PXM 2000 Series (PXM 2250/2260/2270) Multifunction Electricity
Contents
1. ceo J o On E Co ho IM02601001E 9 3 Introduction to Web Server Pages Printing and Exporting Information Most pages have both Print and Export Data controls The Print control outputs the current graph to the select ed printer The Export Data function will save the set of data to either a comma separated values CSV file or will display the information in your default csv file viewer such as Microsoft Excel You can select intervals of 5 10 or 15 minutes and specify the beginning and ending dates for the data set Events Page Setup Page 8 4 The top of the screen lists events within the event log and the bottom lists details about the currently selected event The drop down menu near the top of the page allows you to choose between currently active events and all events You can also acknowledge and close events from this page this requires the administrative account name and pass word Events Page 6 37 PM GMT Jul 07 2009 Power Xpert E 2 Event O Power Xpert 2270 Meter rome meter Power uaiv enero 1 0 evens setu Print Wwetem y 228152 Critical High Avg Volts L L 2009 07 07 16 28 25 4 gt Ack Clear Event Export Data View Data Ack All Clear All Events Event Details 228152 0 Out of Limits 2009 07 07 162825 UTC Critical High Avg Volts L L 194 125 Acknowledgment Status Not Acknowledged2. bane AS 9 1 eU C P 9 3 uo pc S caver 9 5 mr Kc 9 6 wig ie EET m Uu e OO E A 9 8 mig cc C P 9 12 10 Setup on the Web Server dE TEE 10 1 i YOnn ee 10 1 nu Niels 10 4 Meter Setup amp Commissioning srta EE 10 7 ODIA e 10 12 nn IS IS 10 18 A O E OO TASA 10 20 11 Root Certificate Authority Installation iniciar li 11 1 Installing Root CA with Microsoft Internet Explorer 6 11 1 Installing Root CA with Microsoft Internet Explorer 7 cccccccsssececcessecececeseeceseusceesceaeeeesseseeessusscecseaeeesseegeeeeseueesesseeseneees 11 6 A Navigation MA ert A 1 Jade tel 901 e SE A 1 Navigation Maps Sheets Td dia A 1 Main Menu Screens ones sugar preci A 2 Operating Mode Screens Sheet 21 A 3 Reset Mode Screens Sheet 3 rt A 4 B DIP SwiICITDSSCEIDIOD E B 1 C Modbus Register Maps monedar radio C 1 TOPP Register e orton cerdos EENEN ocean C 1 1 mA Output Card Register Map EE C 8 420 MA Output A IMD EE C 11 Pulse Output Solid State Relay C
3. MO Pulse Contacts Form A C Fig 7 4 Pulse Output 4 Status Input 4 Card 7 6 IM02601001E www eaton com 1mA Output Card 3 Using the I O Option Cards The 1mA card transmits a standardized bi directional 0 1mA signal This signal is linearly proportional to real time quantities measured by the meter The outputs are electrically isolated from the main unit Specifications The technical specifications at 25 C at 5kO load are as follows Number of outputs Power consumption Signal output range Max load impedance Hardware resolution Effective resolution Update rate per channel Output accuracy Load regulation Temperature coefficient Isolation Reset Default output value 4 single ended 1 2W internal 1 2 to 1 2 mA 10kQ 12 bits 14 bits with 2 5kHz PWM 100ms 0 1 of output range 2 4mA 0 06 of output range 2 4mA load step of 5kO 1mA 30nA C AC 2500V system to outputs OmA The general specifications are as follows Operating temperature Storage temperature Relative air humidity EMC Immunity Interference Weight Dimensions inch W x H x L External connection Default Configuration 20 to 70 C 40 to 80 C Maximum 95 non condensing EN61000 4 2 1 60Z 0 72 x 2 68 x 3 26 AWG 12 26 0 29 3 31 mm2 5 pin 0 200 pluggable terminal block The meter automatically recognizes the installed option card during Power Up If you
4. M 6 10 Understanding the O Load EE 6 11 Performing Watt Hour Accuracy Testing vVertfcaton nnne 6 12 www eaton com IM02601001E TOC 1 7 USING the I O Option CardS cuina A AA A A A A A AA AA cas 7 1 DN S 7 1 lala an Option A A 7 1 Sai A 7 2 Digital Output Relay Contact Digital Input Card 21 ii a ades eus 7 3 Pulse Output Solid State Relay Contacts Digital Input Card C3 nennen nennen nnns 7 5 IMA Output Card E PE 7 7 Fx EC IDI 7 9 Network Communications with the Power Xpert 2000 Series L 7 11 Using the PFXM 2000 Gateway e E 7 12 8 Introduction to Web Server Pages ooconoocccconccccoconcnnccnonnococonn coronan anna nn ERRE nnn hh nanus n EEN nnna anenun RR REN nnns nr mennan 8 1 Accessing ME WV CD BS usas dr ra tinca 8 1 Home Page GEG E otero osras reed 8 2 Common Controls tor Selecting Into fiBliOT ss essais quus eode iia eroe ht tin 60a atea t cartero SIG Es eoN Ren nat iis ibas 8 2 Printing and Exporting Information asc TOT OD TOT Do mom 8 4 EVenis e GE 8 4 RE e 8 4 A A E 8 5 al As o PAP A II ne ean sens 8 6 9 Functions on the Web Server Pages iuiiniindnoainaisindaicic a cion 9 1 7 17 p e o
