENTER This value becomes the mini
90. as the gateway You cannot communicate directly with the 7700 ION unless you add an additional Ethernet Site as discussed in the next section The Gateway Site in PEGASYS includes all of the devices on the RS 485 loop It does not include the 7700 ION Ethernet PEGASYS workstation al 7700 ION with XPRESS CARD PEGASYS Gateway Site 4 28 7700 ION USER S GUIDE The Gateway Site in PEGASYS Network Builder is added under the PEGASYS workstation that resides on the Ethernet network Each of the devices on the RS 485 loop is added to the Gateway Site but the 7700 ION is not The tree view in Network Builder looks like this 18 netconfig dat PEGASYS Network Builder File View ltem Help System WORKSTATION A Software Nodes Ready WORKSTATIONT RS485 loop WORKSTATION Feeders WORKSTATION Feeder_B WORKSTATION FeederC The PEGASYS workstation The Gateway Site Choose 7800 7802 or 7803 as the IP Service Port The devices that reside on the RS 485 loop connected to the XPRESS CARD Communicating 7o the 7700 ION You can also configure your system to communicate directly with the 7700 ION in addition to communicating with the attached RS 485 loop This requires both a Gateway Site as described above and an Ethernet Site configuration in Network Builder The Ethernet Site includes the 7700 ION with the XPRESS CARD and all othe
91. at record data e g Data Recorder Waveform Recorder have Log output registers ION Register Names and Labels Every register in the ION architecture has a name and a programmable label that identify what information the register contains The default label for each register is typically the same as its name You can change the label via communications to be more descriptive for your application For example the name and thus the default label of the Maximum module s output register is Maximum If you are using that particular module to record maximum values on Vunbal you may want to change the Maximum label to Max Vunbal to make it more apparent what the contents of the register represent The length of the label is limited to 15 characters Timing Considerations in the 7700 ION The standard high accuracy update rate of the modules in the 7700 ION is 1 second Many modules can also be configured to operate as high speed and as such are updated every cycle When programming or linking ION modules it is important to keep in mind whether you want the framework you are creating to be a high speed or high accuracy framework If you link three modules together to perform a function the update rate of the first module in the framework defines the speed of the whole framework For example if you link Power Meter high speed gt Maximum gt Recorder the whole framework will operate at high speed 1 cycle update rate including
92. bes the various register classes available Bb Numeric These registers contain a single numeric value It can be any value within the range capabilities of the device mu Numeric Array These registers contain an array of numeric values Boolean These registers contain a logical ON or OFF 1 or 0 A Pulse These registers contain a pulse or instantaneous signal They are normally used for resetting pulsing or triggering functions 4 4 7700 ION USER S GUIDE Waveform These registers contain formatted waveform data an array of points that define a waveform The information is formatted on the basis of samples per cycle X cycles Enumerated These registers are used for storing one value from a list of several options For example the Setpoint module has an Evaluate Mode setup register that can be set to either LESSTHAN or GREATERTHAN Typically only setup registers are of the enumerated class m Numeric Bounded These registers contain a number bounded by a high and low limit For example in the Thermal Demand TD module the setup register that specifies the period length is numeric bounded because the value must be a number higher than 1 but less than 100 Typically only setup registers are of the numeric bounded class HEH Calendar The Calendar register holds the setup information in the Scheduler module T String These registers contain text strings Text strings can consist of any
93. bj is set to Analog Input for the 11 analog input points and Binary Counter for the three binary counter points StatObj defines the type of DNP object the module provides when the Master polls it In addition Scaling is OFF for all but two modules The only modules that apply scaling are the Analog Input points that provide Voltage and Current Unbalance data labeled Unbalx10 and Frequency data Labeled Freqx10 These modules apply x10 scaling 7700 ION USER S GUIDE DNP Options Module Settings The DNP Options module provides global settings that affect all DNP Slave Export and DNP Slave Import modules The default settings in this module are shown in the following table Setup Register Setting Function BinlnStatic Single bit Binary Input variant for Binary Input Static objects BinlnEvents Binary Input Change w o time variant for Binary Input Event objects BinlnEvDepth 100 maximum number of Binary Input Events that can be stored BinCntStatic 16 bit Binary Counter w o flag variant for Binary Counter Static objects flag FrzCntStatic 16 bit Frozen Counter w o flag variant for Frozen Counter Static objects FrzCntEvents 16 bit Frozen Counter Event variant for Frozen Counter Event objects w o time FrzCntEvDepth 100 maximum number of Frozen Counter Events that can be stored CntChangeEvents 16 bit Counter Change Event variant for Counter Change Event objects w o time
94. bration constants used at the factory 7700 ION USER S GUIDE Configuring the 7700 ION with PowerView PowerView provides complete device configuration capabilities PowerView lets you link or unlink modules and configure setup register settings The device setup functions discussed in this chapter are limited to setup register changes module linking is an advanced operation refer to Chapter 4 Using the PowerView Interface When you start PowerView and logon a split screen appears showing your power monitoring network on the left and setup screens or data screens on the right To configure an ION device in PowerView set the display to Setup Screens mode select the device in the left pane then double click the module you want to configure in the right pane Set PowerView to Setup Screens mode by clicking this button 2 Fe Ed ee puer mlaj ri B vj E wore tmn Double click a module to n Am Ve change its settings Click the device you want to configure PowerView s Setup Screens Mode PowerView uses the same interface to provide device setup functions and to display measured data To perform device configuration make sure PowerView is set in Setup Screens mode Set PowerView to Setup Screens mode by selecting Setup Screens in the View menu or by clicking the Setup Screens button on the toolbar When PowerView is in Setup Screens mode the right pane displays
95. by the factory configured 7700 ION Some of the diagrams include grouping windows that display additional data The following list summarizes the data available from the standard diagrams more detail is provided in the next few pages Real Time Measurements Line to neutral voltages line to line voltages average L N and L L voltages and voltage unbalance level Phase currents and average current Phase kW total KW and Frequency and signed power factor Min max display of each of the above parameters All logged meter events Trend logs of voltage current power frequency and power factor Power Quality Data Running total of sag swell and transient events CBEMA plot of power quality events Captured waveforms and sequence of events log Manual waveform capture control Phase voltage and current total harmonic distortion THD Min max display of phase voltage and current THD Logged average and maximum THD and factor Energy amp Demand Data Real time and peak kW and kVA sliding window demand Real time net kWh net kVARh and kVAh energy values Trend log of all of the above parameters plus power factor lead and lag imported exported and net energy 7700 ION USER S GUIDE A NOTE Refer to the PEGASYS Vista User s Guide if you need help using Vista A NOTE If you can t display data in PEGASYS Vista and you don t have Level 5 authority contact your P
96. combination of numbers letters and spaces excluding double quote characters In addition the text must not end with a backslash character Backslashes elsewhere in the text are permissible as is a backslash at the end of the string if it is followed by a space character String register applications include formulas Arithmetic module and device information Factory module Event Almost every ION module has an output called an event register that records all the events produced by the module An event is simply any occurrence in the system that warrants logging for example changing a setup register or a Setpoint module going active The contents of an event register include A timestamp of when the event occurred The priority of the event The cause of the event Any values or conditions associated with the cause The effect of the event Any values or conditions associated with the effect The Event Log Controller module takes all the event registers from all the modules in the device and assembles them to provide an Event Log USING ADVANCED FEATURES 4 5 Event Log These registers contains the assembled contents of all the event registers of other modules The Event Log Controller module uses this class of register to provide a log of all the events occurring on the device Log These registers can contain a timestamped list of numeric Boolean or waveform data Typically modules th
97. ctory Information area has a single module called Factory 1 The Factory module contains information about the 7700 ION and the XPRESS CARD if one is installed Right click near the center of the module s icon to view its setup registers The Factory module displays firmware version serial number and other device information in read only setup registers read only registers can be viewed but not changed The device information provided is as follows Setup Register Description Device Type A device type identifier 7 700 for the 7700 ION Compliance A statement of whether the device is ION compliant or not Options Operating temperature and XPRESS CARD firmware version if installed Revision The 7700 ION s firmware version Serial Number The 7700 ION s serial number Nom Freq The expected frequency of the power system being monitored Three editable setup registers are provided for you to enter your company s name and other text information you want stored in the device The editable registers are as follows Setup Register Description Owner Text register for storing user information i e company name Tag 1 Text register for storing user information i e device location Tag 2 Text register for storing user information i e device number or identifier The Factory module also contains numerous read only setup registers that hold the cali
98. d The password is factory set to zero 0 With the factory password you can penetrate the menus and change the password to a custom value The MGT also features a Password Timeout feature This feature permits you to make multiple changes without having to repeatedly enter a password to authorize the change Note that the timeout feature is applicable only within a particular SETUP menu i e within CONFIGURE ION or PARAMETER RESET You will be prompted for your password again if the timeout elapses or if you attempt to make changes from a different SETUP menu area To change the password or adjust the timeout value choose the OTHER SETTINGS menu When you are prompted for your password press 0 zero on the keypad then press the enter button Choose either PASSWORD TIMEOUT or CHANGE PASSWORD Follow the instructions on the MGT screen 7700 ION USER S GUIDE Quick Setup BUICEk SETUF MAKING CONFIGURATION CHANGES The MGT s Quick Setup menu provides access to four basic setup functions PT CT Serial COM Ethernet COM and Demand These settings are all made when the device is initially put into service typically you will not need to change these settings once the device is operational To access a Quick Setup menu press SETUP QUICK SETUP and then the menu you want to use PT CT The PT CT menu accesses the Power Meter and Sag Swell module setup registers that are used for basic setup
99. d limit Double click this object to enable or disable kW demand monitoring Double click these objects to set the over current limits for each phase Double click this object to enable or disable over current monitoring Double click this object to set the voltage unbalance limit Double click this o enable or disable unbalance monitori je pE Dee ye m im mem ret hen leis LODS d Fa Fer Monitor demand here Yan nomines gun u Monitor phase Cher on pitie a br Tun currents here BCADA ssstohgearT700 Cor RAN Arrei P m Vi tite Hel im b seui l PE iw Feshin Comae ainsi D Trin Tem rmn Monitor voltage MEM unbalance here mia bject to voltage ng Over kW Sliding Window Demand Monitoring Over kW demand monitoring is disabled by default Level 3 PEGASYS authority is required to enable over kW demand monitoring and to set the KW demand upper limit To set the upper kW demand limit enter the total number of kW that should be considered as an over demand condition The status will read Not Available when monitoring is disabled Per Phase Over Current Monitoring Over current monitoring is disabled by default Level 3 PEGASYS authority is required to enable over current monitoring and to s
100. devices thereby limiting the maximum number of these devices to seven per board Analog Output devices can populate both slot groups on the expansion board so a maximum of 15 of these devices can be used per board If Expansion Board A is used without a separate power supply only six analog devices can be used in total regardless of direction restrictions The following table summarizes the restrictions on analog I O devices 4 18 Max of Max of Max st of Possible Maximum Analog Inputs Analog Analog Devices Configurations Outputs Board A WITHOUT Optional 6 6 6 Any combination up to 6 total Power Supply default configuration Board A WITH Optional Power 7 15 15 Board full Supply Board A WITHOUT Optional 13 21 21 A 6 Al B 7 Al 8 AO Power Supply default A 6 AO B 7 Al 8 AO configuration Board B A 6 AO B 15 AO A 6 Al B 15 AO Board A WITH Optional Power 14 30 30 Both boards full Supply Board B 7700 ION USER S GUIDE Specifying a Port in an ION Module The Analog Output Digital Output and Pulser modules in the 7700 ION allow you to specify which port a signal is sent to Similarly the Analog Input and Digital Input modules allow you to specify which port to monitor for incoming signals When you access any of these module s Port setup register all expansion board ports will be available selections even if there is no expansion board connected to the 7700 ION The AUX inputs will only
101. dio frequency energy and if not installed and used in accordance with the instructions manual may cause interference to radio communications It has been tested and found to comply with the limits for a Class A computing device pursuant to Part 15 of FCC Rules which are designed to provide reasonable protection against such interference when operated in a commer cial environment Operation of this equipment in a residential area may cause interference in which case the operator will be required to take whatever measures may be required to correct the interference Limitation of Liability Power Measurement Limited reserves the right to make changes in the devices or the device specifications identified in this Retrofit Installation Instructions without notice Power Measurement Limited advises customers to obtain the latest version of device specifications before placing orders to verify that the information being relied upon by the customer is current In the absence of written agreement to the contrary Power Measurement Limited assumes no liability for Power Measurement Limited applications assistance customer s system design or infringement of patents or copyrights of third parties by or arising from the use of devices described herein Nor does Power Measurement Limited warrant or represent that any license either expressed or implied is granted under any patent right copyright or other intellectual property right of Power Measurement
102. dule Settings The Transient module monitors voltage waveforms for transient activity i e CBEMA Type 1 disturbances and reports each transient s magnitude and duration The Transient module s setup registers define what voltage disturbance magnitude should be considered as transient activity and what priority these disturbances should be assigned Setup Register Function Threshold The magnitude at which a voltage deviation is considered a transient EvPriority The priority assigned to a detected transient 0 to 255 255 is highest The number entered into the Threshold setup register is interpreted as a percentage of the nominal system voltage plus 100 For example if you want transients recorded when voltage deviates from nominal by 20 enter 120 in to the Threshold setup register Sag Swell Module Settings The Sag Swell module monitors voltage waveforms for sags and swells i e CBEMA Type 2 and Type 3 disturbances and reports each disturbance s magnitude and duration The Sag Swell module also breaks each disturbance into sub disturbances for detailed analysis Setup Register Function Swell Lim The magnitude above which a voltage deviation is considered a swell Sag Lim The magnitude below which a voltage deviation is considered a sag Change Crit The amount a voltage signal must change during a disturbance to be considered a new sub disturbance Nom Volts The nominal power
103. dustry standard networks Data that is measured by the unit can be made available to other devices using Modbus RTU DNP 3 0 and LonWorks protocols Data from devices on these networks can also be imported into the 7700 ION With these advanced communications functions the power of the 7700 ION can be utilized in most existing power monitoring systems Any data display and analysis software that works with Modbus RTU DNP 3 0 or LonWorks devices will also work with the 7700 ION specific communications options are required for LonWorks Communications Options The standard 7700 ION has a single RS 232 RS 485 communications port capable of data rates up to 19 200 bps The optional XPRESS CARD provides two additional high speed RS 485 ports data rates up to 115 200 bps and a 10Base T Ethernet port A 10Base FL fiberoptic Ethernet port and an FTT10 LonWorks port are available as options on the XPRESS CARD 7700 ION USER S GUIDE HT Using this Guide INTRODUCTION Depending on the hardware options purchased up to five separate ports can communicate simultaneously Power Measurement s ION Protocol Modbus RTU DNP 3 0 LonTalk and Power Measurement s EtherGate Protocol an Ethernet RS 485 gateway are supported depending on the communications port used Refer to the section Using Onboard and Expansion I O in Chapter 4 for details Input Output The standard 7700 ION has eight status inputs Four optional analog inputs are ava
104. e 2 Source Input 6 40037 40038 Phase C kVAR kVAR c Power Meter Modbus Slave 2 Source Input 7 40039 40040 Total kVAR kVAR tot Power Meter Modbus Slave 2 Source Input 8 40041 40042 Phase A kVA kVA a Power Meter Modbus Slave 2 Source Input 9 40043 40044 Phase B kVA kVA b Power Meter Modbus Slave 2 Source Input 10 40045 40046 Phase V kVA kVA c Power Meter Modbus Slave 2 Source Input 11 40047 40048 Total kVA kVA tot Power Meter Modbus Slave 2 Source Input 12 40049 40050 Phase signed PF PF sign a Power Meter Modbus Slave 2 Source Input 13 40051 40052 Phase B signed PF PF sign b Power Meter Modbus Slave 2 Source Input 14 40053 40054 Phase C signed PF PF sign c Power Meter Modbus Slave 2 Source Input 15 40055 40056 Average signed PF PF signed tot Power Meter Modbus Slave 2 Source Input 16 40057 40058 Modbus Slave Module 3 Links Measurement Label Source ION Module Modbus Module and Input Number Modbus Register Maximum Avg L L Voltage VII avg max Maximum Modbus Slave 3 Source Input 1 40059 40060 Maximum Average Current avg max Maximum Modbus Slave 3 Source Input 2 40061 40062 Maximum Total kW kW tot max Maximum Modbus Slave 3 Source Input 3 40063 40064 Maximum Total kVAR kVAR tot max Maximum Modbus Slave 3 Source Input 4 40065 40066 Maximum Total kVA kVA tot max Maximum Modbu