5. Modbus Register Maps Swap Swap Divider Multiplier Date Alarm Writable Possible Values Not Assigned 0 Van 999 Vbn 1001 Ven 1003 Vab 1005 Vbc 1007 Vca 1009 la 1011 1b 1013 Ic 1015 Total Watts 1017 Total VARs 1019 Total VA 1021 Total PF 1023 Frequency 1025 In 1027 Watts Phase A 1029 Watts Phase B 1031 Watts Phase C 1033 VARs Phase A 1035 VARs Phase B 1037 VARs Phase C 1039 VA Phase A 1041 VA Phase B 1043 VA Phase C 1045 PF Phase A 1047 PF Phase B 1049 PF Phase C 1051 Demand la 1999 Demand Ib 2001 Demand Ic 2003 Demand Forward Watts 2005 Demand Lagging VARs 2007 Demand Reverse Watts 2009 Demand Leading VARs 2011 Demand VAs 2013 Avg Demand Lagging PF 2015 Avg Demand Leading PF 2017 Demand In 2019 Avg Demand Lagging PF Phase A 2051 Avg Demand Lagging PF Phase B 2053 Avg Demand Lagging PF Phase C 2055 Avg Demand Leading PF Phase A 2057 Avg Demand Leading PF Phase B 2059 Avg Demand Leading PF Phase C 2061 THD Van 5999 THD Vbn 6000 THD Ven 6001 THD la 6002 THD Ib 6003 THD Ic 6004 Modbus Register Maps Parameter Name IHWLimitldent08 Value Display Name Limit ID 8 IHWLimitAboveSetpoint08 Value Limit 8 Above Setpoint HWLimitAboveRetHyst08 Value Limit 8 Above Return Hysteresis IHWLimitBelowSetpoint08 Value Limit 8 Below Setpoint HWLimitBelowRetHyst08 Value Limit 8 Below Return Hysteresis minputlLabel Value minputZ
6. No No No No No No No Swap Swap Divider Multiplier Date Alarm On Writable Possible Values No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No Words No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No Spec False www eaton com No No No No No No No No No No Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes 1 High 1 Low 2 High 2 Low 3 High 3 Low 4 High 4 Low Disabled 0 Open To Close 1 Close To Open 2 Any Transition 3 Disa Ke To foo Close To Open 2 Any Transition 3 Disabled 0 Open To Close 1 Close To Open 2 Any Transition 3 Disabled 0 Open To Close 1 Close de by TOOL Dy 0013 y10000 4 by100000 5 Accumulato r Disabled d by1 0 by10 1 by100 2 by1000 3 b y10000 4 by100000 5 Accumulato r Disabled d by1 0 by19 1 by100 2 by1000 3 b y10000 4 by100000 5 Accumulato r Disabled d by1 0 by19 1 by100 2 by1000 3 b y10000 4 by100000 5 Accumulato r Disabled 15 Modbus Register Maps Parameter Name Display Name Base Address Discrete Units Type Size Is Time Bit Swap Swap Divider Multiplier Date Alarm On Writable Possible Values 0 based bytes stamp OffsetBytes Words Spec False mKtFactorlnput1 Value Inp
7. Root CA Installation To trust SSL certificates created by this device you must add the device as a trusted root CA Use the link below and follow the instructions in the user manual to install the device s root CA certificate In many browsers Internet Explorer 7 or above Mozilla Firefox and Opera are known to work you can simply click the ink below to begin installation Root CA Certificate 5 Click the Open button Figure 2 File download dialog box Xj Do you want to open or save this file Sep Mame meter Ca Cer Type Security Certificate 1 28KB From 192 158 1 1 potentially harm pour computer IF vau do not trust the source do not F While files from the Internet can be useful this file type can d AU open or save this software hats the risk 6 In the Certificate dialog box click the Install Certificate button NOTE The certificate cannot be verified yet because it is issued by a nontrusted CA WWW eaton com IMO2601001E 11 7 Root Certificate Authority Installation Figure 3 Certification Path Window y Certificate Details Certification Path Es Certificate Information This CA Root certificate is not trusted To enable trust install this certificate in the Trusted Root Certification Authorities store Issued to PowerXpert 00 D0 4F 07 07 5C Issued by Powers pert 00 D0 4F 07 07 5C Valid from 7 2 2008 to 11 18 2035 Install Certificate ssuer Statement 7 Follow th
8. Using the I O Option Cards Digital Output Relay Contact Digital Input Card 1 The Digital Output Input card is a combination of relay contact outputs for load switching and dry wet contact sensing digital inputs The outputs are electrically isolated from the inputs and from the main unit Specifications The technical specifications at 25 C are as follows Power consumption Relay outputs Number of outputs Contact type Relay type Switching voltage Switching power Switching current Switching rate max Mechanical life Electrical life Breakdown voltage Isolation Reset Power down state Inputs Number of Inputs Sensing type Wetting voltage Input current Minimum input voltage Maximum input voltage Filtering Detection scan rate Isolation 0 320W internal 2 Changeover SPDT Mechanically latching AC 250V DC 30V 1250VA 150W 5A 10 s 5 x 107 switching operations 10 switching operations at rated current AC 1000V between open contacts AC 3000V 5000V surge system to contacts No change last state is retained 2 Wet or dry contact status detection DC 12 24V internally generated 2 5mA constant current regulated OV input shorted to common DC 150V diode protected against polarity reversal De bouncing with 50ms delay time 100ms AC 2500V system to inputs The general specifications are as follows Operating temperature Storage temperature Relativ
9. d ELECTRICAL INSTALLATION Considerations When Installing Meters Installation of the PXM 2000 Series must be performed only by qualified personnel who follow standard safety precautions during all procedures Those personnel should have appropriate training and experience with high voltage devices Appropriate safety gloves safety glasses and protective clothing is recommended During normal operation of the PXM 2000 Series dangerous voltages flow through many parts of the meter includ ing Terminals and any connected CTs Current Transformers and PTs Potential Transformers all UO Modules Inputs and Outputs and their circuits All Primary and Secondary circuits can at times produce lethal voltages and currents Avoid contact with any current carrying surfaces Do not use the meter or any I O Output Device for primary protection or in an energy limiting capacity The meter can only be used as secondary protection Do not use the meter for applications where failure of the meter may cause harm or death Do not use the meter for any application where there may be a risk of fire All meter terminals should be inaccessible after installation Do not apply more than the maximum voltage the meter or any attached device can withstand Refer to meter and or device labels and to the Specifications for all devices before applying voltages Do not HIPOT Dielectric test any Outputs Inputs or Communications terminals Eaton recommends the use
10. 75E7 7626 30180 30247 Reserved for Software Use alculated Block Size 248 BE ee ME Block Size 608 31000 31575 Reserved 1917 7856 neserved Registers oet to U E e settings tor Uption Lara 7CFF 7CFF 32000 32000 Class ID of the Option Card 1 Settings UINT16 bit mapped cccctttt Which class cccc and type tttt of card the Op tion Settings for Card 1 apply to see note 19 7D00 7D3E 32001 32063 Settings for Option Card 1 First Overlay Register assignments depend on which type of card is in the slot See overlays below see below 7D3F 7F3E 32064 32575 settings for Option Card 1 Second Overlay Register assignments depend on which type of card is in the slot See overlays below 512 see below C 54 IM02601001E www eaton com O oO Modbus Register Maps Slave address of the unit The communica tion capable card is always a master oet to 0 when an analog none 7D00 7D00 32001 32001 Slave address UINT16 1 247 for Modbus 1 65534 for DNP DOdr q 7D01 7D01 32002 32002 Speed and format UINTIG bit mapped abcde fghijkIm Bps 225 60 b 38400 c 19200 d 14400 e 9600 Stop bits f cleared 1 stop bit set 2 stop bits Parity g even h odd i none Data bits j 8 k 7 6 m 5 Set to 0 when an analog OSTa neo Oad D03 7D03 32004 32004 Protocol UINT16 bit mapped ppp 100 DNP3 Lite o
11. 9048 40009 40009 VARs 3 Ph total UINT16 0 to 4095 9049 9049 40010 40010 VAs 3 Ph total UINT16 2047 to 4095 9C4A 9C4A 40011 40011 Power Factor 3 Ph total UINT16 1047 to 3047 9C4B SC4B 40012 40012 UINT16 0 to 2730 9046 8C4C 40013 40013 Volts A B UINT16 2047 to 4085 904D 9C4D 40014 40014 UINT16 2047 to 4095 9051 9051 40018 40018 UINT16 1 or5 9054 9054 40021 40021 PT denominator UINT16 1 to 9999 905 9058 40024 40025 W hours Negative UINT32 0 to 99999999 9C59 805A 40026 40027 VAR hours Positive UINT32 0 to 99999999 905B 9C5C 40028 40029 VAR hours Negative UINT32 0 to 99999999 9065 9C66 40038 40039 W hours Negative Phase A UINT32 0 to 99999999 9067 9C68 40040 40041 W hours Negative Phase B UINT32 0 to 99999999 9069 9C6A 40042 40043 W hours Negative Phase C UINT32 0 to 99999999 9C6B 9CEC 40044 40045 VAR hours Positive Phase A UINT32 0 to 99999999 9C6D 9C6E 40046 40047 VAR hours Positive Phase B UINT32 0 to 99999999 9C6F 9C70 40048 40049 VAR hours Positive Phase C UINT32 0 to 99999999 9071 9C72 40050 40051 VAR hours Negative Phase A UINT32 0 to 99999999 90 3 9C74 40052 40053 VAR hours Negative Phase B UINT32 0 to 99999999 90 5 90 6 40054 40055 VAR hours Negative Phase C UINT32 0 to 99999999 9077 9C78 40056 40057 VA hours Phase A UINT32 0 to 99999999 C 64 IM02601001E amps amps watts VARs VAS none Hz
12. A 6 oF 0 A O0 A OO A c A oc Q2 O0 gt DO A 250 250 250 250 250 250 250 250 250 250 Is Time Bit stamp Offset Yes No Yes No Yes No Yes No Yes No Yes No Yes No Yes No Yes No Yes No Yes No No No No No No No No No No Modbus Register Maps Swap Swap Divider Multiplier Date Alarm On Writable Possible Values Bytes Words No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No Spec False ymd HMS ymd HMS ymd HMS ymd HMS ymd HMS ymd HMS ymd HMS ymd HMS ymd HMS ymd HMS ymd HMS C 7 No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No Modbus Register Maps mA Outpu ard Register Map Parameter Name Display Name Base Address Discrete Units Type Size Is Time Bit Swap Swap Divider Multiplier Date Alarm On Writable Possible Values 0 based bytes stamp Offset Bytes Words opec False VendorName Value Vendor Name 1032 No no units STRING 64 No No No No ModelName Value Model Name 1064 No no units STRING 64 No No No No DisplayName Value Display Name 1096 No no units STRING 64 No No No Yes serialNumber Value