105. e e External Boolean 3 Energy Enble Energy Enble kW SW Demand SW Demand 1 kW swd kW swd kW Predicted Demand e e SW Demand 1 kW swd kW pred swd kVAR SW Demand e e e SW Demand 2 kVAR swd kVAR swd kVAR Predicted Demand e e SW Demand 2 kVAR swd kVAR pred swd kVA SW Demand e e e SW Demand 3 kVA swd kVA swd SW Demand Sliding WindowDemand DISPLAYING DATA 2 19 Energy and Demand Framework Continued Description of Displayed Accessible by Default ION Module ION Module Output Register Parameter or Function Vista PowerView MGT Name Label Label kVA Predicted Demand SW Demand 3 kVA swd kVA pred swd Avg Current SW Demand e e SW Demand 4 avg swd Avg Current SW Demand e e SW Demand 4 avg swd avg pred Energy reset trigger e External Pulse 7 Energy Rset SWD reset trigger e External Pulse 3 SWDemand Rset SWDemand Rset TD reset trigger e External Pulse 4 Tdemand Rset Tdemand Rset Energy Demand e Data Recorder 1 EgyDmd Log EgyDmd Log Recorder Min Max Framework This portion of the meter s configuration measures minimum and maximum values for various power energy demand and harmonics parameters Separate reset triggers are provided for demand harmonics and standard power parameters Description of Displayed Accessible by Default ION Module ION Module Output Register Paramete
106. e nene nennen 4 8 Dismantling the Factory Configuration sees 4 9 Adding and Linking Modules in ION Designer sess 4 11 Using Onboard and Expansion I O see 4 15 Using the Modbus Protocol eee eene 4 20 Using the DNP 3 0 eee enne 4 25 Using Power Measurement s EtherGate Protocol esses 4 28 Using the 7700 ION in LonWorks Networks sse 4 31 Using Time Synchronization is sri an enini EKA kian a apara ia 4 32 Creating Custom MGT Displays 4 37 Overview of MGT Button 4 37 Using the MGT Display Formats en 4 38 Customizing the 7700 ION s Operation The 7700 ION and all other ION devices can be completely customized to perform any functions you need PEGASYS and PowerView software provide the tools to create specific functionality by altering the operating software inside the 7700 ION The 7700 ION is a sophisticated device You should not make any changes to its operating software unless you are familiar with the ION architecture you know specifically what you want to accomplish and you understand the effects of the changes you intend to make A NOTE Refer to the ION Reference for complete details on each ION module Adding modules using ION Designer software is discussed
107. e reset when TDemand Rset is used Average Current TD kWTD kVARTD kVATD Energy Reset The following energy parameters are reset when Energy Rset is used kWh import export total and net kVAh kVARh import export total and net 3 23 Configure ION CONF IGUFE TON The Configure ION menu provides access to the setup registers of every ION module in the 7700 ION To edit a module s setup registers with the MGT press SETUP then CONFIGURE ION The Feature Manager appears listing all of the module types available Follow this procedure to access a setup register 1 Use the arrow buttons to highlight the type of module you want to configure The list of available modules occupies multiple MGT screens when you get to the bottom of a screen press ENTER when the word more is highlighted to see the next group of module types When the type of module you want to configure is highlighted press ENTER to view the available modules of that type Use the arrow buttons to highlight the module you want to configure then press ENTER The module s setup registers appear with their current settings displayed on the right Use the arrow buttons to move through the setup register listing until the register you want to configure is highlighted Press ENTER then enter your password to access the register s setting use 0 if you have not configured a password Press ENTER again after keying in y
108. eing returned for an upgrade recalibration or other modification list the requirements The RMA number issued by Power Measurement the serial number of the unit the company name and address the name of the person filling out the report and the date 7700 ION USER S GUIDE IMPORTANT The return address to which the unit is to be shipped following servicing 3 Pack the unit safely preferably in the original shipping carton and include the detailed report described above The RMA number must be clearly marked on the outside of the box 4 A packing slip must be attached to the outside of the box that includes the points of origin and destination a description of contents and the reason for return Examples For Repair and Return or Returned for Credit There should be no need to declare a value 5 Ship PREPAID to the appropriate address below Power Measurement will not accept C O D shipments If the unit is still under warranty Power Measurement will pay the return shipping charges For Shipments Originating in the U S A Power Measurement Ltd c o VICTORIA CUSTOMS BROKERS 4131A Mitchell Way Bellingham WA 98226 For Shipments Originating Overseas Power Measurement Ltd 2195 Keating Cross Road Saanichton BC V8M 2A5 CUSTOMS CLEARANCE Livingston International Inc Ph 250 388 4435 For Shipments Originating in Canada Power Measurement Ltd 2195 Keating Cross Road Saanichton BC V8M 2A5 Registration
109. emand 29 I3 K Fac mean I3 K Fac mean High Phase A Voltage THD e e Maximum 46 V1 THD high V1 THD high High Phase B Voltage THD e e Maximum 47 V2 THD high V2 THD high High Phase C Voltage THD e e Maximum 48 V3 THD high V3 THD high High Phase A Current THD e e Maximum 49 11 THD high 11 THD high High Phase B Current THD e e Maximum 50 12 THD high 12 THD high High Phase C Current THD e e Maximum 51 I3 THD high I3 THD high High Phase A Current K Factor e e e Maximum 52 I1 K Fac high I1 K Fac high High Phase B Current K Factor e e e Maximum 53 I2 K Fac high I2 K Fac high High Phase C Current K Factor e e e Maximum 54 I3 K Fac high I3 K Fac high Harmonics Logging trigger Periodic Timer 3 Harm Log Trg Harm Log Trg Harmonics Logging enable e e External Boolean 6 Harm Log Enble Harm Log Enble High Harmonics reset e Feedback 3 Rset Harm high Rset Harm high Mean Harmonics Recorder Data Recorder 7 Harm mean Log Harm mean Log High Harmonics Recorder e Data Recorder 8 Harm high Log Harm high Log THD Total Harmonic Distortion DISPLAYING DATA 2 25 Power Quality Monitoring Framework This portion of the factory configuration monitors the phase voltage signals for sag swell and transient events and triggers waveform recordings when they occur statistics are also recorded for each event A trigger is provided for manual waveform recording and counters are included to di
110. ent Counter e e Counter 10 Transient Count Transient Count Disturbance timestamp reset e Counter 11 Rset timestamp Rset timestamp Waveform trigger merge e Pulse Merge 1 Wim Trg Merge Wim Trg Merge DISPLAYING DATA 2 27 Setpoint Framework This portion of the configuration provided setpoints to monitor phase current voltage unbalance and kW sliding window demand Using PEGASYS Vista upper limits are input for each parameter If the measured value goes above the specified limit for at least 30 seconds Vista annunciates an alarm Description of Displayed Accessible by Default ION Module ION Module Output Register Parameter or Function Vista PowerView MGT Name Label Label Over kW SW Demand e e Relative Setpoint 1 Over kW swd Over kW swd Over Phase A Current e e Relative Setpoint 2 Over la Over la Over Phase B Current e e Relative Setpoint 3 Over b Over b Over Phase C Current e e Relative Setpoint 4 Over c Over 1 Over Voltage Unbalance e e Relative Setpoint 5 Over V unbal Over V unbal Nominal kW SW Demand e e External Numeric 1 kW swd nominal kW swd nominal Nominal Phase A Current e e External Numeric 2 la nominal la nominal Nominal Phase B Current e e External Numeric 3 b nominal Ib nominal Nominal Phase C Current e e External Numeric 4 c nominal c nominal Nominal Voltage unbalance e e External Numeric 5 V unbal nominal V unbal nomi
111. er and are installed as follows 1 Ensure that the top panel of the 7700 ION RM device is in place and the four screws are fastened 2 Insert the wire through the hole on one of the seal tabs protruding through the top panel v a y L7 _ amp 3 Twist the wire and crimp your lead sealing tab onto the wire Password Protected Min Max Register Resets The 7700ION meter front panel MGT display panel incorporates a password that must be entered in order to reset any of the minimum maximum register values The password must therefore be used to reset peak demand register values 7700 ION REVENUE METERS A 3 The RMKEY RMKEY RMBU o A NOTE Any of the locked modules cannot be deleted even with the RMKEY inserted 4 Hardware based Security The 7700 ION RM revenue meter is equipped with a comprehensive security system that provides protection against unauthorized alteration or tampering of revenue related quantities This security system locks all revenue related ION modules ION links and ION setup registers Of particular importance is the fact that basic meter configuration parameters including volts mode service type PT ratio and CT ratio are locked These locks are automatically enabled at the factory for all 7700 ION RM meters Revenue Meter Programming Key RMKEY The Revenue Meter Programming Key RMKEY is a 3 x 4 76
112. ering options and warranty registration information Revenue Metering Details specific to the revenue class 7700 ION RMANSI and RMICAN are provided in the Appendix gee Appendix A Contents Power SIIrt o eee ta a ee rea e ae ese otii cette eve Td The 7700 ION is Factory Configured and Ready to Operate 1 2 What s New in Firmware Version 7700V200 000600000000 000000 0000000000000000 The 7700 ION in a Power Monitoring System Data Display and Analysis Tools Communications Options tr tr entente Precedente cen Input Outpu t ette ec epe tee bred ced Using this Guide ES 1 5 Before You can Use this 2 1 6 Getting More 1 6 Displaying Data oido tene abe et o na ce er rere A Displaying Data with PEGASYS Vista 2 0 eese ettet nenen nana en aane 2 2 Summary of Data Provided reete eee ierra tette 2 2 Displaying Data if PEGASYS is not Fully Configured sese 2 3 Real Time Measurements EN Er ang an nnne 2 4 Power Quality Data rcm eee e dre me deemed pmo Dic sa NG gak ies 2 5 Energy amp Demand ce M
113. et the phase current upper limit Tosetthe over current limits enter the total number of Amps that should be considered as an over current condition Each status will read Not Available when monitoring is disabled 7700 ION USER S GUIDE Voltage Unbalance Monitoring Over voltage unbalance monitoring is disabled by default Level 3 PEGASYS authority is required to enable over voltage unbalance monitoring and to set the voltage unbalance upper limit To set the upper limit for voltage unbalance enter the percentage of the average voltage measurement that will be considered as a voltage unbalance condition if it is exceeded by the voltage on any phase The status will read Not Available when monitoring is disabled Digital Inputs The Digital Inputs diagram monitors the eight status inputs on the 7700 ION The status of each input ON or OFF and the number of times the status has changed is displayed The status change counter can be reset im giu c Ead NE PHIL 31ADA swirehges 790 L Digital inputi EN a The status of each input om al Double click this object to Emz reset the status change owed counter The number of times each Kama input has changed status gm x Pid bid me Status The 7700 ION s status inputs are de energized when the meter is powered up so each status will initially be OFF Reset Level 3 PEGASYS a
114. et up an integrator display screen 1 Enter the handle of an Integrator s Result output register or other numeric register if desired then press ENTER If you want to keep the register that is currently in use press the button labeled KEEP PREVIOUS 2 Repeatstep 1 for the remaining 3 registers whose Results you want to display If you want to keep the register that is currently in use press the button labeled KEEP PREVIOUS When you view your Integrator display screen the labels of the selected registers are displayed if no labels have been defined the default register names appear To the right of each label the value of the register is displayed 4 49 Technical Reference The specifications that follow are subject to change without notice In this Chapter JON Module Summary iternm nate tor rera ta 5 2 Setup Register Creation Defaults sss 5 2 Input and Output Register Descriptions asanes aa aaa anae anane a aana ane 5 2 Measuremehts 2 25 aga abg KA EN A Pr e E Ee E Pe AXE ETE o ded RE Te Da HERE 5 13 kW Measurement Accuracy saen en eaaa ena an nenen nana anane nen ne nne anane 5 14 High Speed Measurements During 5 14 Input RANGSANG ana aa aa Aa raa nennen E R 5 15 Optional Input Output Modules sse 5 16 Analog Input Modules sse eee eene 5 16 Analog Output
115. ether first and then later link them to the Power Meter module It does not affect the execution order the Power Meter module will still execute first In more complex frameworks the relationship between modules may not be as linear as in the previous examples In these cases modules are still executed in the order of information flow but some modules may be executed simultaneously if they do not depend on each other for data For example rer 3 4 These two modules are independent so they can execute simultaneously TT gt gt This module will not execute until the bottom two modules have executed Note that execution order and update rate are not the same thing Update rate refers to how frequently a module performs its operation and updates its output registers every second for high accuracy every cycle for high speed Execution order refers to the order in which modules execute within the update period For example if the framework above were high speed the entire process would execute within the 1 cycle update period it would not take 4 cycles to execute ION Event Priority Groups Events produced by the various ION modules are prioritized and grouped to facilitate custom logging Each event has a priority group number assigned to it based on its type and severity There are 8 event priority groups in total as shown in the table below Event Group Description Pri
116. f this User s Guide depending on how you will use the 7700 ION Chapter Understanding the Basics of the 7700 ION Chapter 1 introduces the 7700 ION and shows how it fits into power monitoring systems The display and analysis software tools that compliment the 7700 ION are discussed and some of the device s capabilities are presented Chapter 2 Accessing Data and Interpreting Displays Chapter 2 shows you how to access the data that the factory configured 7700 ION provides Go directly to this chapter if you want to start viewing real time and logged data without performing any additional configuration Chapter 2 describes what data you can access using PEGASYS Vista software PowerView software and the MGT front panel display Chapter 3 Making Minor Configuration Changes Chapter 3 describes how to use PEGASYS ION Designer to make minor changes to the meter s operation Configuration functions provided by PowerView and the MGT are also described Chapter 4 Customizing the 7700 ION Using Advanced Functions Chapter 4 provides more details about the 7700 ION s operating software so that the advanced user can create custom functionality Chapter 4 also describes advanced communications time synchronization and 1 available with the XPRESS CARD Creating custom MGT displays is also discussed Chapter 5 Technical Specifications The Technical Reference in Chapter 5 provides technical specifications accuracy data ord
117. ffers many new and enhanced features including new power quality functions new communications and I O options and more ION module types for advanced applications PEGASYS version 2 0 includes several enhancements that make the 7700 ION easier to set up and use Data Display and Device Configuration Improvements The most significant change to the 7700 ION in the V200 release is found when you display data or perform configuration functions with PEGASYS Vista ION Designer and the MGT The data measured by the 7700 ION is now easier to access and interpret in PEGASYS Vista A new set of user diagrams included on the PEGASYS 2 0 release CD group most of the factory configured functions onto five main screens for real time measurements power quality monitoring energy and demand calculations setpoints and digital input status Both ION Designer software and the MGT have been updated to provide easier access to setup functions Power Quality Features 7700V200 firmware provides enhanced power quality monitoring functions The device now uses a nominal system voltage level to quantify power quality events such as sags swells and transients Both the Sag Swell module and the Transient module have been improved and the display of real time and logged power quality events is incorporated into the standard PEGASYS Vista user diagrams New Communications and I O Options New or improved communications and I O features include The XPRESS CARD
118. for other logs and measurements Many of the data screens have multiple tabs that display additional data The following list summarizes the data available from the standard data screens see the Complete List of Factory Configured Measurements and Functions near the end of this chapter Data Recorders Any recorded data that is logged by the 7700 ION s 20 data recorders Demand Sliding window demand predicted demand and thermal demand for power and current parameters Enables Logging enable switches for min max values energy historic data demand harmonics sag swell transients and waveforms Event The meter s event log all events logged by the meter Harmonics Phase voltage and current total harmonic distortion phase voltage and current harmonic distortion values from the 1 to the 15 K factor Maximum Maximum values and timestamps for all voltage current power frequency and harmonic distortion parameters Minimum Minimum values and timestamps for all voltage current power frequency and harmonic distortion parameters Real Time Per phase and total voltage current power frequency and power factor total import and export energy 2 11 A NOTE The PowerView network must be properly configured before you can display data Refer to the PowerView User s Guide or on line help for assistance Click this button to set PowerView to Data Screens mode Expand the network tree to
119. from 1 to 8 cycles of waveform data Waveform Format Cycles Appearing on MGT Resolution samples cycle 128 x 14 1 128 64 x 14 64 x 28 2 64 32x12 32 x 26 4 32 32 x 40 32 x 54 16x22 16x 48 8 16 16x72 16 96 As the MGT can only display 128 points at a time it takes the most recent set of waveforms in the Wform Log output register The title of the screen is displayed here 270 10 lt Wt f OMANE The register label is displayed or the register name if no label has been setup LI E To set up a waveform display screen 1 Enter the handle of a Waveform Recorder s Wform Log output register then press ENTER If you want to keep the register that is currently in use press the button labeled KEEP PREVIOUS 2 Enter a title of up to 15 characters then press the ENTER button To keep the title that is currently in use press the button labeled KEEP PREVIOUS 4 48 7700 ION USER S GUIDE A NOTE Any ION numeric register can be displayed on an Integrator screen USING ADVANCED FEATURES Integrator Screens Integrator screens allow you to display numeric outputs with greater resolution than other displays They can display up to 4 output values on the MGT at one time with up to 11 digits of resolution By default the MGT includes the ENERGY display the outputs of Integrator modules 1 through 4 B kWh imPort 7014 iu kWh exPort s
120. ft cable for ordering MGT separately 50ft 50 ft cable instead of 10 ft cable 200ft 200 ft cable instead of 10 ft cable Internal Analog Input Options Use separate line item on Purchase Order Auxiliary Analog Inputs Board AUX ImA 0 to 1mA Auxiliary Analog Input AUX 20mA 0 to 20mA Auxiliary Analog Input AUK IV 0 to L VAC VDC Auxiliary Analog Input AUX 10V 0 to 1OVAC VDC Auxiliary Analog Input Note All four on board Analog Inputs must have the same range External Input Output Expansion Options Use separate line item on Purchase Order IOCA 1 0 card for I O Port A with ribbon cable 3 feet IOCB I O card for I O Port B with ribbon cable 3 feet and universal power supply see power supply specifications This option should be used for specifying a second I O board or a board that will be populated with more than 6 analog devices P24 48 Power Supply Option for IOCA or IOCB Analog Input Devices GAIVDC1 0 to 1 VDC Analog Input Device GAIVDC5 0 to 5 VDC Analog Input Device GAIVDCSB 5 to5 VDC Analog Input Device GAIVDC10 0to10 VDC Analog Input Device GAIVDC10B 10 to 10 VDC Analog Input Device GAIIDC420 4 to 20 mA Analog Input Device Thermocouple Devices GAITCR GAITCT Type GAITCK TypeK GAIRTD RTD TECHNICAL REFERENCE 5 23 Analog Output Devices GAOVDC5 GAOVDC5B GAOVDC10 GAOVDC10B GAOIDC420 0 to 5 VDC Analog Output Device 5 to 5 VDC Analog Output Dev
121. gging 2 5 3 11 2 23 long term min max 2 4 2 6 Vista diagram 2 4 2 10 realtive setpoint modules 3 12 register classes array 4 4 boolean 4 4 calendar 4 5 enumerated 4 5 event 4 5 event log 4 6 log 4 6 numeric 4 4 numeric bounded 4 5 pulse 4 4 string 4 5 waveform 4 5 register details 4 4 register labels and names 4 6 reset inputs 2 9 restrictions linking 4 3 return procedure 5 26 Revenue Meters RM A 1 additional functions A 2 RMICAN checklist A 7 configuring A 5 CT amp PT selection A 6 safety precautions 5 data recorder 1 A 8 options A 1 security mechanisms A 3 standard versus RM models A 2 types A 1 S sag swell module settings 3 10 serial COM setup MGT 3 21 setpoints 2 8 framework 2 28 over kW sliding demand 2 8 per phase over current 2 8 setup 3 12 voltage unbalnce monitoring 2 9 SETUP display screens MGT 2 17 setup register creation defaults 5 2 setup register ION Module 3 3 3 4 Setup Screens mode PowerView 3 15 standard update rate 4 6 standards compliance 5 21 status display screens MGT 4 46 status inputs 2 9 4 15 T technical reference 5 1 additional specifications 5 21 external output device part no summary 5 25 high speed fault measurements 5 14 I O register descriptions 5 2 input ratings 5 15 ION module summary 5 2 kW measurement accuracy 5 14 measurements 5 13 optional
122. gner PowerView provides the functions required to link ION modules but there is no graphic representation of how the data flows through the linked modules Using PowerView to create custom functionality requires the ability to conceptualize module linkages without being able to view them on screen 7700 ION USER S GUIDE ION Details Power Meter Module Voltage on phase A is measured USING ADVANCED FEATURES Vln a In order to create custom functions in the 7700 ION it is necessary to understand some of the rules of ION Read the following paragraphs for information on the component parts of an ION module and what restrictions apply to their use To recall what was stated in Chapter 3 an ION module consists of inputs setup registers and output registers OUTPUT REGISTERS The module holds the results of its operation in its output registers this data is available to other modules INPUTS Data flows into the module through the inputs inputs are connected to the output registers on other ION modules ION Module Input 1 Output 1 Output 2 Input 2 SETUP REGISTERS Settings in the setup registers control how the module processes data Modules are linked together to create powerful functions For example the framework below consists of four modules that when combined trigger a waveform recording in response to an over voltage condition p p Waveform Recorder
123. gs in an existing module s setup registers to achieve the functionality you want Refer to Configuring the 7700 ION with ION Designer in Chapter 3 for information on this type of configuration change If you need to customize your meter s operation you will need to create new ION modules configure their settings and in some cases link them to other modules ION Designer provides a graphical view of your meter s internal operation making these tasks simple The basic functions of ION Designer are described in the next few paragraphs Refer to the ION Reference for more information on ION Designer or refer to the ION Designer On Line Help for complete usage details A NOTE Once you have created a module you may have to adjust its setup registers Chapter 5 shows the setup register defaults a module will contain when it is initially created as well as the ranges or options each setup register supports If you have to change a setting refer to Configuring the 7700 ION with ION Designer in Chapter 3 for instructions 4 12 Each module available in the node appears in the toolbox Creating New Modules To add a module locate its icon in the ION Designer toolbox press and hold the left mouse button over the icon and drag it onto the node diagram Once you release the mouse button the module is added to the diagram and can be configured and linked Choosing the Module The ION Designer toolbox displays icons for
124. hase A e e Meter Event Volts zero sequence magnitude e Volts zero seq phase angle e Volts positive seq magnitude e Volts positive seq phase angle e Volts negative seq Magnitude e Volts negative seq phase angle e Current zero seq magnitude e Current zero seq phase angle e Current positive seq magnitude e ION Module Name Power Meter Module ION Module Label Power Meter Output Register Label Quadrant 2 Quadrant 3 Quadrant 4 PF sign a PF sign b PF sign c PF sign tot PF lead a PF lead b PF lead c PF lead tot PF lag a PF lag b PF lag c PF lag tot V unbal unbal 14 Phase Rev Freg Event V ZeroSeqMag V ZeroSeqPhs V PosSeqMag V PosSeqPhs V NegSeqMag V NegSeqPhs ZeroSeqMag ZeroSeqPhs PosSeqMag 2 31 Real Time Measurements Continued Description of Displayed Accessible by Default ION Module ION Module Output Register Parameter or Function Name Label Label Vista PowerView MGT Current positive seq phase angle e Power Meter Module Power Meter PosSeqPhs Current negative seq Magnitude e NegSeqMag Current negative seq phase angle e NegSeqPhs Volts Phase A HDs e Harmonics Analyzer V1 Harmonics VI HD 1 Module 1 thru nd th 2 to15 V1 HD 63 Volts Phase A total HDs e e e V1 Total HD Volts Phase A total even HDs e V1 Tot EvenHD Volts Phase A total odd HDs e V1 Tot OddHD Vo
125. he ION Architecture ener enne nns 3 3 The ION Module mieui eret em to ene ede ta ins 3 3 ION Registers dine niii 3 4 Making ION Configuration Changes 3 4 Configuring the 7700 ION with ION Designer eee 3 5 Using ION Designer to Change Setup Registers 3 5 Basic eer taret e ettet erit eripe 3 7 Communications 3 8 Demand Setup o qu eter e ettet nete it eder tei desee rt teer Was 3 9 Meter Clock Set p ag naa anaa ed estere td 3 9 Power Quality aa pite sere Here 3 10 Data Logging Setup sese nene nn en nnns 3 11 Setpoint Setup aniio iret i resta ei eniti tee t geh nbi cte de 3 12 Advanced Setup anas asa as abane anaa nani anan pa rerit Enos 3 12 Third Party Protocols eee em eene tee mds 3 13 Factory Information de eade ne gre tii ae etre tera dere 3 14 Configuring the 7700 ION with PowerView eese 3 15 PowerView s Setup Screens Mode 3 15 PowerView s Basic and Advanced ION Setup Modes 3 16 Configuring the 7700 ION with the MGT sse 3 18 Quick Setup iapa srra c be En D RD FRU naa uade 3 21 Parameter Reset bue Ren be IUe n ee se E HAR 3 23 Configure ION fs n epe reor edicit dds Pale 3 24 3 1 Configuration Tools A NOTE Creating custom functionality in the 7700 ION is discussed in the nex
126. ice 0 to 10 VDC Analog Output Device 10 to 10 VDC Analog Output Device 4 to 20 mA Analog Output Device Digital Input Devices GDIAC120 GDIAC240 GDIDC32 GDIDC32H GDICC 120 VAC Digital Input Device 240 VAC Digital Input Device 32 VDC Digital Input Device 32 VDC High Speed Digital Input Device Dry Contact Module Digital Output Devices GDOAC120 GDOAC120MO GDOAC240 GDOAC240MO GDODC60 GDODC60MO GDODC200 GDODCOO0L GDODC100M 120 VAC 3 5A N O Solid State Relay 120 VAC 3 5A Zero Voltage Turn On With Manual Override 240 VAC 3 5A Solid State Relay 240 VAC 3 5A Zero Voltage Turn On With Manual Override 60 VDC 3 5A N O Solid State Relay 60 VDC 3 5A Zero Voltage Turn On With Manual Override 200 VDC 1 0A N O Solid State Relay 60 VDC 3 5A Low Leakage N O Solid Relay 100 VDC 0 5A N O Mechanical Relay Ordering Example This example specifies a 7700 ION for a 347 600 Volts 60 Hz system It includes an I O card A with 60 VDC power supply an I O card B with 60 VDC power supply six 0 to 1 VDC Analog Input Devices six 4 to 20 mA Analog Output Devices eight 120V AC Digital Input Devices and four 120VAC Digital Output Devices GAIVDC1 7700 347 60Hz IOCA P24 48 IOCB P24 48 GAOIDC420 GDIAC120 GDOAC120 gt COD DR RR 5 24 7700 ION USER S GUIDE External Output Device Part Number Summary The following table summarizes the manufacturer s part numbers for external dev
127. ices used with the 7700 ION ORDERING OPTION DESCRIPTION PART Digital Outputs GDOAC120 120 VAC 3 5A N O Solid State Relay 70G OAC5 GDOAC120MO 120 VAC 3 5A N O Zero Voltage Turn on Manual Override 70G OAC5MA GDOAC240 240 VAC 3 5A N O Solid State Relay 70G OAC5A GDOAC240MO 240 VAC 3 5A N O Zero Voltage Turn on Manual Override 70G OAC5AMA Digital DC Outputs GDODC60 60 VDC 3 5 A N O Solid State Relay 70G ODC5 GDODC60L 60 VDC 1 0 A Low Leakage N O Solid Relay 70G ODC5B GDODC60MO 60 VDC 3 5 mA Manual Override 70G ODC5MA GDODC200 200 VDC 1 0A N O Solid State Relay 70G ODC5A GDODC100M 100 VDC 0 5A N O Mechanical Relay 70G ODC5R Digital AC Inputs GDIAC120 120 VAC Digital Input Device 70G IAC5 GDIAC240 240 VAC Digital Input Device 70G IAC5A Digital DC Inputs GDIDC32 32 VDC Digital Input Device 70G IDC5 GDIDC32H 32 VDC High Speed Digital Input Device 70G IDC5B Dry Contact Inputs GDICC Dry Contact Digital Input Device 70G IDC5S Analog Outputs GAOVDC5 0 to 5 VDC Analog Output Device 73G OV5 GAOVDC5B 5 to 5 VDC Analog Output Device 73G OV5B GAOVDC10 0 to 10 VDC Analog Output Device 73G OV10 GAOVDC10B 10 to 10 VDC Analog Output Device 73G OV10B GAOIDC420 4 to 20 mA Analog Output Device 73G Ol420 Analog Inputs GAIVDCI 0 to 1 VDC Analog Input Device 73G IV1 GAIVDC5 0 to 5 VDC Analog Input Device 73G IV5
128. ification A CAUTION If the voltage on Phase A drops to 20 or lower of the rated nominal value Accuracy of kW Readings 0 5 PF 25 C 7700 ION Accuracy IEC 687 Class 0 5 frequency detection will not 8 D 8 function measurement 5 8 accuracy will be impaired gt 1 55 2 0 0 T T 1 10 25 50 75 100 125 Full Scale of Rated Load Accuracy of kW Readings Unity PF 25 10 7 7700 ION Accuracy 0 9 IEC 687 Class 0 5 4 0 7 4 2 E D zl g 2 D 0 5 a 9 amp 044 gt E S 03 5 02 04 High Speed Measurements 0 0 25 50 75 100 125 Full Scale of Rated Load During Fault 125 to 200076 of Rated Input 6 25 A to 100 A Parameter Accuracy reading MGT Resolution Range Current I1 I2 and I3 only 5 0 1 O to 106 kVA 596 0 196 kW Unity PF 3 3x107 0 1 5 kW 50 Lag and 50 Lead 5 0 1 to 3 3x107 Power Factor Unity PF 0 to 3 3x107 0 0196 1096 0 01 to 100 00 100 00 to 0 01 Power Factor 0 5 Lag and 0 5 Lead 1096 0 01 0 01 to 100 00 100 00 to 0 01 7700 ION USER S GUIDE Input Ratings Input Options Specifications Voltage 120 option 120 VAC nominal F S input 25 overrange Barrier strip connector rated to 600 Volts line to line jeez 277 option 27
129. ilable on the meter to monitor AC or DC signals Additional I O is available using one or two expansion boards up to 15 input or output modules can be added digital or analog inputs or outputs are available Some restrictions apply to number of analog modules you can use due to the power they require Refer to the section Using On Board and Expansion I O in Chapter 4 for details This User s Guide is directed at three types of user the typical user or operator the system administrator and the advanced user You might not fit into any of these groups directly or perhaps you are both an operator and an administrator These user classifications are intended to make this guide easier to navigate e Typical User or Operator Most users will simply want to display the data provided by the factory configured 7700 ION These users want fast access to data through the front panel PEGASYS software PowerView software or a third party protocol such as Modbus RTU Chapter 2 addresses the needs of the typical user who wants to get data out of the 7700 ION This chapter assumes that the reader is not concerned with how the device functions instead the focus is on accessing and interpreting the data provided System Administrator or Manager Some users will need to make minor adjustments so that their meters fit their power systems data recording intervals demand sub intervals and other parameters may need to be set before the 7700 I
130. ime synchronization of your 7700 ION devices to be within 1ms of Universal Time To implement GPS time synchronization each 7700 ION must be equipped with the optional XPRESS CARD as two communications links are required at each device The highest possible accuracy can be achieved using COM 1 to receive time signals however COM 2 and COM 3 can be used for time synchronization with slightly less accuracy than COM 1 Ethernet or RS 485 network for PEGASYS communications XPRESS CARD port XPRESS CARD port XPRESS CARD port RS 232 RS 485 converter GPS Receiver dedicated RS 485 network for time synchronization signals Either RS 232 or RS 485 networks can be used for time synchronization however RS 485 is recommended if more than two devices are being synchronized Ethernet cannot be used for GPS time synchronization If your GPS receiver s output is RS 232 use a Power Measurement COM32 or equivalent RS 232 RS 485 converter that does not buffer communications The Power Measurement COM128 is not recommended if used in Repeater Mode Supported GPS Receivers As of 7700 ION V200 the following GPS receivers are supported GPS Receiver Comm Module Protocol Register Setting True Time XL DC series GPS TRUETIME DATUM Datum ExacTime Series GPS TRUETIME DATUM Arbiter 1092 GPS ARBITER Clark and Associates GPS 200 ASCII GPS TRUETIME DATUM USING ADVANCED FEATURES 4 35 Time Synchronization Diagno
131. imum module output register then press ENTER If you have not linked to a Maximum module just press ENTER to continue Steps 5 and 6 are repeated for the remaining three registers to be displayed in the bar graph You are prompted to specify if you want to display min and max bars on the bar graph If you specified parameter handles in steps 5 or 6 and you want to display these values select 1 then press ENTER If you have not linked to any Minimum or Maximum modules or you do not want to display these values select 0 and press ENTER boundaries of the scale 6 Channel Bar Graph The 6 channel bar graph displays six numeric register values in bar graph form and in number form If you are displaying high accuracy registers the graph is updated every second If you are displaying high speed registers without minimum and maximum values indicated the graph is updated every 100 ms with the minimum and maximum values displayed the update rate is 1 second Title 1 is displayed here The high boundary of the scale for the first 3 registers is shown here The low boundary of the scale for the first 3 registers is shown here The value in the register is shown here The low boundary of the scale for the second 3 registers is shown here The register label is dis played or the register name if no label has been setup The value in the register is represented by the position of the bar
132. ing a Communications Protocol ssesssseeeeeeeeee n ene 3 13 Configuring the 7700 ION with PowerView eee eese tette 00 ene nn nenen 0nne 3 15 Using the PowerView Interface eese toten tnn sn ntn tnus 3 15 PowerView s Setup Screens Mode sss eene 3 15 PowerView s Basic and Advanced ION Setup 3 16 Determining Which Modules to Configure sese eee 3 17 Configuring the 7700 ION with the MGT 0000000000000000 00 0000000000 naa 0a nenen nonton 3 18 The MGT s Setup Menus E aA S 3 18 Using the MGI s Buttons ierra rrr e tero a eit 3 19 Quick Ju 3 21 Parameter Reset ES A Saai 3 23 3 24 Using Advanced 4 1 Customizing the 7700 ION s Operation 0000000 0000000000000000 na 00 nenen 00 ena 0n nenen naen een ee 4 2 D IE 1 rep E EE E 4 3 Module Linking Restrictions sessssseeeeneeeene nene nnn eene 4 3 The Not Available Val e 3 ee rtr e HEC eeh RE E er HO REP rt 4 4 Core Modules and Fixed Module Links sse 4 4 ION Register Details Timing Considerations in the 7700 ION 00600000000 00000000000000
133. ion to determine what register classes can be displayed in each screen register classes are introduced on page 4 4 Specifying Parameter Handles When you create a custom screen the MGT requests a parameter handle Parameter handles specify the memory location inside the 7700 ION where data is stored Each ION register has a unique parameter handle Parameter handles are four digit hexadecimal numbers such as 71E4 To determine a particular parameter handle refer to the help file handles pdf provided on all PEGASYS and PowerView release CDs If you do not havea release CD from Power Measurement contact Customer Service and request the parameter handles for the 7700 ION 7700 ION USER S GUIDE BE Standard Character Screens Standard character screens are used for displaying numeric register values They present data in small enough characters to include 15 different numeric registers on one screen These screens are best suited for viewing close up Data in standard character screens are updated once per second regardless of the update rate of the register on the connected device The value in the register is displayed and updated once per second WU The title is displayed here a iu uc BE KAN a Hla The programmable register label is displayed or the register name if no label has been setup To set up a standard character screen 1 Enterthe parameter handle of the first register you w
134. irst line of the label can be up to 10 characters long Pressing ENTER will keep the current button label 5 Use the keypad to enter the second line of your new button label again up to 10 characters then press ENTER The following screen appears lise Four channel s Bar drach di Channe Grarh Ticini ist lat Farameter Trend Dierl wa Hot Status Di Larae Statue Dizrelau a stus bawi su Wana Tara Diarlaw Intes9rator Disrlay lae UP DOWN arrows to Select DizPlay Tyre 4 37 6 Select the type of display screen you want to use then press ENTER Depending on the screen type you have chosen you will be prompted for different information Setting up each of the display screens is described in detail in the sections that follow Refer to these sections for instructions about setting them up 7 When you have specified all the necessary information for the display screen you selected press ENTER You will return to the main menu screens and the new button you have specified will appear in the main menu Any time you want to view the data in the screen you have setup press its button in the main menu To leave the screen and return to the main menu press the ESC button Using the MGT Display Formats 4 38 The following paragraphs describe the various display formats that the MGT offers and how each is configured Refer to the register class symbol at the start of each format descript