13. MEN 0807 0808 2056 205 FLOAT 1 00 to 1 00 none bo 2 mE WEI we meer menge A we 70007 7 m WE II A Wo LEI we 7007 HITO OO O OOO A _ 0 eee EN EINE ERA E EN A Us Ii P er 6 Rester OR een me E mm mmm metes mw pmmewr Wa A L meme mr mr masues E pmmwsmm Was 7 08 m mr emeng we pwmemm wmm E or as e m pwmeme ems 7 NENNEN NEN Ill IL e Nu 1193 1193 4500 4500 Port ID UINT16 1 to 4 none Identifies which COM i 7 port a master is con nected to 2 for COM2 etc See chapter 5 for C 32 IM02601001E www eaton com Modbus Register Maps 1194 1194 4501 4501 Meter Status UINT16 bit mapped mmmpch ffeeccc mmm measurement state 0 0ff 1 running normally 2 limp mode 3 warmup 6 amp boot others unused See note 16 och NVMEM block OK flags p profile c calibration h header flag is 1 if OK ff flash state O initializing 1 logging disabled by Vswitch 3 logging ee edit state O startup 1 normal 2 privileged command session 3 profile update mode ccc port enabled for edit 0 none 1 4 COM1 COM4 1195 1195 4502 4502 Limits Status UINT16 bit mapped High byte is setpt 1 0 in 1 0ut low byte is setpt 2 0 in h eer 11986 1197 4503 4504 UINT32 0 to 4294967294 Wraps Se Se max ount BEBE TT sm oo o o 2099 119B 119D 4508 4510
14. Peak Demand VAs Time Demand Current 3 Phase Avg Peak Demand Amps Avg Total Reactive Energy Total Real Energy Peak Demand Sum Watts Peak Demand Net Watts Peak Demand Sum VARs Peak Demand Net VARs Base Address Discrete Units Type 0 based 7174 No volt FLOAT amperes reactive 7176 No volt FLOAT amperes reactive 7178 No volt FLOAT amperes 7220 No watts FLOAT 7222 No watts FLOAT 7224 No DATE 7262 No watts FLOAT 7264 No watts FLOAT 7266 No no units DATE 7303 No volt FLOAT amperes reactive 7305 No volt FLOAT amperes reactive 7307 No no units DATE 1345 No volt FLOAT amperes reactive 7347 No volt FLOAT amperes reactive 7349 No no units DATE 7387 No volt FLOAT amperes 7389 No volt FLOAT amperes 7391 No no units DATE 7429 No amperes FLOAT 7431 No amperes FLOAT 7628 No volt FLOAT ampere reactive hours 7679 No watt hours FLOAT 7683 No watts FLOAT 7688 No watts FLOAT 7693 No volt FLOAT amperes reactive 7698 No volt FLOAT amperes reactive IM02601001E Size bytes stamp Offset 4 DG A gt A DD Aa A I a A A c A AB a A Aa A Is Time Bit No No No No No No No No No No No No No No No No No No No No No No No No No No Swap Swap Divider Multiplier Date Alarm On Writable Possible Values Bytes Words No No No No No No No No No No No No No No No No No No No N
15. Powering Business Worldwide PXM 2000 Series PXM 2250 2260 2270 Multifunction Electricity Meter with Ethernet Communication User amp Installation Manual yoLTSL N yoLTS LE AMPS A wivARIPF Kl Wh VARh B VAh O Wh Pulse KILO IL ETT PXM 2000 IM02601001E Rev 1 1 WWW eaton com Copyright O 2009 by Eaton Corporation All rights reserved Eaton Power Xpert PowerChain Management Powerware and X Slot are regis tered trademarks of Eaton Corporation or its subsidiaries and affiliates Microsoft and Windows are registered trademarks of Microsoft Corporation Modbus is a registered trademark of Schneider Electric EATON CORPORATION CONFIDENTIAL AND PROPRIETARY NOTICE TO PER SONS RECEIVING THIS DOCUMENT AND OR TECHNICAL INFORMATION THIS DOCUMENT INCLUDING THE DRAWING AND INFORMATION CONTAINED THEREON IS CONFIDENTIAL AND IS THE EXCLUSIVE PROPERTY OF EATON CORPORATION AND IS MERELY ON LOAN AND SUBJECT TO RECALL BY EATON AT ANY TIME BYTAKING POSSESSION OF THIS DOCUMENT THE RECIPIENT ACKNOWLEDGES AND AGREES THAT THIS DOCUMENT CANNOT BE USED IN ANY MANNER ADVERSE TO THE INTERESTS OF EATON AND THAT NO PORTION OF THIS DOCUMENT MAY BE COPIED OR OTHERWISE REPRODUCED WITHOUT THE PRIOR WRITTEN CONSENT OF EATON INTHE CASE OF CONFLICTING CONTRACTUAL PROVISIONS THIS NOTICE SHALL GOVERN THE STATUS OF THIS DOCUMENT DISCLAIMER OF WARRANTIES AND LIMITATION OF LIABILITY The information recommendations descriptions
16. Watts Phase A 1029 Watts Phase B 1031 Watts Phase C 1033 VARs Phase A 1035 VARs Phase B 1037 VARs Phase C 1039 VA Phase A 1041 VA Phase B 1043 VA Phase C 1045 PF Phase A 1047 PF Phase B 1049 PF Phase C 1051 Demand la 1999 Demand Ib 2001 Demand Ic 2003 Demand Forward Watts 2005 Demand Lagging VARs 2007 Demand Reverse Watts 2009 Demand Leading VARs 2011 Demand VAs 2013 Avg Demand Lagging PF 2015 Avg Demand Leading PF 2017 Demand In 2019 Avg Demand Lagging PF Phase A 2051 Avg Demand Lagging PF Phase B 2053 Avg Demand Lag ging PF Phase C 2055 Avg Demand Leading PF Phase A 2057 Avg De mand Leading PF Phase B 2059 Avg Demand Leading PF Phase C 2061 THD Van 5999 THD Vbn 6000 THD Ven 6001 THD la 6002 THD Ib 6003 THD Ic 6004 mHighValueOutput2 Value Output 2 Source Register High Value 27613 No no units FLOAT 4 No No No Yes mLowValueOutput2 Value Output 2 Source Register Low Value 27615 No no units FLOAT 4 No No No Yes mFormatRegOutput3 Value Output 3 Format for Limits 21617 No no units UINT 2 No No No No uint16 1 int16 2 uint32 4 int32 8 float32 16 www eaton com IM02601001E C 9 Modbus Register Maps Parameter Name mSourceRegOutput3 Value mHighValueOutput3 Value mLowValueOutput3 Value mFormatRegOutput4 Value C 10 Display Name source Measure for Output 3 Output 3 Source Register High Value 27619 Output 3 Source Register Low Value 27621 Output 4
17. oame as analog output 71 same as analog output 1 oame as analog output 71 Modbus Register Maps his register should be programmed with the address of the register whose value is to be used for current output In different words the current level output of analog board will change with the value of the register pointed here Value read from the source register at which High nominal current will be output Ex ample for the 4 20mA card if this register is programmed with 750 then the current output will be 20mA when the value read from the Value ae from the d source register at which Low nominal current will be output Ex ample for the 4 20mA card if this register is programmed with 0 then the current output will be 4mA when the value read from the pf Bett to 0 TTT i lk R Dit Readings Section 9C40 40001 40001 system Sanity Indicator UINT16 as 9C40 9C41 9C41 402 47 40002 9042 9042 A aa 40003 9043 9043 40004 40004 VAN 00000 A N 5 NE B N Volts VolisGN N 0 or 1 UINT16 UINT16 UINT16 2047 to 4095 2047 to 4095 2047 t0 4095 to 4095 mt Eech mi calli Miceli mmus www eaton com IM02601001E ue veer T oper ation volts 150 register 2047 2047 0 10 2047 0 4095 10 C 63 Modbus Register Maps 9646 9046 40007 40007 UINTI6 Oto 4095 9047 9047 40008 40008 Watts 3 Ph total UINT16 0 to 4095 9048
18. 40071 Power Factor Phase A UINT16 1047 to 3047 1047 1 2047 0 mm Ja 40072 40073 40073 Power Factor Phase C UINT16 1047 to 3047 2047 1000 40099 Reseved none mie 26 9CA3 9CA3 40100 40100 Reset Lo ae Accumulators m Fs Write p KE di Vd 40074 Modbus Register Maps AUUDY VA hours Phase b U to 99999899 VAN per energy format 40062 Watts Phase A UINT16 0 to 4095 watts 40063 Watts Phase B UINT16 0 to 4095 watts 40064 Watts Phase C UINT16 0 to 4095 watts 40065 VARs Phase A UINT16 0 to 4095 VARs 0 3000 2047 0 4095 3000 40066 VARs Phase B UINT16 0 to 4095 watts VARs VAs 40068 VAs Phase A UINT16 2047 to 4095 VAs 40069 VAs Phase B UINT16 2047 to 4095 VAs 40070 VAs Phase C UINT16 2047 to 4095 VAs 40072 Power Factor Phase B UINT16 1047 to 3047 none Geen pf register HA AHH reserved Section EN C34C C3CD 49997 50126 Reserved a ee to 0 AR O PO O A A a 7 Bos Re Block Size 128 End of Map ASCII SINT16 UINT16 SINT32 UINT32 FLOAT TSTAMP www eaton com ASCII characters packed 2 per register in high low order and without any termination characters 16 bit signed unsigned integer 32 bit signed unsigned integer spanning 2 registers The lower addressed register is the high order half 32 bit IEEE floating point number spanning 2 registers The lower addressed register is the high order half i e contains the exponent
19. 9523 9525 See Se 9474 Negative Watts Phase A Max Avg Dmd TSTAMP 1Jan2000 sec Timestamp 31Dec2099 9477 Negative Watts Phase B Max Avg Dmd TSTAMP 1Jan2000 sec Timestamp 31Dec2099 9480 Negative Watts Phase C Max Avg Dmd TSTAMP 1Jan2000 sec Timestamp 31Dec2099 9483 Negative VARs Phase A Max Avg Dmd TSTAMP 1Jan2000 sec Timestamp 31Dec2099 9486 Negative VARs Phase B Max Avg Dmd TSTAMP 1Jan2000 sec Timestamp 31Dec2099 9489 Negative VARs Phase C Max Avg Dmd TSTAMP 1Jan2000 sec Timestamp 31Dec2099 9492 VAs Phase A Max Avg Dmd Timestamp TSTAMP 1Jan2000 SE GE Ms n QU Mosa a me a q OO 9498 VAs Phase C Max Avg Dmd Timestamp TSTAMP 1Jan2000 KEE a q 00 d 9501 Positive PF Phase A Max Avg Dmd TSTAMP 1Jan2000 sec Timestamp 31Dec2099 9504 Positive PF Phase B Max Avg Dmd TSTAMP 1Jan2000 sec 3 Timestamp 31Dec2099 9507 Positive PF Phase C Max Avg Dmd TSTAMP 1Jan2000 sec 3 Timestamp 31Dec2099 9510 Negative PF Phase A Max Avg Dmd TSTAMP 1Jan2000 sec Timestamp 31Dec2099 9513 Negative PF Phase B Max Avg Dmd TSTAMP 1Jan2000 sec Timestamp 31Dec2099 a 9495 VAs Phase B Max Avg Dmd Timestamp TSTAMP 1 Jan2000 1 sec 9516 Negative PF Phase C Max Avg Dmd TSTAMP 1Jan2000 sec Timestamp 31Dec2099 9522 Volts B N THD Max Timestamp TSTAMP 1Jan2000 sec Modbus Register Maps mmm il a q OO D 9525 Volts CN THD Max Timestamp TSTAM
20. CT Ratio Energy units display format and the meter name Select one of the following wiring configurations based on the installation e 3 Phase 4 wire Y 3CT e 3 Phase 3 wire Delta 2CT e 3 Phase 4 wire Y 3 CT 2V 2 1 2 Element This configuration is not recommended In this configuration the B phase voltage is not measured to save the cost of a B Phase voltage transformer A balanced 3 phase voltage is assumed to estimate B phase voltage for the purpose of 3 phase power and energy estimation does not com ply with Blondel s theory 2 5 element Wye configuration cannot detect problems with B phase voltage The Phase AB and BC voltage values shown on the Meter web page are estimates only and on the Power web page only the System values will be shown Phase A B and C values will display as zero Note Wiring configurations are detailed in chapter 4 Electrical Installation IMO2601001E www eaton com Setup on the Web Server Pages Quick Setup Page Meter Setup Home Meter Power Quaiity Eneroy E Login Quick Setup Edit Cd Quick Setup 5 Meter Wiring Configuration DN Network 2 3 Phase 4 Wire Y 3CT amp 3 Phase 3 Wire Delta 2CT E Alarm Triggers 3 Phase 4 Wire Y 3CT 2V 2 1 2 Element Out Of Limits PT Primary 111 PTSecondary 111 Alarm on Value CT Primaryi6 fh oe 7 Meter Setup amp Commissioni o 7 Security Energy Format 5 Passwords Energy Digit 5 v Y Acces