135. isplay improvements 1 2 data display screens MGT 2 13 data logging setup ION Designer 3 11 energy amp demand logging 3 11 harmonics logging 3 11 historic data logging 3 11 data screens mode PowerView 2 12 data time display MGT 2 18 deleting factory configuration 4 10 demand profile trending 2 7 demand setup MGT 3 22 Demand Setup folder PEGASYS 3 9 demand energy and peak demand reset 2 7 depth framework 4 3 diagrams Vista common elements 2 3 energy and demand 2 7 power quality 2 5 real time 2 4 digital inputs 2 9 framework 2 29 reset 2 9 status 2 9 digital outputs 5 16 displaying data 1 4 2 1 with MGT 1 4 2 13 with PEGASYS Vista 1 4 2 2 with PowerView 1 4 2 11 with 3rd party tools 1 4 3 13 disturbance details 2 6 DNP 3 0 protocol 3 13 4 25 factory configuration 4 25 importing data 4 27 Options module settings 4 27 Slave Export module settings 4 26 dry contact modules optional 5 18 energy and demand 2 7 demand profile trending 2 7 framework 2 19 logging 3 11 peak demand reset 2 7 Ethergate IP port number 4 30 protocol 4 28 4 30 Ethernet COM setup 3 22 Event Log Controller 4 6 event priority groups 4 8 events external 4 9 execution sequence module 4 7 expansion boards and restrictions 4 16 external events 4 9 F factory configuration 1 2 dismantling 4 9 restoring 4 11 factory configured frameworks
136. ith a comprehensive configuration Most users will find that the factory configuration suits their needs entirely This chapter describes how to view the data that is measured and logged by the factory configured 7700 ION using PEGASYS Vista software PowerView software and the MGT front panel interface The 7700 ION s factory configuration also includes some data that does not appear by default in PEGASYS Vista PowerView or on the MGT Further the factory configuration makes several power energy and demand parameters available through the Modbus RTU protocol A list of available data that does not appear in PEGASYS Vista PowerView or on the MGT is presented near the end of this chapter and how to view it is briefly discussed In this Chapter Displaying Data with PEGASYS Vista 2 0 sess 2 2 Summary of Data Provided electa teet nenne 2 2 Common Diagram Elements 2 3 Displaying Data if PEGASYS is not Fully Configured 2 3 Real Time 2 4 Power Quality Data iste eei dei denied 2 5 The Energy amp Demand Calculations sss 2 7 Setpoitits Scenes tni pis e fe e eshte 2 8 Digital Inputs etes endete hp deer bari es Re Fete e Ga aches 2 9 Displaying Additional Data in Vista sese eee 2 10 Displaying Data with PowerView
137. ization by one or more seconds increasing the frequency of connections will typically ensure records are not duplicated or lost Time Synchronization Accuracy Different time sync methods can be used to provide different levels of accuracy PEGASYS can be used for systems where time synchronization is not critical In this configuration each device s clock is synchronized to the time broadcast by the PEGASYS Communications Server workstation For applications where highly accurate synchronization is required an additional serial network is installed at the site and a GPS receiver is used to broadcast the time synchronization signal Using PEGASYS as the time source the 7700 ION s clock can be synchronized to within 16ms typical of other 7700 ION meters in the network Using a GPS receiver the 7700 ION can be synchronized to within 1ms of Universal Time or within 2ms typical of other 7700 ION devices on the network 7700 ION USER S GUIDE A NOTE Time synchronization accuracy cannot be guaranteed on Ethernet networks USING ADVANCED FEATURES Communications Ports and Protocols Used Time synchronization signals from PEGASYS or a GPS receiver are received through the communications ports on the 7700 ION base unit and optional XPRESS CARD Signals can be received on the device s COM 1 RS 232 RS 485 port the XPRESS CARD S COM 2 or COM 3 5 485 ports or the XPRESS CARD S 10BaseT and 10BaseFL Ethernet ports An XPRESS
138. l Communications Protocol and ION Modbus Register Map for complete details on the Modbus implementation in the 7700 ION 4 20 The 7700 ION can make any real time data available through the Modicon Modbus RTU protocol Modbus Master devices connected to the 7700 ION can access this data Modbus Master devices can also write data into ION registers making device configuration changes or initializing control actions The 7700 ION s Factory Modbus Configuration The 7700 ION makes data available to Modbus Master devices using four Modbus Slave modules These modules are linked to other modules in the 7700 ION that provide the energy power and demand data Once a communications channel is configured to use Modbus RTU protocol refer to Communications Setup in Chapter 2 the data is available to Modbus Master devices measured data is linked communications port is set to Modbus module s input to Modbus RTU protocol Power Meter Modbus Slave Module Module data is available to Modbus Master devices Modbus module outputs data in Modbus format 7700 ION As the data available through the Modbus Slave modules is in a specific format knowledge of the Modbus protocol and an understanding of the settings used in the 7700 ION are required to interpret the data provided Changing the Modbus Configuration If the factory Modbus configuration does not suit your needs the existing Modbus Slave modules can be relinked to other parame
139. layed Harmonics Displays Harmonics are displayed for each current phase All harmonics from the fundamental to the 63 can be displayed at once or harmonics can be shown across two screens The Harmonics display screens can be adjusted to show even harmonics odd harmonics or both Press the button next to ODD to display odd harmonics will be highlighted as shown if odd harmonics are being displayed Came Press the button next to EVE to display even harmonics EVE will be highlighted as shown if even harmonics are being displayed 02 Fo Press the button next to this graphic to toggle between one or two screen displays This arrow appears if the two screen display is selected Press the button next to this arrow to move between the two display screens 7700 ION USER S GUIDE Display Screens Available under SETUP There are five display screens available under the SETUP menu item You do not require password authorization to view these screens The other eight items in the setup menu are used to configure the 7700 ION and the MGT and require password authority setup functions are described in the next chapter Press SETUP on the main MGT screen to display these options BUICK HHMEPLHTE SETUF INFO 1 The three NAMEPLATE INFO screens display information FARANETER HAMEPLATE about the 7700 ION and its EESET INFO z settings NAMEPLATE INFO 3 OTHER Enter DISPLAY OPTIONS to SE
140. lder to use the LonWorks port The LonWorks port on the 7700 ION is part of a LonWorks network it is not part of the PEGASYS network Configuring the LonWorks Port There are three steps to configuring the XPRESS CARD s LonWorks port 1 Physically connect the port to the network 2 Configure LonWorks Import and LonWorks Export ION modules to map ION data into LonWorks data and vice versa 3 Configure the port as a node on the LonWorks network using third party network installation and management tools Refer to the ION Reference for LonWorks Import module and LonWorks Export module functional descriptions The Service Pin The XPRESS CARD has a push button pin marked SERVICE adjacent to the LonWorks port which is used to advise the network installation tool which node is to be installed A green LED located next to the LonWorks port will light when the SERVICE pin is pushed and blink to indicate that the node is in an unconfigured state The LED will stop blinking once the node s network configuration is complete If the LED remains on after you have finished configuring the LonWorks network network configuration was either not completed or not performed correctly 4 31 Using Time Synchronization A NOTE the time on a device is out by one second or more when a time sync signal is received the device s clock is reset to the broadcast time 4 32 Time synchronization allows you to synchronize the internal cl
141. le if your bar graph is to display the voltage on phase a and you expect the voltage to be around 1200 V you may want to enter 1400 as your maximum boundary If you want to keep the value that is currently in use press the button labeled KEEP PREVIOUS 3 Repeat steps 1 to for the remaining 3 registers that you want to display If at any point you want to return to the main menu press the ESC button USING ADVANCED FEATURES 4 41 Parameter Function 5 min for parameter 1 6 max for parameter 1 7 min for parameter 2 8 min for parameter 2 9 min for parameter 3 10 max for parameter 3 11 for parameter 4 12 max for parameter 4 QZ NOTE The minimum and maximum values attained by the register are not the same as the minimum and maximum The next value you are prompted for is the minimum value attained by the first register in the display If you have linked the first register you are displaying to a Minimum module you can display that minimum value on your bar graph To do so enter the handle of the appropriate Minimum module output register then press ENTER If you have not linked to a Minimum module just press ENTER to continue Next you are prompted for the maximum value attained by the first register in the display If you have linked the first register you are displaying to a Maximum module you can display that maximum value on your bar graph To do so enter the handle of the appropriate Max
142. le Setup Output Registers Setup Registers PM1 Volts Mode ANANE PMIPT Prim 347 PT Sec 347 m Module Label Use Default Label C Use Custom Label Power Meter Modify Cancel Highlight the Setup register you want to configure and click the Modify button The Modify Register dialog box appears this is where you make the change to the register s setting As there are different types of data held in setup registers there are different Modify Register dialog boxes The Modify Register dialog box may require that you choose an option from a list or enter a numeric value The details you need to perform basic configuration changes are provided in the following paragraphs Complete details of each ION module Setup register are provided in the ION Reference 7700 ION USER S GUIDE Basic Configuration The Basic Configuration area contains the Power Meter module This module is the main connection between the power system measurements and all other ION CT PT Valts Made modules in the device The Power Meter reports the values for all of the voltage Power Meter current and power measurements Right click near the center of the module s 4 4 icon to configure its setup registers The Power Meter module s setup registers describe details of the power system being monitored Many of the Power Meter module s setup registers are configured when the 7700
143. lection use the arrow keys to highlight the item you want then press ENTER Some procedures require that you enter a number or a word When the MGT wants input from you it displays a representation of the keypad on the screen The right side shows what will be The left side represents entered when the corresponding the actual buttons on the keypad button is pressed keypad MAKING CONFIGURATION CHANGES 3 19 A NOTE If you forget your password contact Power Measurement with your 7700 ION serial number 3 20 The left side of the button assignment screen represents the actual buttons on the MGT keypad The right side of the display indicates which characters each of the keypad buttons represent In the display above to enter the character G you would press 1 on the MGT keypad Press the right or left arrow buttons to scroll through all of the available keypad button assignments When the character you want to enter is displayed on the right press the corresponding keypad button on the left to enter that character The SHIFT key offers a shortcut for accessing characters on other keypad screens similar to the SHIFT key on a computer keyboard pressing SHIFT on the MGT changes the case of the characters After you have entered the characters you want press the ENTER button to send the command to the 7700 ION Passwords and Password Timeout All device configuration functions are password protecte
144. les that have been configured four Thermal Demand modules and four Sliding Window Demand modules The demand modules are configured to calculate the average current and kW and demand The setup registers in the demand modules define time intervals for demand calculations and set the sensitivity of the module s operation Setup Register module Function Sub Intvl Sliding Window The time in seconds in the sliding window demand sub interval Subintvis Sliding Window The number of sub intervals in the sliding window Pred Resp Sliding Window The speed of Predicted Demand calculations use higher values for faster prediction values between 70 and 99 are recommended Interval Thermal The time in seconds in the thermal demand interval Time Const Thermal The sensitivity to changes in the source signal higher values provide faster response time common values are 63 and 90 The Meter Clock Setup area contains the Clock module Right click near the center of the module s icon to configure its setup registers This module controls the 7700 ION s internal clock which provides timestamps for data logged by the device The clock needs to be configured properly to ensure that logged data has accurate timestamp information The Clock module also receives the time synchronization signals sent to it by PEGASYS workstations or GPS receivers and updates the device s clock when required
145. lts Phase B HDs e Harmonics Analyzer V2 Harmonics V2HD 1 Module 2 thru nd th 2 t015 V2 HD 63 Volts Phase B total HDs e e e V2 Total HD Volts Phase B total even HDs e V2 Tot EvenHD Volts Phase B total odd HDs e V2 Tot OddHD Volts Phase C HDs e Harmonics Analyzer V3 Harmonics V3 HD 1 Module 3 thru nd th 2 to 15 V3 HD 63 Volts Phase C total HDs e e e V3 Total HD Volts Phase C total even HDs e V3 Tot EvenHD Volts Phase C total odd HDs e V3 Tot OddHD Current Phase A HDs e e Harmonics Analyzer 11 Harmonics IT HD 1 Module 4 thru nd th 2 to 15 I1 HD 63 Current Phase A total HDs e e e 11 Total HD Current Phase total even HDs e I1 Tot EvenHD Current Phase A total odd HDs e Tot OddHD Current Phase A K Factor e e I1 K Factor Current Phase B HDs e e Harmonics Analyzer 12 Harmonics I2 HD 1 Module 5 thru nd th Z to 15 I2 HD 63 Current Phase B total HDs e e e 12 Total HD Current Phase B total even HDs e 12 Tot EvenHD Current Phase B total odd HDs e 12 Tot OddHD Current Phase B K Factor e e 12 Factor 2 32 7700 ION USER S GUIDE Real Time Measurements Continued Description of Displayed Accessible by Default ION Module ION Module Output Register Parameter or Function Vista PowerView MGT Name Label Label Current Phase C HDs e e Harmonics Analyzer I3 Harmonics I3 HD 1 Module 6 thru 2 to 15 I3 HD 63 Current Phase C total HDs e e e I3 Total HD Curren
146. m your 7700 ION Contact your PEGASYS Administrator or refer to the PEGASYS 2 0 Administrator s Guide before continuing with this User s Guide If you can run PEGASYS Vista and log on you can probably access data from your 7700 ION Try performing the following steps in Vista 1 Logon to Vista with Supervisor authority Level 5 2 Select Generate Network Diagram from the File menu 3 Inthe Network Diagram double click the Workstation icon corresponding to the computer that communicates with the 7700 ION A new diagram with all available IEDs appears 4 Double click the icon for the 7700 ION The Real Time diagram appears and live data should appear within moments You should now be able to move around through the various diagrams and view real time and logged data 2 3 Real Time Measurements The Real Time diagram includes a simple power system illustration that shows various real time parameters The diagram also includes links to a min max parameter display the meter s event log and various historical data logs A control object is provided for disabling enabling historic data Double click any of these buttons to jump to the corresponding diagrams Double click this button to return to the Network Diagram PML SCADA mwiicinnr T 70d This area represents your power system A B and C are Heal Tine the phases and N is neutral Voltage unbalance is shown Double click to see the meter s
147. map them into ION registers Refer to the DNP Slave Import module description in the ION Reference for details 4 27 Using Power Measurement s EtherGate Protocol The EtherGate protocol can be used on one or more of the XPRESS CARD s RS 485 ports in place of ION Modbus RTU or DNP 3 0 protocols The EtherGate protocol allows the 7700 ION to act as a gateway transferring data directly between Ethernet and RS 485 networks There are three ways EtherGate can be used to transfer data between networks Using the IP Address of the 7700 ION one of three IP Service Port numbers sockets can be used to direct the flow of data as follows Ifthe IP Service Port is set to 7800 Ethernet data is transferred to both XPRESS CARD 5 485 ports Ifthe IP Service Port is set to 7802 Ethernet data is transferred to the XPRESS CARD s COM 2 RS 485 port only Ifthe IP Service Port is set to 7803 Ethernet data is transferred to the XPRESS CARD s COM 3 RS 485 port only Communicating Through the 7700 ION In the basic EtherGate configuration your PEGASYS workstation connects to the XPRESS CARD s Ethernet port and an RS 485 loop of devices connects to the XPRESS CARD s COM2 or COMG RS 485 port or both if you have two RS 485 loops You then add a Gateway Site in PEGASYS Network Builder and add all of the devices on the RS 485 loop to this site In this configuration you communicate with the RS 485 loop through the 7700 ION the 7700 ION acts
148. mix inputs and outputs Analog Device Restrictions Power Supplies Power requirements and hardware restrictions limit the number and placement of analog devices on I O expansion boards The allowable number of analog devices the 7700 ION can support increases significantly when two external power supplies are used to power the expansion boards The default configuration of Expansion Board A does not include a power supply it has to be purchased separately If Expansion Board A is powered directly from the 7700 ION then a maximum of six analog devices can be installed on it A separate power supply is required for Expansion Board B in any configuration To use the maximum number of analog I O devices two power supplies must be used one for each expansion board Note that if a separate power supply is used with Expansion Board A then the jumper must be removed from the board Failure to remove the jumper will void the 7700 ION s warranty Refer to the 7700 ION Installation amp Basic Setup Instructions for jumper location Analog Device Restrictions Direction Input or Output The direction of all of the devices in slots 0 through 7 and slots 8 through 14 must be the same You cannot mix inputs and outputs within these two groups of slots however you can have all inputs in slots 0 through 7 and all outputs in slots 8 through 14 or vice versa As noted on the graphic above only slots 8 through 14 support analog input
149. mm x 102mm circuit board When the RMKEY is inserted into the 7700 ION RM Revenue Meter the key disables the meter security systems to facilitate programming prior to sealing see Configuring the 7700 ION RM below Utility meter shop personnel who wish to program the meter in house use this key Each utility purchases one RMKEY if desired users can purchase a spare key which can be used in any 7700 ION RM Revenue Meter Protected Quantities and Modules Protected Quantities Protected or Locked Modules kWh delivered received Power Meter Module delivered received delivered received kVARh delivered received Integrator Modules 1 to 16 inclusive delivered received delivered received i a DermandiMeddtege KYAhid liyered received Thermal Demand Module 1 to 3 inclusive kW demand predicted TD TD min s TD max SW SW SW Minimum Module 27 to 32 pum KVAR demand predicted TD TD min Maximum Module 27 to 32 inclusive TD max SW SW min SW max External Pulse Modules 1 3 4 7 9 19 demand predicted TD TD min External Boolean Modules 1 3 and 5 TD mox SW SW min SW max Arithmetic Module 1 Digital Output 1 kWh del pulse AND OR Modules 1 to 4 inclusive Digital Output 2 kWh rec pulse Periodic Timer 1 Digital Output 3 kVAh del pulse Pulser Modules 1 to 4 inclusive Digital Output