21. Display Name Base Address Discrete Units 0 based Vendor Name 1032 No no units Model Name 1064 No no units Display Name 1096 No no units Serial Number 1276 No no units Software Version 2108 No no units Nominal Voltage 1355 No volts Phases to Display on Meter Front 1361 No no units Field Replaceable Unit 1605 No no units Nominal Frequency 1668 No hertz Output Current Rating 1810 No amperes Status 3000 No no units Vab 4002 No volts Vbc 4004 No volts Vca 4006 No volts V L L Average 4008 No volts Van 4010 No volts Vbn 4012 No volts Vcn 4014 No volts V L N Average 4016 No volts Phase Angle Vab 4497 No degrees phase Phase Angle Vbc 4499 No degrees phase Phase Angle Vca 4501 No degrees phase V L L Average Long term Average 4525 No volts IM02601001E Type STRING STRING STRING STRING STRING UINT UINT UINT UINT UINT UINT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT Size bytes stamp Offset 64 64 64 64 48 N N N NN A gt a Aa Aa Aa A A A A A A A A Is Time Bit No No No No No No No No No No No No No No No No No No No No No No No Swap Swap Divider Multiplier Date Alarm On Writable Possible Values Bytes Words Spec False No No No No No No No No Yes No No No No No No No No Yes No No Yes 122 No No Yes true false No No No No No Yes No No No Off 0 Normal 1 Limp mode 2 Warmup 3 Unknown 4 iis T No Unknown 5 Boot up 6
22. Multiplier Date je C 27 Alarm Un Modbus Register Maps Writable Possible Values Yes Yes Disabled 0 Open To Close 1 Close To Open 2 Any dee Yes Bisabled 0 Open To Close 1 Close To Brent Any Transition 3 Yes Enabled Disabled Yes Enabled Disabled Yes by1 0 by10 1 by100 2 by1000 3 by10000 4 by100000 5 Accumulator Disabled 15 Yes by1 0 by10 1 by100 2 by1000 3 by10000 4 by100000 5 Accumulator Disabled 15 Yes Yes Yes Yes Yes Yes Yes Yes No No Yes Yes Yes Yes Yes by1 0 by10 1 by100 2 by1000 3 by10000 4 by100000 5 Accumulator Disabled 15 Yes by1 0 by10 1 by100 2 by1000 3 by10000 4 by100000 5 Accumulator Disabled 15 Modbus Register Maps RTU RS485 Map The following is a complete Modbus map including option cards for communications through the RS485 port Viodbus Address Decimal Units or Resolution Ixed J 0000 0008 0010 0010 LL LO Meter Type e 6 ES mapped t VVVVVVVV Un 0012 ra i k LL Us Ws meee 0018 0019 001A 001E 0027 0007 Ue UU 0012 0013 0015 0017 0018 0019 001D 0026 0027 0E 1 8 Eege 24 Zo 29 26 21 31 t transducer model 12yes 0 no vw Model V43 PXM2250 V44 PXM2260 V45 PXM2270 EL 6 bit mapped ccc CT denominator 1 or 5 fiif E I m sii Version Meter Conf
23. Parity g even h odd i none Data bits j 8 k 7 6 2B38 2B38 11065 11065 Reseved UNTIG bit bitmapped ea EE 2B39 2B39 11066 11066 e Wd bit mapped pp 100 DNP3 Lite ot ASCII Modbus 001 H1U Modbu mE 2B3A 2B3A 11067 11067 Current reply delay UINT16 0 to 65535 milliseconds Delay to reply a Modbus 1 transaction after receiv ing i 2B3B 2B3E 11068 11071 Reserved EE 2 Kap Re 2B3F 2B 8 11072 11129 Data and Control Block for Option Card 2 Register assignments Meaning of registers depend on installed depend on which type card see below of card is in the overla HATO A 9 eo ECL Xpansions tor Data and Control block tor Option Cara mE CI O ea 2B3F 2B3F 11072 11072 Digital Input States UINT16 bit mapped 22221111 Two nibble fields 2222 for input 2 and 1111 for input 1 Lsb in each nibble is the current state of the input Msb in each nibble is the oldest ist ate 2B40 2B40 11073 11073 Digital Relay States UINT16 bit mapped If a is 1 then state of 1 Relay 2 is unknown otherwise state of Relay 2 is informed in c 1 tripped O released If b is 1 then state of Relay 1 is unknown otherwise state of Relay 1 is informed in E tripped WWW eaton com IM02601001E C 47 I lt O O O c Un ER D 09 Un or D lt CU O L Writing a 1 in bit N turns relay N 1 ON this register is write able
24. Power Quality I O Energy Events and Setup pages The navigational buttons are in a row at the top of the screen Each section of the Home page also provides the hypertext links that also lead to more detailed information on the relevant page For example in the Setup section of the Home page below the phrases Setup Triggers and Setup Meter are hyperlinks Meter Main Page Controls and Indicators Navigational buttons to Time amp Events Indicator Link to various pages Home S106 AMEST Dec 28 2009 RSS Feed page E Event O B Power M A 2270 Meter Meter EE E A SS A ee _so 338 1 didi i 59 gt 317 336 _ Pa 50 236 P 50284 P 316 844 EN 50 231 Freq VLL VLN IA IB IC Hyperlink 59 976 Hz 317 418 V 183 261 V 50 301 A 50 300 A 50 295 A Demand Comparison Link to manual 0 448 A 0 001 Lag Power LL 59 85 GVA 48 66 W 140 7 var 75 76 A 28 kVA Peak 17W 129 var Trends and Min Max Present Waveform 27 63 kVA 18 39 W 131 2 var 50 28 ANE Setup Triggers 0 Active Event s View and create event triggers Setup Meter Configure and commission this meter Latest Active Events Common Controls for Selecting Information The user interface of the Meter page shares many features with the Power Quality and Energy pages These pages provide drop down menus and radio buttons to select the information to be viewed and options for viewing it For example in the Meter page the left side drop down menu sel
25. The Option Card is inserted in the Option Card slot in the back of the meter Note Remove Voltage Inputs and power supply terminal from the meter before performing card installation 1 Remove the screws at the top and the bottom of the Option Card slot cover 2 There is a plastic track on the top and the bottom of the slot The Option card fits into this track WARNING For safety remove these connections before installing Option Card GND L N Vref Va Vb Vc Slid lt A Card in Track 1 0 CARD 3 Slide the card inside the plastic track and insert it into the slot You will hear a click when the card is fully inserted Be careful it is easy to miss the guide track CAUTIONS Make sure the I O card is inserted properly into the track to avoid damaging the card s components For proper fit of cards and to avoid damaging the unit insert components in the following order 1 Option Card 2 Detachable terminal block 1 www eaton com IM02601001E 7 1 Using the I O Option Cards 3 Detachable terminal block 2 4 Communication connection for RS485 Port Configuring Option Cards CAUTION FOR PROPER OPERATION RESET ALL PARAMETERS IN THE UNIT AFTER HARDWARE MODIFICATION The meter auto detects any Option card installed in it You configure the Option card through the Power Xpert amp Ethernet Gateway card The following sections describe the available Option cards 7 2 IM02601001E www eaton com
26. Total Watts 1017 Total VARs 1019 Total VA 1021 Total PF 1023 Frequency 1025 In 1027 Watts Phase A 1029 Watts Phase B 1031 Watts Phase C 1033 VARs Phase A 1035 VARs Phase B 1037 VARs Phase C 1039 VA Phase A 1041 VA Phase B 1043 VA Phase C 1045 PF Phase A 1047 PF Phase B 1049 PF Phase C 1051 Demand la 1999 Demand Ib 2001 Demand Ic 2003 Demand Forward Watts 2005 Demand Lagging VARs 2007 Demand Reverse Watts 2009 Demand Leading VARs 2011 Demand VAs 2013 Avg Demand Lagging PF 2015 Avg Demand Leading PF 2017 Demand In 2019 Avg Demand Lagging PF Phase A 2051 Avg Demand Lagging PF Phase B 2053 Avg Demand Lagging PF Phase C 2055 Avg Demand Leading PF Phase A 2057 Avg Demand Leading PF Phase B 2059 Avg Demand Leading PF Phase C 2061 THD Van 5999 THD Vbn 6000 THD Ven 6001 THD la 6002 THD Ib 6003 THD Ic 6004 Parameter Name Display Name IHWLimitldent03 Value Limit ID 3 IHWLimitAboveSetpoint03 Value Limit 3 Above Setpoint IHWLimitAboveRetHyst03 Value Limit 3 Above Return Hysteresis IHWLimitBelowSetpoint03 Value Limit 3 Below Setpoint HWLimitBelowRetHyst03 Value Limit 3 Below Return Hysteresis www eaton com Base Address Discrete U Da 2 018 2 019 2 021 2 023 2 025 Units No no units No percent No percent No percent No percent IM02601001E Type UINT FLOAT FLOAT FLOAT FLOAT Size I 2 gt a A gt gt A Is Time Bit
27. amp OffsetB No No No No No No No No No No Wort No No No No No C 21 On False Yes Yes Yes Yes Yes Modbus Register Maps Swap Swap Divider Multiplier Date Alarm Writable Possible Values Not Assigned 0 Van 999 Vbn 1001 Ven 1003 Vab 1005 Vbc 1007 Vca 1009 la 1011 1b 1013 Ic 1015 Total Watts 1017 Total VARs 1019 Total VA 1021 Total PF 1023 Frequency 1025 In 1027 Watts Phase A 1029 Watts Phase B 1031 Watts Phase C 1033 VARs Phase A 1035 VARs Phase B 1037 VARs Phase C 1039 VA Phase A 1041 VA Phase B 1043 VA Phase C 1045 PF Phase A 1047 PF Phase B 1049 PF Phase C 1051 Demand la 1999 Demand Ib 2001 Demand Ic 2003 Demand Forward Watts 2005 Demand Lagging VARs 2007 Demand Reverse Watts 2009 Demand Leading VARs 2011 Demand VAs 2013 Avg Demand Lagging PF 2015 Avg Demand Leading PF 2017 Demand In 2019 Avg Demand Lagging PF Phase A 2051 Avg Demand Lagging PF Phase B 2053 Avg Demand Lagging PF Phase C 2055 Avg Demand Leading PF Phase A 2057 Avg Demand Leading PF Phase B 2059 Avg Demand Leading PF Phase C 2061 THD Van 5999 THD Vbn 6000 THD Ven 6001 THD la 6002 THD Ib 6003 THD Ic 6004 Modbus Register Maps Parameter Name Jisplay Name iHWLimitldent04 Value Limit ID 44 IHWLimitAboveSetpoint04 Value Limit 4 Above Setpoint HWLimitAboveRetHyst04 Value Limit 4 Above Return Hysteresis IHWLimitBelowSetpoint04 V
28. as shown to the left Voltage The Power Xpert Meter measures line to line and line to neutral voltages and calculates rms values over the period of one second The system average values are calculated for main voltage channels The Power Xpert Meter maintains a log of all voltage rms measurements date and time stamps This information is also available as a trend graph The min max and averages IM02601001E 9 1 Functions on the Web Server Pages 9 2 are recorded for each interval The following table shows the amount of data logged per Power Xpert Meter model Model 5 minute trends 15 minute trends 1 hour trends intervals intervals intervals 2250 90 days 2260 180 days 2270 All meter models also store 100 000 global event log entries and 1 000 000 global dead band log entries The most recent minimum and maximum values are detected for all the voltage channels and are logged with date and time stamps Current minimum and maximum values can be cleared by the user at any time through the right click menu After the current values are cleared the meter will begin calculating new minimum and maximum values Locating Voltage Information From the Meter page select Line Line or Line Neutral from the drop down box beside Voltage on the left side of the page Click one of the radio buttons below Voltage to select a specific voltage measurement e g VLL Average AB BC CA for Line Line or VLN Average AN BN CN for L