150. mum 413 aya agami Min kW total e e e Minimum 14 kW tot mn kW tot mn Min kVAR total e e e Minimum 15 kVAR tot mn kVAR tot mn DISPLAYING DATA 2 21 Min Max Framework Continued 2 22 Description of Displayed Accessible by Default ION Module ION Module Output Register 798 Parameter or Function Vista PowerView MGT Name Label Label e Min total e e Minimum 16 kVA tot mn kVA tot mn Min Phase A Current THD e e e Minimum 17 I1 THD mn 11 THD mn Min Phase B Current THD e e e Minimum 18 I2 THD mn 12 THD mn Min Phase C Current THD e e e Minimum 19 I3 THD mn I3 THD mn e Minimum 21 Freq mn Freq mn Min Power Factor Lead e Minimum 22 PF lead mn PF lead mn Min Power Factor Lag e e Minimum 23 PF lag mn PF lag mn Min Phase A Voltage THD e e e Minimum 24 V1 THD mn V1 THD mn Min Phase B Voltage THD e e e Minimum 25 V2 THD mn V2 THD mn Min Phase C Voltage THD e e e Minimum 26 V3 THD mn V3 THD mn Min kW SW Demand Minimum 27 kW swd mn kW swd mn Min kVAR SW Demand e e Minimum 28 kVAR swd mn kVAR swd mn Min Phase C Current THD e e Minimum 29 kVA td mn kVA td mn Min kW Thermal Demand Minimum 30 kW td mn kW td mn Min kVAR Therm Demand e e Minimum 31 kVAR td mn kVAR td mn Min kVA Thermal Demand e e Minimum 32 kVA td mn kVA td mn Min Max Enable e External Boolean 1 MnMx Enble MnMx Enble V
151. mum boundary of the Y axis of the trending graph If you want to keep the value that is currently in use press the button labeled KEEP PREVIOUS 3 Enter the maximum boundary value you expect the register to attain then press ENTER This value becomes the maximum boundary of the Y axis of the trending graph If you want to keep the value that is currently in use press the button labeled KEEP PREVIOUS 4 Enter the number of seconds you want to elapse between each point on the graph This determines the scale of the X axis of the graph For example if you specify 1 second between each point the X axis will span 150 seconds If you specify 2 seconds between each point the X axis will span 300 seconds If you want to keep the value that is currently in use press the button labeled KEEP PREVIOUS You do not need to specify a title for a parameter trending screen It is pre set to display the label of the selected register or the register name if no label has been defined The present value of the selected register is also displayed in numeric format at the top of the graph 4 45 4 46 Status Display Screens Status display screens are used for displaying Boolean register values The data is presented using small enough characters to include 3 7 or 14 different Boolean registers on one screen Data in status display screens are updated once per second regardless of the updated rate of the register on the connected device Large Sta
152. n Chapter 2 for the non revenue version of the 7700 ION Additional Revenue Metering Functions There are 20 additional modules incorporated into the frameworks of the 7700 ION revenue meters Some of these modules are used in the calculation and logging of both V h and Th used for transformer and line loss compensation The additional modules are as follows 7 Integrator modules 4AND OR modules 2 External Pulse modules 1 Arithmetic module 1 Data Recorder 4 Pulser modules 1 External Boolean module With the addition of these revenue based modules the overall processor power used by the device Diagnostic module s Prc Pwr Used output register is approximately 94 7700 ION USER S GUIDE Security Mechanisms To meet Government regulations and Utility security requirements the 7700 ION RM revenue meter incorporates three types of security systems a traditional anti tamper mechanical seal on the 7700 ION base module apassword based security system that permits password protected minimum maximum resets for example Sliding Window Demand reset ahardware based security system that uses the RMKEY programming key Traditional Anti Tamper Seals The top panel of the 7700 ION RM model has two tabs where you can apply a revenue seal When utilized these lead wire seals effectively prevent unauthorized personnel from gaining access to meter internals These seals are supplied by the meter own
153. n ION Designer check the value of the Prc Pwr Used register in Vista Refer to the ION Designer Online Help for instructions on adding objects to Vista diagrams A NOTE Before deleting a framework select it and choose Copy to Framework in ION Designer Give it a unique name and click OK to save it This way you can restore the framework without having to reinitialize the factory configuration 4 10 Deleting Factory Configured Functions If the additions you want to make exceed 100 processor power you must delete some existing functionality before you can implement your custom framework The simplest way to free processor resources is to delete the sections of the factory configuration that you are not using The frameworks in the factory configuration and the amount of processing power each uses is shown in the following table Framework or Function Processor Load percent Minimum Maximum 1 24 Historic Data Logging 5 05 Energy amp Demand Logging 2 77 7 44 for Revenue Meters Harmonics Logging 2 69 Power Quality Monitoring 43 61 Setpoints 0 35 Status Inputs 0 24 Modbus Configuration 3 12 7700 ION Base Operating Load 30 00 Total 89 07 93 74 for Revenue Meters The table above shows that most of the frameworks in the factory configuration have a relatively small impact on the overall processor load with the obvious exception of Power Quality Monitoring If yo
154. n register is factory set to 128 Cutoff 255 5 EvPriority Oto 127 0 EvPriority Oto 127 0 EvPriority Oto 127 0 Device Type read only N A 7700 ION Compliance read only N A ION Compliant Options read only N A options purchased Revision read only N A firmware revision number SerialNum read only N A unit serial number up to 255 characters 5 7 ION Module Summary Table Continued ION Module Name Factory continued Harmonics Analyzer Integrator dx LonWorks Export Lon LonWorks Import Lon lt x Maximum E Minimum xij Total Available in 7700 30 90 60 60 Used in Factory Config none none 56 47 denotes Core module refer to Chapter 4 5 8 High Speed Capable N A none none none none 60 60 Setup Registers Tag 1 Range or Options up to 255 characters Creation Default empty Tag 2 up to 255 characters empty Nom Freq read only N A factory set frequency Calibration Values 39 additional read only registers hold factory calibration values no setup registers no setup registers no setup registers Divisor 0 to 1 x 10 seconds 3600 Int Mode FORWARD REVERSE FORWARD ABSOLUTE or NET Valu Pulse 0 to 1 x 10 0 RollValue 0 to 1x 10 no rollover SNVT refer to ION Reference SNVT not used
155. nal Over demand monitoring enable e e External Boolean 7 Over kW Enble Over kW Enble Over current monitoring enable e e External Boolean 8 Over Amp Enble Over Amp Enble Over voltage unbalance e e External Boolean 9 Over Vunb Enble Over Vunb Enble monitoring enable 2 28 7700 ION USER S GUIDE Digital Inputs Framework This portion of the meter s configuration monitors the status of the 7700 ION s eight on board digital inputs and counts the number of times each input changes state DISPLAYING DATA Description of Displayed Accessible by Default ION Module ION Module Output Register Parameter or Function Vista PowerView MGT Name Label Label Status of Digital Input 1 e e Digital Input 1 Digital In 1 S1 Status of Digital Input 2 e e e Digital Input 2 Digital In 2 52 Status of Digital Input 3 e e e Digital Input 3 Digital In 3 S3 Status of Digital Input 4 e e e Digital Input 4 Digital In 4 S4 Status of Digital Input 5 e e e Digital Input 5 Digital In 5 S5 Status of Digital Input 6 e e e Digital Input 6 Digital In 6 S6 Status of Digital Input 7 e e e Digital Input 7 Digital In 7 S7 Status of Digital Input 8 e e e Digital Input 8 Digital In 8 S8 Digital Input 1 status changes e e Counter 1 S1 Counter S1 Counter Digital Input 2 status changes e e Counter 2 2 Counter 52 Counter Digital Input 3 status changes e e Counter 3 S3
156. nd down 0 when logging is disabled Power Quality Data The Power Quality diagram shows voltage disturbance and harmonics details The voltage disturbance display counts sag swell and transient events and provides links to a sequence of events log and a CBEMA plot The diagram includes a trigger for manual waveform recording and control objects for enabling disabling power quality event recording The harmonics measurement display shows total harmonic distortion for each phase of voltage and current Links to harmonics min max and harmonics trending displays are provided and a control object is included for enabling disabling harmonics logging PML SCADA iD tuman Check here to see how many sag swell and transient events have occurred since power up or the last reset Power Casey vgiage n Uu nes T wu sj Uses 4 o A EN Double click these objects to E Double click this object to see disturbance details in a LHikakinin Dalai view harmonics min max CBEMA plot or sequence of iil data Min max reset is events log amp available here Hareris Tawang d Double click this object to manually record a waveform maa i aj Double click this object to view the harmonics data log Behr pe Tit Double click these objects to enable or disable power quality
157. nstructions on changing module links 7700 ION USER S GUIDE Configuring the 7700 ION with ION Designer ION Designer software part of Power Measurement s PEGASYS suite provides the most powerful interface to the 7700 ION s operating software of the device s ION modules can be accessed and configured using a standard technique and a unified interface The Main 7700 ION Configuration Screen ION modules appear on the ION Designer screen grouped by the functions they perform Right click a module to access its Setup registers MAKING CONFIGURATION CHANGES If PEGASYS 2 0 has been properly configured the screen below will appear in each time that you open a 7700 ION in ION Designer If PEGASYS has not yet been configured refer to the PEGASYS Administrator s Guide or contact your PEGASYS network administrator ION Designer displays a folder icon to indicate additional modules are available Double click folders Za Db aem Cds Ham to open them and display the ee rena p x aa additional modules T700 Configuration TU LANG NU Derep ged PU A Hara Basi Conhgoreanan Carmercaticn Sate Cereal Eaton Meter Clock on tine Balas Pe mare we eree Power Cuni Daka Logging Satus Bsitgo re prs uir ELIT T s Raum um Trd Party Proiscoi Pactory informaticn j COMA Bux 1 asm her Using ION Designer to Change Setu
158. o value stored If the inputs of a module are Not Available its output registers are also Not Available The Not Available value propagates through all linked modules The Not Available value propagates through linked Arithmetic modules differently refer to the ION Arithmetic module description in the ION Reference Core Modules and Fixed Module Links A NOTE The 7700 ION includes several core modules Core modules are integral to the sk ae ee basic operation of the device they cannot be created or deleted Core modules in outline e da the 7700 ION version 7700V200 include the Clock Communications Data module Acquisition Diagnostics DNP Slave Options Factory FFT Harmonics Power Meter and Symmetrical Components Several of the linkages between core modules are fixed they are required for the basic operation of the device A fixed link cannot be removed A core module with fixed links can still be linked to other modules if desired ION Register Details Not all output registers can serve as input registers for all modules There are different classes of registers and each is capable of holding different types of information To combine two ION modules together the output registers of the first module must contain the kind of information that the next module can use To see if you can link ION modules check the class of the module s inputs and output registers to ensure they are the same The following list descri
159. ocks of multiple networked Power Measurement devices When your devices clocks are synchronized all data logs will have timestamps that are relative to a uniform time base This allows you to perform accurate sequence of events and power quality analyses Time synchronization is achieved by broadcasting the time across the network of IEDs When the source of the time broadcast PEGASYS or a GPS receiver initially connects to the devices the time signal is interpreted as the absolute time and the devices clocks are reset During normal operation time signals are sent out periodically and each 7700 ION will continually assess its ability to remain synchronized with the incoming broadcasts Over a brief period of time the 7700 ION learns how its internal timing differs from that of the broadcast source and adjusts its timekeeping to compensate Very accurate time synchronization can be achieved with this method Devices that are not continuously connected to the time source i e modem sites will be synchronized each time they are connected The longer the duration between connections the larger the error in time synchronization can be In the extreme case this can result in missing or duplicated logs If this occurs GPS receivers can be installed at the remote sites a direct PEGASYS connection can be implemented or the time between connections can be reduced As a remote device s clock is reset upon connection if its clock is out of synchron
160. on this software provides the most comprehensive view of the 7700 ION s internal operation Once you have become comfortable with the ION Designer interface you will be better prepared to make major changes later 7700 ION USER S GUIDE Basics of the ION Architecture Before you begin altering the 7700 ION s operation it is advisable to familiarize yourself with the basics of how the device operates Understanding the basics of the ION architecture will help you understand how to make different types of configuration changes The 7700 ION and all other ION devices including some PEGASYS software nodes such as the VIP and the Log Server use the Integrated Object Network or ION as their operating software ION applies the principles of object oriented software design to the creation of functionality inside your Power Measurement devices The object oriented structure of ION allows you to connect different discrete objects called ION modules in different ways to define how information is accessed transferred and manipulated inside the device and across the power monitoring network Each ION device contains a number of ION modules that perform specific functions The ION modules are linked together to create frameworks defining multiple operations and logical pathways for power system information The basic structure of an ION module is the same for each module type making it easy to use new features once the basics are understood
161. oose the register and click Select 3 Drag the cursor towards the module you want to link to the cursor will change and a dotted line will follow it across the node diagram This indicates you are in the process of creating a link The dotted line also shows where the connecting line will appear in the node diagram once the link is made If you link to a module that is in a different window than the original module either in a different node diagram or grouping window the dotted line will disappear but the cursor will still indicate that a link is in progress Minimum 02 AN CAUTION Viewing owners right clicking a module s output register will only show you module linkages on the same node Any links to modules on different nodes will not be shown If links to modules on other nodes may exist always check the links at a module s inputs 4 14 4 Click on the symbol on the left side of the module icon to display the module s inputs In most cases a pop up menu will appear listing the module s inputs If there are a large number of inputs a dialog box similar to the More Output Registers dialog will appear instead Inputs that are of a different class than the selected output register are grayed out to indicate that you cannot select them If the input is already linked the label of the register it is linked to is displayed beside the input If you select the input the existing link will be over
162. operating temperature the amount of battery life left in the 7700 ION and the configured demand settings Nameplate Info 3 Nameplate Info 3 displays the three lines of text that are written into the 7700 ION s Factory module You can customize the text displayed by configuring the Factory module s Owner Tag1 and Tag2 setup registers in ION Designer Nameplate Info 3 also shows the firmware revisions of the 7700 ION the MGT and the XPRESS CARD if one exists as well as the optional auxiliary I O board s voltage level and the total amount of memory in the 7700 ION Date Time Display The MGT can be set to display the date time and timezone To display the data and time press SETUP then press DATE TIME DISPLAY You can exit the date time screen at any time by holding the ESC button down for two seconds 7700 ION USER S GUIDE Complete List of Factory Configured Measurements and Functions A NOTE The ION modules and output registers used for each function are listed in this section to assist more advanced users Typical users can ignore the three right hand columns in the tables below The standard PEGASYS Vista diagrams the PowerView Data Screens and the MGT display screens show much of the data that the factory configured 7700 ION measures and calculates There is additional data however that is available from the factory configured meter but not presented by default in any of these display tools This section lists all
163. or Com 3 Total Available in 7700 Used in Factory Config none denotes Core module refer to Chapter 4 TECHNICAL REFERENCE High Speed Capable Setup Registers Range or Options Creation Default BasePoint 0 to 60 0 StaticObj Binary Input Binary Binary Input Counter or Analog Input EventObj Enable or Disable Event Disable Event Objects Objects Deadband 0 to 4 3 x 10 0 FrozStaObj Enable or Disable Frozen Disable Frozen Static Static Objects Object FrozEvtObj Enable or Disable Frozen Disable Frozen Event Event Objects Object EventClass Class 1 2 or 3 Class 1 Scaling ON or OFF OFF IONZero 1 x 10 8 to 1 x 1038 0 IONFull 1 x 1098 to 1 x 1038 0 DNPZero 1 x 1038 to 1 x 1038 0 DNPFull 1 x 1098 to 1 x 1038 0 BinlnStatic Single Bit Binary Input or Single Bit Binary Input Binary input with status BinInEvents Binary Input Change Binary Input Change Without Time Without Time Binary Input Change With Time Fixed at 100 100 BinlnEvDepth BinCntStatic FrzCntStatic 32 Bit Binary Counter 32 Bit Binary Counter Without Flag 16 Bit Binary Counter 16 Bit Binary Counter Without Flag 32 Bit Frozen Counter 32 Bit Frozen Counter Without Flag 32 Bit Frozen Counter With Time of Freeze 16 Bit Frozen Counter 16 Bit Frozen Counter Without Flag 16 Bit Frozen Counter With Time of Freeze 16 Bit Binary Counter Without Flag
164. ority Number Reset Module reset or resynchronized 5 Setup Change Module setup changes setup register changes label 10 changes input handle changes Input Register Inputs of certain modules change valvue i e input to 15 Change And Or module changes I O State Change state changes i e relay closes 20 Information Module produces important user information 25 Warning Module produces a warning 30 Failure A failure has occurred 255 Setpoint Setpoint condition goes Active or Inactive i e Sag Swell programmable module detects a disturbance via module setup The Event Log Controller module allows you to set a priority cutoff for event logging Any events with a priority number greater than the cutoff value are logged and events with lower priorities are discarded Refer to the individual module descriptions and the Event Log Controller module description in Chapter 5 for more details 7700 ION USER S GUIDE External ION events Some events are not produced by a specific module they are generated internally by the 7700 ION These events and their associated priority levels are shown in the table below Event Group Description Priority Number Warning Factory initialize performed 30 Firmware upgrade performed Memory upgrade performed Device power up Device power down Failure Communications fail to allocate required memory 255 Dismantling the Factory Configuration A NOTE
165. otocol ION MODBUS DNP 3 0 ION 5 3 ION Module Summary Table Continued ION Module Name Counter Data Recorder Diagnostics kc Digital Input pz Digital Output DNP DNP Slave Export Total Available in 7700 30 20 up to 38 30 Used in Factory Config 11 none 14 denotes Core module refer to Chapter 4 High Speed Capable none 20 N A 38 30 Setup Registers Range or Options Creation Default no setup registers Input Mode STOP WHEN FULL Multiplier 1x 10 to 1 x 10 1 Count Mode UP or DOWN UP Preset 1 x 10 to 1 x 10 0 RollValue 1 x 10 to 1 x 10 0 no setup registers Depth 0102x 10 0 Record Mode CIRCULAR or CIRCULAR Binary Output PULSE KYZ PULSE EvLog Mode LOG ON or LOG OFF LOG OFF Polarity INVERTING or INVERTING NON INVERTING Debounce 0 to 65 525 seconds 0 Port depends on I O options NOT USED EvLog Mode LOG ON or LOG OFF LOG OFF Polarity INVERTING or INVERTING NON INVERTING Debounce 0 to 65 525 seconds 0 Port depends on I O options NOT USED DNPPoint 15 0 DNPObjGrp Analog Output or Binary Output 7700 ION USER S GUIDE ION Module Summary Table Continued ION Module Name DNP Slave Import DNP P S Note DNP is only available on Com 2 or Com 3 DNP Slave Options Note DNP is only available on Com 2
166. our password Use the keypad to enter the new value or use the arrow buttons to select the desired option from the list Press ENTER to send the new setup register value to the 7700 ION Press ESC if you want to leave the screen without making any changes Refer to the ION Reference for complete details on each setup register s function Refer to Chapter 5 in this guide for a listing of the supported ranges or options for each module in the 7700 ION 7700 ION USER S GUIDE Using Advanced Features The 7700 ION provides many advanced features including comprehensive I O advanced interoperability support and precision time synchronization In addition the 7700 ION s functionality can be customized to perform virtually any power monitoring and control functions Using advanced features often requires considerable background knowledge please be prepared to spend some time familiarizing yourself with the information in this chapter and the Technical Reference in Chapter 5 This chapter discusses the creation of custom functionality the use of I O and advanced communications protocols and the creation of custom MGT displays In this Chapter Customizing the 7700 ION s 4 2 ION Details teneo En IUe he HERES 4 3 Timing Considerations in the 7700 ION sse een 4 6 ION Event Priority Groups soenan anan an anane nana nana anane nan
167. p Registers You require PEGASYS password level 5 to modify the settings in a module s Setup register If you do not have sufficient password authority contact your PEGASYS administrator Once you have logged on to ION Designer and you have opened the 7700 ION s node diagram you can begin configuring ION modules ION Designer displays two types of objects on the main configuration screen ION modules and grouping objects also called folders 3 5 registers appears double click register name The list of available Setup Select a Setup register then dick the Modify button or h re PM1 CT Prim 140 PM1 CT Sec 5 1 14 Prim Setup PM1 14 CT Sec 5 PM1 V1Polarity Normal PM1 V2Polarity Normal PM1 V3Polarity Normal Grouping Windows Folders The main 7700 ION configuration screen displays a number of folders A folder in ION Designer indicates that additional modules are available Double click on a folder to access the modules that are contained inside it In some cases a folder will contain additional folders continue double clicking on the folders until you reach the ION module you want to configure Accessing ION Module Setup Registers Once you have penetrated the folders to display the ION module you want to configure right click near the center of the module s icon The ION Module Setup dialog box appears showing a list of setup registers available for configuration ION Modu
168. r Various GPS receivers are supported by the 7700 ION 4 33 4 34 WORKSTATION1 Sitel Properties x General Advanced Name Transmit Delay Serial Port Baud rate Time Synchronization v Enabled for 3 x devices Interval 600 seconds Time Synchronization using PEGASYS PEGASYS provides time synchronization by default The communications port and protocol used for communications between PEGASYS and the networked devices is automatically used to send time synchronization signals to all connected Power Measurement devices Time synchronization values are set for Power Measurement 3000 series 7000 series and 3720 ACM power meters when Sites are defined in PEGASYS network The Site Properties screen in Network Builder lets you disable time synchronization or set custom intervals for any device type at any Site WORKSTATIONT Sitel 100 milliseconds Startup Connected 2 RisCts 57600 Use this section of the Site Properties screen to disable time synchronization or set v Enabled for devices Interval 3600 seconds custom intervals Enabled for 3720 devices Interval 3600 seconds Use Defaults Help The default time synchronization interval of 3600 seconds is acceptable for most PEGASYS installations 7700 ION USER S GUIDE Time Synchronization using a GPS Receiver Use GPS receivers at each Site if you require t
169. r IEDs connected to the Ethernet network The Ethernet Site in PEGASYS includes the 7700 ION and all other IEDs on the Ethernet LAN Ethernet USING ADVANCED FEATURES J m RS 485 loop J PEGASYS workstation PEGASYS Ethernet Site LJ 77001ON with XPRESS CARD 4 29 The Ethernet Site is added under the PEGASYS workstation that resides on the Ethernet network The tree view in Network Builder with both the Gateway Site and the Ethernet Site configured looks like this 15 netconfig dat PEGASYS Network Builder File View ltem Help e r System The Gateway Site Choose Ef WORKSTATIONT 7800 7802 or 7803 as B Software Nodes H WORKSTATION1 RS485 loop WORKSTATIONT Feeder WORKSTATION1 Feeder B wWORKSTATIONT Feeder C The Ex WwORKSTATIONT Ethernet Site Sij wORKSTATIONT Main The 7700 ION set IP Service Port to 7700 the IP Service Port D E Ready You must enter an IP Address and an IP Service Port number socket when you add the 7700 ION to an Ethernet Site in Network Builder The IP Service Port must always be 7700 for a 7700 ION in an Ethernet Site Specifying the Protocol and the IP Port Number Each XPRESS CARD 5 485 port that you use as an Ethernet gateway must be configured to use the EtherGate protocol The Ethernet network and the RS 485 loops on either side of the gateway may use ION or Modbus but the RS 48
170. r a complete list of the Historic Data parameters that are logged Harmonics Logging The Periodic Timer module labeled Harm Log Trig controls the frequency of Harmonics logging Change the value in the Period setup register to change the frequency of the logging Period values are specified in seconds Do not change the Sync Mode setup register Refer to Harmonics Logging Framework near the end of Chapter 2 for a complete list of the Harmonics parameters that are logged Energy amp Demand Logging The Periodic Timer module labeled EgyDmd Log Trig controls the frequency of Energy and Demand logging Change the value in the Period setup register to change the frequency of the logging Period values are specified in seconds Do not change the Sync Mode setup register Refer to Energy amp Demand Framework near the end of Chapter 2 for a complete list of the Energy and Demand parameters that are logged Changing the Parameters that are Logged The 7700 ION s factory configuration logs a comprehensive set of energy power and harmonics parameters You cannot change which parameters are logged by configuring a setup register Adding or deleting a log s parameters is an advanced procedure as it requires changes to the links between modules Chapter 4 of this guide discusses adding and deleting links between modules If you want to make changes to the preconfigured logging familiarize yourself with the procedures described in C
171. r or Function Vista PowerView MGT Name Label Label Max Phase A L N Volts e e e Maximum 1 VIn a mx Vin a mx Max Phase B L N Volts e e e Maximum 2 VIn b mx Vin b mx Max Phase C L N Volts e e e Maximum 3 Vln c mx Vln c mx Max Average L N Volts e e Maximum 4 Vin avg mx VIn avg mx Max L L Volts AB e e e Maximum 5 ab mx VII ab mx Max L L Volts BC e e e Maximum 6 bc mx VII bc mx Max L L Volts CA e e e Maximum 7 VII ca mx VII ca mx Max Average L L Volts e e Maximum 8 avg mx avg mx Max Voltage Unbalance e e e Maximum 9 V unbal mx V unbal mx Max Phase A Current e e e Maximum 10 la mx mx Max Phase B Current e e e Maximum 11 b mx b mx Max Phase Current e e e Maximum 12 c mx c mx Average Current e e Maximum 13 eg ma avg mx Max kW total e e e Maximum 14 kW tot mx kW tot mx Max kVAR total e e e Maximum 15 kVAR tot mx kVAR tot mx 2 20 7700 ION USER S GUIDE Min Max Framework Continued Description of Displayed Accessible by Default ION Module ION Module Output Register Parameter or Function Vista PowerView MGT Name Label Label Max kVA total e e Maximum 16 tot mx kVA tot mx Max Phase A Current THD e e e Maximum 17 I1 THD mx 11 THD mx Max Phase B Current THD e e e Maximum 18 I2 THD mx I2 THD mx Max Phase C Current THD e e e Maximum 19 I3 THD
172. re displayed in kilo units rather than base units since kilo is the most frequently used measurement kW kVA kVAR When viewing these parameters with the MGT remember that the values already multiplied by 1000 For example the reading below indicates 120 000 kilowatts not 120 000 watts KW total 120K0 INVLD and N A Messages If the MGT is unable to read a numeric or status value from the 7700 ION it will display either INVLD or N A in place of the value INVLD indicates that the value received cannot be displayed because it is either too large or too small it is below 1m000 or above 9G999 N A appears if the register is not available 2 14 7700 ION USER S GUIDE Bar Graph Displays Three display screens are provided for phase voltage and current High speed line to neutral and average voltage 100 ms update rate High speed phase and average current 100 ms update rate Line to neutral voltage and phase current 1 second update with minimum and maximum indicators A NOTE The two high speed displays use a four channel bar graph that shows the low limit the parameter name i e VIn a meaning line to neutral voltage on phase Egeh ot the MET display A and the upper limit above the bar for each measurement The high speed screens can be adjusted to match your power system voltage display called VOLTAGE HS BAR GRAPH has fixed limits of 0 to 400 volts
173. reating Custom Functionality in Chapter 4 Once you are comfortable editing module links change logged parameters by linking the output registers you want logged to the inputs of an ION Data Recorder module Setpoint Setup Setpoint Setup The Setpoint Setup area contains a single folder called Over Setpoint Time Delays Double click this folder to view the five Relative Setpoint modules that monitor phase current KW demand and voltage unbalance for over conditions REGE The Relative Setpoint modules have the following setup registers Over Setpoint time delays Setup Register Function Eval Mode Determines how the Pickup and Dropoff setup register are interpreted Over Pickup The limit that a source input must exceed for an over condition to start Over Dropoff The limit that a source input must fall below for an over condition to end Under Pickup The limit that a source input must fall below for an under condition to start Under Dropoff The limit that a source input must exceed for an under condition to end SusUntlION Amount of time an input must be out of range for an over condition to start SusUntlOFF Amount of time an input must be back in range for an over condition to end EvPriority The priority assigned to a Relative Setpoint event 0 to 255 255 is highest There is no need to change any of the Relative Setpoint module s setup registers for normal operation of the 7700 ION If
174. s Slave 3 Source Input 5 40067 40068 Maximum Line Frequency Freq max Maximum Modbus Slave 3 Source Input 6 40069 40070 Minimum Avg L L Voltage Vil avg min Minimum Modbus Slave 3 Source Input 7 40071 40072 Minimum Average Current avg min Minimum Modbus Slave 3 Source Input 8 40073 40074 Minimum Line Frequency Freq min Minimum Modbus Slave 3 Source Input 9 40075 40076 kW Sliding Window Demand kW swd Sliding Win Demand Modbus Slave 3 Source Input 10 40077 40078 kVA Sliding Window Demand kVA swd Sliding Win Demand Modbus Slave 3 Source Input 11 40079 40080 kVAR Sliding Window Demand kVAR swd Sliding Win Demand Modbus Slave 3 Source Input 12 40081 40082 Maximum kW SW Demand kW swd max Maximum Modbus Slave 3 Source Input 13 40083 40084 Maximum kVA SW Demand kVA swd max Maximum Modbus Slave 3 Source Input 14 40085 40086 Maximum kVAR SW Demand kVAR td max Maximum Modbus Slave 3 Source Input 15 40087 40088 Modbus Slave Module 4 Links USING ADVANCED FEATURES 4 23 4 24 Measurement Label Source ION Module Modbus Module and Input Number Modbus Register Imported kWh kWh imp Integrator Modbus Slave 4 Source Input 1 40089 40090 Exported kWh kWh exp Integrator Modbus Slave 4 Source Input 2 40091 40092 Total kWh kWh tot Integrator Modbus Slave 4 Source Input 3 40093 40094 Net kWh kWh net Integrator Modbus Slave 4 Source
175. s adjacent to the MGT s screen and specify the display format and parameters to show on the screen As the MGT s buttons are factory configured an existing display is sacrificed when a custom display is created The MGT displays data in 11 different formats standard character screens large character screens four and six channel bar graphs harmonics screens trending screens integrator screens and three types of status screens This section details the 11 different MGT display formats and shows how each is set up to display specific parameters Overview of MGT Button Configuration A NOTE If the button you want to configure resides on a different screen use the buttons labeled NEXT and PREVIOUS to scroll back and forth between the screens of configurable buttons Press the ESC button to return to the main menu Use the arrow buttons to move up and down between the different screen selections USING ADVANCED FEATURES To create a custom display one of the user configurable buttons is reconfigured All the user configurable MGT buttons are set up as follows 1 Press the SETUP button on the main menu then press the button labeled CONFIGURE BUTTONS 2 Using the keypad enter your password 3 Press the button that you want to configure 4 You will be prompted to enter the first line of the new button label you want to define Use the keypad to enter the first line of your new button label then press ENTER The f
176. sconnect all other wiring or power off all other circuits which may present potentially hazardous voltage levels to the unit such as connections to the relay outputs Ensure that all cables still connected to the 7700 ION RM are NOT live Configuration Procedure Before configuring the 7700 ION RM ensure that adequate safety precautions have been exercised see above 7700 ION REVENUE METERS The components inside the 7700 ION RM are extremely sensitive to electro static discharge To prevent damage to the unit wear an anti static wrist strap at all times when working inside the unit Failure to use proper equipment during servicing will void the 7700 ION RM warranty 1 Remove the anti tamper wire seals and four chassis screws on the top panel and set the top panel aside If an Analog Input Card AUX card is presently installed carefully remove it and set aside on a static protected surface 2 Hold the RMKEY by the sides and insert it into the VAUX slot as shown in the following diagram A 5 A 6 Insert the RMKEY here to disable the hardware security mE o 3 If your 7700 ION is equipped with an XPRESS CARD you must re insert the card i e place the lid back on or you will lose configuration data 4 Power Up the 7700 ION and configure the meter as required Service type PT and CT ratios Pulse outputs etc Remove control power from the 7700 ION RM Remove the RMKEY and replace the top panel and
177. screws Re apply the anti tamper seals CT amp PT Selection Consult your local Revenue Metering authorities to obtain standards for CT and PT selection for revenue metering applications 7700 ION USER S GUIDE Checklist for Factory Sealed 7700 ION RMICAN COMPANY CONTACT NAME STREET PHONE CITY FAX PROVINCE P O NUMBER POSTAL CODE INDUSTRY CANADA REGISTRATION The following information MUST be supplied at time of order Service Type select one C 2 Element 3 Wire DELTA Volts Mode DELTA 2 w Element 4 Wire WYE Volts Mode 3W WYE 3 Element 4 Wire WYE Volts Mode 4W WYE Pie Voltage Transformer Ratio Primary Secondary Rating ex 12000 120 Current Transformer Ratio Primary Secondary Rating ex 5000 5 I4 Transformer Ratio Default CT ratio Voltage Input Rating select one L Current Input Rating Frequency 85 240 VAC 110 300 VDC 20 60 VDC Auxiliary Power Input kvAR DEMAND DEMAND THERMAL DEMAND SLIDING WINDOW DEMAND MINUTES Length of Period TIMES LL NUMBER of Sub Periods UPDATE SYNC to Internal Clock kw DEMAND Demand Parameter select multiple Demand Method select one Demand Period select both Demand Synchronization Method Mounting Type Panel Mount OuputA0 kWh PULSE L Specify Del Rec Del Rec Output A1 kVARh PULSE L Specify Del
178. splay the number of events that have occurred an additional trigger provided to reset these counters Description of Displayed Accessible by Default ION Module ION Module Output Register Parameter or Function Vista PowerView MGT Name Label Label Sag or Swell Duration e e Sag Swell 1 Sag Swell 1 551 DistDur Phase A min Voltage e e 551 DistV1Min Phase A max Voltage e e 551 DistV1Max Phase A average Voltage e 551 DistV1Avg Phase A Energy variance e 551 DistV1Engy Phase B min Voltage e e SS1 DistV2Min Phase B max Voltage e e SS1 DistV2Max Phase B average Voltage e SS1 DistV2Avg Phase B Energy variance e SS1 DistV2Engy Phase C min Voltage e e SS1 DistV3Min Phase C max Voltage e e 551 DistV3Max Phase C average Voltage e SS1 DistV3Avg Phase C Energy variance e SS1 DistV3Engy Nominal Voltage at the beginning 551 DistNominal of Sag or Swell disturbance Voltage level considered a Swell e SS1 Swell Lim Voltage level considered a Sag e 551 Sag Lim Phase A Transient duration e e Transient 1 Transient 1 TRI TranV1Dur Phase A Max Peak Transient e e TRI TranV I Phase B Transient duration e e TRI TranV2Dur Phase B Max Peak Transient e e TRI TranV2Mox Phase C Transient duration e e TRI TranV3Dur Phase C Max Peak Transient e e TRI TranV3Max Nominal Voltage at the beginning e TRI TranNominal of Transient disturbance Voltage fluctua
179. ssified by the type of data they accept When you want to change a module s configuration you must supply the type of data that is appropriate for the register you are configuring All of the configuration tools discussed in this chapter prevent you from entering the wrong type of data into a register but they do not prevent you from entering the wrong value As any changes to a register s value alters the operation of the device exercise caution when making configuration changes Making ION Configuration Changes Regardless of the interface you use when you make configuration changes to an ION device you are either changing a value in a module s setup register or you are changing the linkage between two or more modules The types of configuration changes discussed in this chapter are changes to the settings held in ION module Setup registers The 7700 ION is factory configured for optimal operation Aside from basic setup you do not need to make any modifications to the device s configuration for normal use Changing the settings in an ION module s setup registers changes the way the device operates Carefully consider any change you intend to make before proceeding Refer to the ION Reference for details on each ION module Adding or deleting links between ION modules significantly alters the operation of the device and should only be performed by experienced personnel Refer to Creating Custom Functionality in Chapter 4 for i
180. stics and Event Logging The 7700 ION s Diagnostics module includes five output registers that provide time synchronization diagnostics Refer to the 7700 ION Diagnostics module description in the ION Reference for details Events are logged by the 7700 ION s Clock module Communications modules and Diagnostics module in response to time synchronization events The following events will appear in the PEGASYS Event Log Time sync acquired generated when the first time sync signal is received Diagnostics module s Time Sync Status register goes ON Time sync lost generated if no time sync signals are received in two times the average interval of the last five signals Diagnostics module s Time Sync Status register goes OFF GPS locked generated when the GPS receiver locks onto a time source Diagnostics module s GPS Status register goes ON GPS unlocked generated when the GPS receiver loses its lock on a time source Diagnostics module s GPS Status register goes OFF Time set generated when a time synchronization signal is interpreted as time set and the device s clock is reset Two events are recorded one with the timestamp before the clock was set and one with the timestamp after the clock was set 4 36 7700 ION USER S GUIDE Creating Custom MGT Displays Custom MCT displays can be created showing any data the 7700 ION measures or calculates To create a custom display configure one of the button
181. supports the DNP 3 0 protocol on either RS 485 port only one port can be configured to use DNP 3 0 at any one time New protocols and functions provide high accuracy time synchronization using GPS receivers PEGASYS time synchronization is also improved The XPRESS CARD supports two independent EtherGate gateways Support is added for various types of thermocouple inputs The new Alert module provides automatic dial out to PEGASYS and paging systems in response to user specified conditions 7700 ION USER S GUIDE New ION Modules New ION modules are included that provide more options to the advanced user DNP Import Export and Options modules for DNP 3 0 communications Relative Setpoint modules for monitoring a variable source input Convert modules for converting different types of data Feedback modules for creating circular linkages in ION frameworks The 7700 ION in a Power Monitoring System Applications that include the 7700 ION or any other IED typically require additional equipment Display and analysis software tools are almost always used to manage interpret and distribute the data measured or logged by an IED Usually there are a variety of tools used and often these tools are connected using different communications standards and protocols In many cases an IED must also provide control capabilities and device level data sharing The 7700 ION can adapt to almost any situation Advanced communica
182. system voltage used for all Power Quality functions EvPriority The priority assigned to Sag Swell module events 0 to 255 255 is highest The only setup registers you may need to change are the Swell Lim and Sag Lim Most applications will be served by the default values entered into these registers but if you want to fine tune Sag Swell detection try adjusting the Swell Lim and Sag Lim Values The Change Crit and EvPriority registers do not need to be changed for normal operation Nom Volts must be set to enable Power Quality functions 7700 ION USER S GUIDE Data Logging Setup Data Logging Setup Historic Data Hist Log Trg Co AR NN Harmonics Harm Log Trg a 4 Energy and Demand Revnue Log Trg AR MAKING CONFIGURATION CHANGES The Data Logging Setup area contains three Periodic Timer modules one for Historic Data logging one for Harmonics logging and one for Energy and Demand logging These modules trigger logging on intervals specified in their setup registers Right click near the center of a module s icon to configure its setup registers Historic Data Logging The Periodic Timer module labeled Hist Log Trig controls the frequency of Historic Data logging Change the value in the Period setup register to change the frequency of the logging Period values are specified in seconds Do not change the Sync Mode setup register Refer to Historic Data Logging Framework near the end of Chapter 2 fo
183. t 5 17 digital input 5 17 digital input dry contact 5 18 digital output 5 19 RTD input 5 18 thermocouple input 5 18 N N A messages MGT 2 14 nameplate info MGT 2 17 names ION registers 4 6 not available value 4 4 O operators typical 1 5 ordering information 5 22 output registers 4 13 outputs ION Module 3 3 over current monitoring 2 8 over kW sliding window demand 2 8 owners output registers 4 14 P parameter handles MGT 4 38 parameter trending MGT 4 45 passwords and timeout MGT 3 20 per phase over current monitoring 2 8 ports specifying 4 19 Power Meter module 3 7 power quality data 2 5 disturbance counter reset 2 6 disturbance details 2 6 harmonic measurements 2 6 harmonics trending 2 6 min max long term 2 6 power quality features new 1 2 power quality framework 2 26 power quality setup 3 10 sag swell module settings 3 10 transient module settings 3 10 PowerView 2 11 3 15 advanced setup mode 3 16 basic ION setup mode 3 16 data filter 2 12 data screens mode 2 12 selecting version 2 0 displays 2 12 Setup Screens mode 3 15 summary of data provided 2 11 using the interface 3 15 priority groups event 4 8 processor power level checking 4 9 product return procedure 5 26 protocols communications 3 8 PT CT setup MGT 3 21 Q Quick Setup MGT 3 21 R real time measurements 2 4 core modules framework 2 30 4 4 historic data lo
184. t Phase C total even HDs e I3 Tot EvenHD Current Phase C total odd HDs e I3 Tot OddHD Current Phase C K Factor e e I3 K Factor Current 4 HDs Harmonics Analyzer 14 Harmonics I4 HD 1 Module 7 thru 2 to 15 14 HD 63 Current 4 total HDs e e I4 Total HD Current 4 total even HDs e I4 Tot EvenHD Current 4 total odd HDs e 14 Tot OddHD Current 4 K Factor e e I4 K Factor Universal Time UTC Clock Module Clock UnivTime Local Time e LocalTime Daylight Savings Time ON OFF DSTFlag DISPLAYING DATA 2 33 Making Configuration Changes Once basic setup is performed most users will find that the 7700 ION s factory configuration provides all of the monitoring logging and control functionality they require Depending on your application you may need to make minor changes to the factory configuration to make the device fit your power system This chapter explains how to make small changes to the factory configuration using PEGASYS software PowerView software and the MGT The 7700 ION can be customized to perform virtually any power monitoring and control functions Creating custom functionality involves dismantling the factory configuration and replacing it with your own module links and settings If you want to make significant changes to the operation of the 7700 ION refer to Chapter 4 In this Chapter Making Configuration Changes sse eene 3 1 GConfiguration Tools ere eee eee en e P ee tee rn ete 3 2 Basics of t
185. t chapter 3 2 Different types of configuration changes can be made using the different tools provided by Power Measurement Each of the tools available has been designed to make basic configuration changes easy The configuration tools available and the types of configuration changes you can make with them are as follows PEGASYS ION Designer software lets you change the settings for any function performed by the meter Everything from basic setup to creating custom functionality can be performed using ION Designer The different types of device functions are grouped together on the ION Designer screen so you can quickly access the types of settings you want to change Refer to the PEGASYS ION Designer on line help for assistance using the software PowerView software PowerView for Windows and PowerView Plus provides basic and advanced setup modes allowing you to change the settings for any meter function Advanced users can create custom functionality with PowerView Refer to the PowerView on line help for assistance using the software The MGT also provides access to the settings of every meter function Special screens are provided for quick access to basic setup functions The MGT cannot be used to create custom functionality Any of the tools mentioned above are suitable for making minor changes to the device s configuration If you plan to do more extensive changes later on use PEGASYS ION Designer for device configurati
186. t for voltage sensing The function of each status input is controlled by the Digital Input modules 1 through 8 These modules are preconfigured at the factory together with eight Counter modules for counting status changes and an External Pulse module for resetting the Counter modules Once you have connected the status inputs to the field equipment that they monitor check the 7700 ION s Digital Input modules to ensure they are configured appropriately The eight Digital Input modules are factory configured as follows refer to the ION Reference for complete details on module function Setup Register Factory Setting Input Mode Pulse complete pulse as opposed to KYZ transition pulse Event Log Mode Log Off status changes are not logged Polarity Inverting hardware signal is inverted Debounce 0 010 mechanical contact bounce in seconds Port STATUS to STATUSS specifies which hardware port the module controls A NOTE The Analog Input module s icon in the ION Designer toolbox looks like this Us E adha Auxiliary Analog Inputs The 7700 ION can be ordered with an optional analog input board that provides four double ended voltage or current inputs for direct interface with transducers The configuration and maximum input range depends on the option ordered The options are as follows Option Input Impedance Max Common Mode Voltage 0 1 mA 49 90 0 20 mA 1000 2
187. te Thermal Demand modules 1 through 4 7700 ION USER S GUIDE Parameter Reset PHRAMETER RESET MAKING CONFIGURATION CHANGES The Parameter Reset menu allows you to reset various cumulative parameters To access Parameter Reset press SETUP PARAMETER RESET then use the up and down arrow keys to highlight the parameter you want to reset When the parameter you want is highlighted press ENTER The first time you reset a parameter the password screen appears enter 0 zero or the user password you previously configured The MGT displays Done next to the parameter name once it has been successfully reset The parameters that are reset by each menu selection are detailed below Min Max Reset The minimum AND the maximum values for each the following parameters are reset when Min Max Rset is used Phase and average Current I b and avg Frequency Line to line voltages VII ab bc and ca and VII avg PF lead and PF lag Line to neutral voltages VIn a b and c and Vin avg Total kW kVAR and kVA Sliding Window Demand Reset The following Sliding Window Demand parameters are reset when SWDemand Rset is used e Average Current SWD kWSWD kVARSWD kVASWD Status Counter Reset Each of the eight Status Counters that monitor the number of times each Status input changes are reset when 5 Count Rset is used Thermal Demand Reset The following Thermal Demand parameters ar
188. tec cetera cene nte dee e 4 35 Creating Custom MGT Displays 00 0000000000000000 0000000000 na nan 00 ene en nenen anana anon enere 4 37 Overview of MGT Button Configuration 0000000000000000 netter nne 0a nenen ene nn enne 4 37 Using the MGT Display Formats 00000000 0000000000000000 000000 tentent nenen nenen en nenen nenen 4 38 Technical Reference eee eene eee eene enne eene ana see eeeessssssses 2 1 ION Module Summary senesepte serores 5 2 UTrn 5 13 kW Measurement 5 14 High Speed Measurements During Fault 00000000000000 00000000000000 n naon nenen 00 nane 0n nne 5 14 Input Ratings M 5 15 Optional Input Output Modules 0000000000000000 00000 0ne 000 5 16 Analog Inp t Modules 0 e eiue ga etii 5 16 Analog Output Modules rente tenet eniti een tede red 5 17 Digital Input eere tree ree eee eene 5 17 Digital Input Dry Contact Modules ssssssseseeeeeeenenenen nennen eene 5 18 Thermocouple Input Modules seen 5 18 RID Input Modules eme nane mee AN Digital Output Modules Additional Specifications eee eee eese entente anane 0e naa nen aana ne nean enen anane Standards Compliance
189. ters that you want to access through Modbus There are only four Modbus Slave modules available in the 7700 ION so you will have to delete some of the preconfigured links if you want to make other parameters available to Modbus Master devices If your Modbus Master device requires data in a format different than that provided by the factory Modbus configuration you can edit the setup registers in the Modbus Slave modules These setup registers specify the Modbus format scaling and base address settings Refer to the ION Reference for complete details on Modbus Slave module function 7700 ION USER S GUIDE USING ADVANCED FEATURES Modbus Slave Module Settings The settings in the Modbus Salve module setup registers are shown in the tables below Refer to the Modbus Slave module description in the ION Reference for complete details of each setup register s function and options Refer to 7700 ION Modicon Modbus Serial Communications Protocol and ION Modbus Register Map document for additional details on the Modbus implementation on the 7700 ION Modbus Slave Module 1 Setup Register Setting Format unsigned 16 bit Base Address 40011 Scaling YES In Zero 0 In Full 6553 Out Zero 0 Out Full 65530 Modbus Slave Module 3 Setup Register Setting Format signed 32 bit Base Address 40059 Scaling YES In Zero 214748364 In Full 214748364 Out Zero 2147483640 Out Full 2147483640
190. the DNP 3 0 Protocol for a list of the parameters available through DNP The DNP 3 0 communications protocol is available only on the XPRESS CARD s RS 485 ports and only a single port can use the DNP 3 0 at any one time As with Modbus any measured or calculated parameter can be made available through DNP 3 0 This requires relinking DNP Slave Export modules to the parameters you want to export via DNP There are no basic configuration adjustments to make in the DNP Configuration folder Changing the factory DNP configuration is an advanced setup procedure that requires an understanding of the DNP 3 0 protocol and an understanding of the 7700 ION s internal operation Configuring a Communications Protocol In order to use the factory Modbus or DNP configuration you must first configure the communications channel you want to use By default all communications ports are configured to use the ION protocol Choose either MODBUS RTU or DNP 3 0 from the list of available protocols in the Communications module s Protocol setup register refer to Communications Setup on page 3 8 Modbus RTU is available on each of the 7700 ION s communications ports and multiple ports can communicate using Modbus simultaneously DNP 3 0 is only available on the optional XPRESS CARD s RS 485 ports and only a single port can use the DNP 3 0 protocol at any one time Factory information Firmware Version ate TTUDIDH y Factory Information The Fa
191. the Modbus RTU protocol to write values into ION external numeric pulse and Boolean registers allowing you to enable disable and reset 7700 ION functions You can also use the Modbus protocol to change setup register values in various ION modules to configure the 7700 ION s operation of the information required to write to ION registers through Modbus is available in 7700 ION Modicon Modbus Serial Communications Protocol and ION Modbus Register Map available on the PEGASYS distribution CD or by request from Power Measurement 7700 ION USER S GUIDE Using the DNP 3 0 Protocol A NOTE Complete DNP documentation is available through the DNP User s Group on the web at www dnp org This documentation describes DNP 3 0 Transport Functions the Application Layer Protocol the Data Object Library Subset Definitions and the Data Link Layer Protocol Description USING ADVANCED FEATURES Power Meter The Distributed Network Protocol Version 3 0 DNP 3 0 is an open protocol used in the electric utility industry for communications and interoperability among substation computers RTUs IEDs and Master Stations The 7700 ION can be integrated into a DNP network using the DNP Slave Import Export and Options modules The 7700 ION s Factory DNP 3 0 Configuration The 7700 ION s factory configuration makes various parameters available through DNP 3 0 There is no factory configured functionality for importing DNP 3 0 dat
192. tion amount e TRI Threshold considered a Transient These are setup registers not output registers 2 26 7700 ION USER S GUIDE Power Quality Framework Continued Description of Displayed Accessible by Default ION Module ION Module Output Register Parameter or Function Vista PowerView MGT Name Label Label Sag Swell Data Recorder e Data Recorder 5 Sag Swell Log Sag Swell Log Transient Data Recorder e Data Recorder 6 Transient Log Transient Log Phase A Voltage Waveform Rec e Waveform Recorder 1 Wim Rec VI Wim Rec VI Phase B Voltage Waveform Rec e Waveform Recorder 2 Wim Rec V2 Wim Rec V2 Phase C Voltage Waveform Rec e Waveform Recorder 3 Wim Rec Wim Rec Phase A Current Waveform Rec e e Waveform Recorder 4 Wim Rec 11 Wim Rec 11 Phase B Current Waveform Rec e e Waveform Recorder 5 Wim Rec 12 Wim Rec 12 Phase C Current Waveform Rec e e Waveform Recorder 6 Wfm Rec I3 Wim Rec I3 Sag Swell monitoring Enable e e External Boolean 4 Sag Swell Enble Sag Swell Enble Transient monitoring Enable e e External Boolean 10 Transient Enble Transient Enble Waveform Recording Enable e e External Boolean 11 Wim Rec Enble Wim Rec Enble Disturbance Counter reset e e External Pulse 8 Dist Count Rset Dist Count Rset Manual Waveform Rec trigger e e External Pulse 12 Man Wfm Trg Man Wfm Trg Sag Swell Counter e e Counter 9 Sag Swell Count Sag Swell Count Transi
193. tions allow data to be shared simultaneously across multiple networks expandable I O provides additional monitoring and control capabilities and a variety of display and analysis tools can be used to monitor your power system This User s Guide discusses the 7700 ION as it is most commonly used as a part of a complete power monitoring system distributed PEGASYS software components PowerView c Communications Options software up to five concurrent connections RS 232 and high speed RS 485 10Base T and 10Base FL fiberoptic Ethernet LonWorks FTT10 LonTalk support Display and ION Modbus RTU and DNP3 0 protocols EtherGate RS 485 Ethernet gateway Analysis Tools corporate network MGT a field display unit But Modbus DNP3 0 and pulses breaker status ES Lonworks software tools analog transducer signals Input Ouput p Urs Mv 90 analog signals MV 90 revenue metering energy pulses control signals software Power System Connections phase voltage phase current and neutral current from Wye Delta or single phase power systems INTRODUCTION 1 3 Data Display and Analysis Tools The 7700 ION integrates seamlessly with the display and analysis software available from Power Measurement The data acquired by the 7700 ION can be used in a variety of systems however Power Measurement software is designed to make use of the advanced capabilities the unit provides Power
194. ts FrzAlEvDepth Fixed at 100 100 AlChangeEvents 32 Bit Analog Change 16 Bit Analog Change Event Without Time Event Without Time 32 Bit Analog Change Event With Time 16 Bit Analog Change Event Without Time 16 Bit Analog Change Event With Time 5 6 7700 ION USER S GUIDE ION Module ION Module Summary Table Continued Table Continued ION Module Name Options continued DNP Note DNP is only available on DNP Slave Com 2 or Com 3 a Ethernet Event Log Controller Total Available in 7700 1 32 20 128 Used in Factory Config 1 11 17 denotes Core module refer to Chapter 4 TECHNICAL REFERENCE High Speed Capable 1 none N A N A Setup Registers AlChangeEvDepth Range or Options 100 to 200 Creation Default 200 AOStatic 32 bit Analog Output Status 16 bit Analog Output Status 16 bit Analog Output Status SelectTimeout 0 10 seconds 10 seconds TimeSynchPeriod 1 86400 seconds 1 day 86400 ALFragSize 15 2048 bytes 2048 DLAck ALWAYS MULTI PACKET NEVER ONLY NEVER DLTimeout 100 msecs to 10 seconds 2 seconds DLNumRetries 0 10 0 Gateway valid IP address None SubnetMask valid IP address None IP Address valid IP address None Protocol ION or MODBUS RTU ION Depth 0 to 20 000 500 Protection The Protectio
195. tus Display The status display screens with three values use large characters and are suitable for viewing from a distance Disital InPutz Status In 1 OFF Gtatus In Z J DFF Status In 3 OFF To set up a large status display screen 1 Enter the parameter handle of the first register whose status you want to display on the screen then press ENTER If you want to keep the register that is currently in use press the button labeled KEEP PREVIOUS 2 Repeatstep 1 for the remaining 2 registers whose status you want to display 3 Once you have entered the parameter handles you are prompted for a title for the display screen Enter a title of up to 26 characters then press the ENTER button If you want to keep the title that is currently in use press the button labeled KEEP PREVIOUS When you view your status display screen the labels of the selected registers are displayed if no labels have been defined the default register names appear To the right of each label the state of the register is displayed This can be either the associated Boolean ON or OFF label or if no Boolean ON OFF labels have been defined simply ON or OFF 7700 ION USER S GUIDE 7 and 14 Status Display Screens The screens displaying 7 and 14 values are best suited for viewing close up The screen title is shown here Boolean register status is shown here If Boolean ON or OFF label have been defined these labels are displa
196. u are ready to use this Guide your 7700 ION should be installed basic setup should have been performed and communications basic operation should have been verified If the unit is not yet installed and operational refer to the 7700 ION Installation amp Basic Setup Instructions shipped with the meter Getting More Information Additional information is available from Power Measurement Check our web site at www pml com contact your local Power Measurement representative or contact Power Measurement directly Contact information is provided on the first page of this document Documents related to the installation operation and application of the 7700 ION 7700 ION Installation amp Basic Setup Instructions This brief guide is shipped with each 7700 ION It details the mounting wiring and basic setup of the device ION Reference This reference contains detailed descriptions of the ION architecture ION Designer software and all of the modules available in each ION device PEGASYS 2 0 Administrator s Guide This guide explains the installation and configuration of the PEGASYS software suite Advanced PEGASYS tools are described PEGASYS ION Designer On line Help This describes how to use PEGASYS ION Designer PEGASYS Vista User s Guide This guide describes how to use PEGASYS Vista PowerView On line Help This describes how to use PowerView 7700 ION USER S GUIDE Displaying Data The 7700 ION is shipped from the factory w
197. u do not make use of one of the factory configured frameworks consider deleting it to free up processor resource To delete a specific framework other than the Modbus Configuration double click the Advanced Configuration folder on the main 7700 ION Configuration screen Nine folders appear on the screen covering eight of the nine frameworks shown in the table above Select the folder containing the framework and press the Delete key on your keyboard A dialog box appears showing you which modules will be deleted click OK to remove the modules in the selected framework To delete the Modbus Configuration select its folder on the main 7700 ION Configuration screen and press Delete on your keyboard Press OK on the confirmation dialog box to remove the Modbus Configuration 7700 ION USER S GUIDE Restoring the Factory Configuration The factory configuration can be reinitialized in the 7700 ION through ION Designer The basic setup of the device can be retained so the 7700 ION does not need to be taken out of service for a long period of time Follow this procedure to restore the factory configuration any custom features you created will be destroyed 1 Display the main 7700 ION Configuration screen in ION Designer 2 Choose Select from the Edit menu then press Delete on your keyboard The confirmation dialog box appears explaining that some modules will not be deleted core modules cannot be deleted scroll down in the
198. u will lose your communications connection with the device The setup registers in the Communications and Ethernet modules define the parameters used for each communications port The following parameters can be configured different parameters are presented on different modules communications standard i e RS 485 or RS 232 and related settings communications protocol i e ION Modbus or DNP 3 0 communications link speed i e 19 200 bps device unit ID RS 485 or IP Address gateway and subnet mask Ethernet Communications Protocols By default each communications port on the 7700 ION is configured to use the ION protocol If you want to make use of the factory Modbus RTU or DNP 3 0 configurations you need to configure the Communications module that controls the port you want to use Use the table above to determine which module controls the port you intend to use and choose the appropriate protocol from the module s Protocol setup register Note that DNP 3 0 is only available on the Comm 2 and Comm 3 XPRESS CARD ports and only one port can communicate using DNP 3 0 at a time 7700 ION USER S GUIDE Demand Setup Demand Setup Period of Sub periods Demand Modules Meter Clock Setup Meter Clock Setup Time Zone OST 1 MAKING CONFIGURATION CHANGES The Demand Setup area contains a single folder called Demand Modules Double click this folder to view the eight demand modu
199. uV 1 22 mV 2 44 mV 2 44 mV 4 88 mV 3 91 pA Input Impedance 1 MQ 1 MQ 1 MQ 1 MQ 1 MQ 133 Isolation Input to Output 2500 Vrms Accuracy 25 C 0 2 Offset Drift 50 ppm C Gain Drift 55 ppm C Operating Temperature to 60 C Range Storage Temperature 25 C to 85 Range 7700 ION USER S GUIDE Analog Output Modules Voltage Outputs Current Outputs Part Number GAOVDC5 GAOVDC5B GAOVDCIO GAOVDCIOB GAOIDC420 Range 0 to 5 VDC 5 to 5 VDC O to 10 VDC 1010 10 VDC 4 to 20 mA Resolution 1 22 mV 2 44 mV 2 44 mV 4 88 mV 3 9 uA 20 mA max 10 mA max 10 mA max 10 mA max 5 VDC 5 VDC 10 VDC 10 VDC loop resistance Isolation Input to Output 2500 Vrms Accuracy 25 0 6 Offset Drift 45 ppm C Sourcing Capobility Gain Drift 150 ppm C 20 mA max 330 Q max Short Circuit Protection Output signal can be shorted to ground without damaging the module Operating Temperature Range to 60 C Storage Temperature Range 25 C to 85 Digital Input Modules AC Inputs DC Inputs Part Number GDIAC120 GDIAC240 GDIDC32 GDIDC32H High Speed Nominal Input Voltage 120 VAC 240 VAC 32 VDC 32 VDC Input Voltage Range 90 to 140 VAC VDC 180 to 280 VAC VDC to 32 VDC 3 to 32 VDC Input Current Max Input 8 mA rms 6 mA rms 18 mA 18 mA Voltage Nominal Inp
200. ut Resistance 22 kQ 60 kQ 1 8 kQ 1 8 kQ Pick Up Voltage gt 90 VAC gt 180 VAC gt 3 VDC gt 3 VDC Drop Out Voltage lt 25 VAC lt 50 VAC lt 1 VDC lt 1 VDC Turn on Time 20 msec max 20 msec max 0 20 msec max 0 050 msec max Turn off Time 20 msec max 20 msec max 0 40 msec max 0 075 msec max Optical Isolation Input to Output 4000 VAC rms Operating Temperature Range 40 C to 100 C Storage Temperature Range 40 C to 125 C Standards amp Certification UL File E58632 CSA File LR38763 TUV Certificate R9474066 Transient Protection Meets ANSI IEEE C37 90 1989 Surge Withstand Capability Test 7700 Scan Time TECHNICAL REFERENCE 1 msec maximum 5 msec minimum max pulse rate 20 pps Digital Input Dry Contact Modules Part Number Isolation Input to Output GDICC 2500 VAC rms Storage Temperature Range 40 C to 125 C to 60 C Operating Temperature Range Maximum Dry Contact Voltage Rating 25 VDC Minimum Dry Contact Current Rating 5 mA Maximum Turn on Time 3 0 msec Minimum Turn off Time 3 0 msec Standards and Certification UL File E58632 CSA File LR38763 Transient Protection Meets ANSI 37 90 1989 Surge Withstand Capability Test Thermocouple Input Modules Thermocouple Type Type J Type K Type R Type T Part Number GAITC GAITCK G
201. uthority is required to reset the status counter DISPLAYING DATA 2 9 Displaying Additional Data in Vista The factory configured 7700 ION measures and calculates additional data that is not presented in the standard Vista diagrams This data can be added to the standard diagrams or new diagrams can be created Any data that the 7700 ION measures or logs can be displayed on a Vista diagram PEGASYS Supervisor authority Level 5 is required to create and configure new diagrams Refer to the PEGASYS Vista User s Guide for details on creating Vista User Diagrams If you don t have Level 5 authority contact your PEGASYS administrator for assistance Refer to the section Complete List of Factory Configured Measurements and Functions near the end of this chapter This list indicates what data is not displayed on the standard Vista diagrams but is available from the factory configured 7700 ION 7700 ION USER S GUIDE DISPLAYING DATA Displaying Data with PowerView PowerView for Windows 95 NT displays many of the parameters measured and logged by the 7700 ION The data displays in PowerView are considerably different than those in PEGASYS Vista This section describes how to view data in PowerView and which data screens are available Summary of Data Provided PowerView includes a set of tables that display data from the 7700 ION version 7700V200 The available data is grouped into 27 data screens 20 for data recorders and seven
202. utput register With this information you can determine what changes will result to the framework by deleting the links to the parameter Note that links to inputs on other nodes are not shown in this dialog box Deleting the Link at a Module s Input You can also check the links at a module s input Using ION Designer right click on the input symbol on a module to view a dialog box listing each of the inputs and the output registers they are linked to You can unlink inputs from within this dialog box as well Replacing a Link You do not need to unlink a module s input before linking a different output register to it If you link an output register to an input that is already linked the existing link will be overwritten 7700 ION USER S GUIDE Using Onboard and Expansion I O A NOTE The onboard status inputs cannot be used for voltage sensing applications USING ADVANCED FEATURES The 7700 ION is available with numerous I O options The standard configuration includes eight onboard status inputs Four onboard analog inputs and two expansion boards each with up to 15 I O modules are available as ordering options Onboard Status Inputs The eight onboard status inputs can be used for monitoring external contacts or pulse counting applications These inputs use a current sensing technique to monitor contact status by providing an internal 30 VDC supply for self excitation These inputs can be used for dry contact sensing but no
203. ve data through Modbus or DNP 3 0 There is no factory configured framework for receiving data through Modbus or DNP refer to Chapter 4 for details on setting this up MAKING CONFIGURATION CHANGES The Third Part Protocols area contains two folders Modbus Configuration and DNP Configuration Double click either of these folders to view the factory configured Modbus and DNP 3 0 modules Modicon Modbus RTU Protocol The 7700 ION supports the Modicon Modbus RTU protocol making a comprehensive set of power energy demand and harmonics parameters available to Modbus Master devices Refer to the section Using the Modbus RTU Protocol in Chapter 4 for a list of the parameters available through Modbus Advanced configuration can be performed on the 7700 ION to make any measured or calculated parameter available to connected Modbus Master devices This requires relinking the Modbus Slave Read modules to the parameters you want to export via Modbus Refer to Chapter 4 for details There are no basic configuration adjustments to make in the Modbus Configuration folder Changing the factory Modbus configuration is an advanced setup procedure that requires an understanding of the Modbus protocol and an understanding of the 7700 ION s internal operation DNP 3 0 Configuration The 7700 ION uses the DNP 3 0 protocol to make various energy power and demand parameters available to DNP 3 0 master devices Refer to the section Using
204. want to configure and select Properties from the pop up menu The Device Properties dialog box appears Click the Tools tab and choose the setup mode you want to use Device Properties mE General Display Tools Poll Device Device Setup Show Advanced ION Setup Store to File Restore From File Choose the setup mode you want from this list Cancel 7700 ION USER S GUIDE Using Advanced Setup Mode Once you choose Show Advanced ION Setup and click OK PowerView uploads all ION modules from the device Modules are grouped together by type in folders in the PowerView display Double click a folder to view the modules inside it f Pires ll cesa ema rit Poesias Pea 2 Fe Edi Wee pei Todi ede Heo 3 Boone a ur ETATIDIMT Sin 1 rig LL Bk Modules C Analog be locales DJ u Waduk LL ARDAIR M caer LL Check D Coran kiadukan D Dore LL Dune Dana cun Modules Dara M poet 2 Tempuran iehi D Diiw ia Da Cui LL DMP Sira Enpa CI TMF Sies kd pah kesi Sira D pore DJ Eveni bol sula LL Ex Bod adole LL Ear Phara M cie c Ese Puke M reir D Factor C Feedback M ode IJ FFT TA H merer bl ngi kane lte aman If you double click a folder and no modules appear in the right pane there are no modules of
205. written 5 Choose the input you want from the pop up or dialog box 6 Ifthe two modules are in the same window the dotted line remains on the screen to show the link between the modules When you save this change to the node the line will change from a dotted line to a thin black line to indicate that the link is now programmed on the node The procedure described above can also be performed in reverse order You can select a module s input first and then link it to another module s output register Editing Existing Frameworks If you are comfortable with ION and the 7700 ION s configuration you can make changes to the existing frameworks to customize operation Any edits you make to the existing frameworks will alter the device s operation be sure you understand what effect your changes will have before proceeding Chapter 2 includes a table that lists all of the parameters and functions provided in the 7700 ION factory configuration This table shows the module and output register that holds each parameter If you want to delete or change a parameter use this table to determine which module and which output register provides the data then check which other modules the output register is linked to described below Checking an Ouput Register s Owner Using ION Designer right click a module s output register to view its linkages referred to as owners A dialog box appears showing all of the inputs that are linked to that o
206. xternal Boolean 2 Hist Log Enble Hist Log Enble High value Reset Feedback 1 Reset Hist high Reset Hist high Low value Reset e Feedback 2 Reset Hist low Reset Hist low Mean value recorder e Data Recorder 2 Hist mean Log Hist mean Log High value recorder e Data Recorder 3 Hist high Log Hist high Log e Data Recorder 4 Hist low Log Hist low Log Low value recorder A 7700 ION USER S GUIDE Harmonics Logging Framework This portion of the factory configuration records voltage and current harmonics measurements Mean and average values are calculated recorded and then reset every 60 minutes Description of Displayed Accessible by Default ION Module ION Module Output Register Parameter or Function Vista PowerView MGT Name Label Label Mean Phase A Voltage THD e SW Demand 21 V1 THD mean V1 THD mean Mean Phase B Voltage THD e e SW Demand 22 V2 THD mean V2 THD mean Mean Phase C Voltage THD e e SW Demand 23 V3 THD mean V3 THD mean Mean Phase A Current THD e e SW Demand 24 11 THD mean I1 THD mean Mean Phase B Current THD e e SW Demand 25 12 THD mean I2 THD mean Mean Phase C Current THD e e S W Demand 26 I3 THD mean I3 THD mean Mean Phase A Current K Factor e e SW Demand 27 11 K Fac mean 1 K Fac mean Mean Phase B Current K Factor e e SW Demand 28 I2 K Fac mean I2 K Fac mean Mean Phase C Current K Factor e e S W D
207. yed instead The register label is displayed or the register name if no label has been setup To set up a 7 or 14 status display screen 1 Enter the parameter handle of the first register whose status you want to display on the screen then press ENTER If you want to keep the register that is currently in use press the button labeled KEEP PREVIOUS 2 Repeatstep 1 for the remaining 6 or 13 registers depending on which display you selected whose status you want to display 3 Once you have entered the parameter handles you are prompted for a title for the display screen Enter a title of up to 26 characters then press the ENTER button If you want to keep the title that is currently in use press the button labeled KEEP PREVIOUS When you view your status display screen the labels of the selected registers are displayed if no labels have been defined the default register names appear To the right of each label the state of the register is displayed This can be either the associated Boolean ON or OFF label or if no Boolean ON OFF labels have been defined simply ON or OFF USING ADVANCED FEATURES 4 47 Waveform Display Screens Waveform display screens allow you to display the output of a Waveform Recorder module They read the data from this module s Wform Log output register and display it graphically based on the scale you define Depending on how the waveform is formatted your display may contain
208. you want to fine tune over condition monitoring the only setup registers you should change are SusUntlON and SusUntlOFF SusUntlON determines how long the modules will wait after an over condition is detected before reporting it This gives the monitored value a short period to correct itself before the event is registered with the module so that very brief over conditions are ignored Similarly SusUntlOFF is the amount of time a normal value must be present before the module considers normal operation to be restored Both SusUntlON and SusUntlOFF values are entered in seconds the default value for both is 30 seconds Advanced Setup Advanced Setup The Advanced Setup area contains a single folder called Advanced Configuration Double click this folder to view additional folders that contain device configuration information The nine folders inside the Advanced Configuration folder provide access to the module frameworks that perform the various functions on the device As the name implies Advanced Configuration should only be performed by experienced personnel who understand the internal operation of the 7700 ION any changes you make in this area will affect the device s operation There are no adjustments required to any of the modules in the Advanced Setup area 3 12 7700 ION USER S GUIDE Third Party Protocols 3rd Party Protocols DNP Configuration A NOTE The 7700 ION can also be configured to recei
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