29. e f alarms are enabled for this data e fthe limits simply trigger an event not an alarm e fthe alarm event closes automatically when the value falls below the high limits or above the low limits If not a user must acknowledge the alarm to remove it from the active list In addition alarms and events will generate an RSS feed and can generate email and alerts See the Setup on the Web Pages chapter for setup details for triggers I O and E mail Out of Limits The Power Xpert Meter monitors and logs Out of Limit events for the following triggers DemandiaPeak ib Demand Ib Peak an VILA Average Demand Current 3 Phase Demand Forward Watts Avg Demand ib Demand In Peak Demand Net VARs Demand Sum VARs Frequency PF App Phase A PF Apparent Peak Demand Amps Avg Peak Demand Forward Watts Peak Demand Lagging Peak Demand Leading Peak Demand Net VARs VARs VARs 9 12 IMO2601001E www eaton com Functions on the Web Server Pages Peak Demand Net Watts Peak Demand Reverse Peak Demand Sum VARs Watts Peak Demand Sum Watts Peak Demand VAs Phase Angle la Phase Angle Ib Phase Angle Ic Phase Angle Vab Phase Angle Vbc Phase Angle Vca Apparent Power Phase A Apparent Power Phase B Apparent Power Reactive Power Phase B Reactive Power Phase C Percent THD Vcn Real Power PhaseC Real Power o In addition some of the I O cards have hardware out of limits Refer to chapter 10 Setup on the
30. eter 2000 Gateway Card device history 10 222 50 94 When you subscribe to a feed it is automatically added Displaying 40 40 d can be viewed in Internet Create in Feeds Cautionary Alarm on PX Today September 11 2009 4 minutes a Source Device PXM2260 Met Description Alarm Inactive Value false Timestamp 2009 09 11T15 00 55Z Event ID 1852802 ACK Status Closed Condition Raised false User Note Alarm auto closed due to condition clearing v New fold m ve Closed Cleared es c Your computer will periodically check online for updates to subscribed Event Alarm Name A Restart is Pe feeds even when Intemet Explorer is not running What s a feed Filter by category Measure Alarm 36 The RSS feed subscription appears in Internet Explorer 7 under Favorites in the Feeds tab Each event is shown as an individual feed Clicking a feed launches the RSS feeds page from which you can view event details Clicking an event on the RSS feeds page launches the meter s Home web page The event information can be sent to one or more recipients as an email message The Out of Limits Triggers Page m Login o 3 Quick Setup GJ Alarm Triggers 5 Out Of Limits Category 5 Alarm on Value o 3 Meter Setup amp Commissioni o 7 System o 3 Diagnostics Measure Upper Critical Value Upper Cautionary Message Upper Cautionary Value Lower Cautionary Message Lower
31. o E Meter Setup amp Commissioni l s Sub Interval Cd Metering 3 Demand o 3 Communications o 3 Option Cards TN Save Restore Settings o 7 System o 3 Diagnostics Communications Settings Setup on the Web Server Pages Under Communications you can set the serial communications parameters the email settings including the mail server and recipients as well as the setup parameters for SNMP Communications Settings Com 2 Setup You can set the protocol Modbus address baud rate response delay parity and stop and data bits for the RS 485 serial connection The protocol is selectable between Mod bus RTU Modbus ASCII or DNP IM02601001E 10 9 Setup on the Web Server Pages Serial Communications Setup Page Setup Home Meter Power Quality Enersy 1 0 E Serial Communications Edit Quick Setup om 2 5 Meter Cy Network Protocol Modbus RTU v ru sf TN Out Of Limits ee 5 Alarm on Value Baud 9600 E Meter Setup amp Commissioni gv CT Security Response Delay lo msec D dixe ami Parity Hone 3 Access Control o 7 Metering Stop Bits 1 Y Demand Data Bits 8 o CT Communications Y Com 2 Setup Y E mail Setup 3 SNMP Setup e 3 Option Cards 3 Save Restore Settings o EJ System o 3 Diagnostics Communications Settings E mail Setup The PXM 2000 meter provides a highly configurable capability to report on meter activ ity via email This is j
32. 23 2 23 4 23 9 23 6 23 7 23 8 2319 237A 9046 9048 9050 9052 9054 9056 9058 9060 9062 9064 9066 9068 9070 9072 9074 9076 9078 9079 9080 9081 9082 9083 9084 9051 Negative Watts Phase B Maximum Avg FLOAT 9999 M to 9999 Demand M 9057 Negative VARs Phase B Maximum Avg FLOAT 9999 M to 9999 Demand M 9059 Negative VARs Phase C Maximum Avg FLOAT 9999 M to 9999 VARs Demand M 9061 VAs Phase A Maximum Avg Demand FLOAT 9999 M to 9999 MI 9063 VAs Phase B Maximum Avg Demand FLOAT 9999 M to 9999 MI 9065 VAs Phase C Maximum Avg Demand FLOAT 9999 M to 9999 M 9067 Positive PF Phase A Maximum Avg FLOAT 1 00 to 1 00 Demanc 9069 Positive PF Phase B Maximum Avg FLOAT 1 00 to 41 00 BB 9071 Positive PF Phase C Maximum Avg FLOAT 1 00 to 1 00 Demanc 9073 Negative PF Phase A Maximum Avg FLOAT 1 00 to 41 00 Demand 9075 Negative PF Phase B Maximum Avg FLOAT 1 00 to 41 00 Demand 9077 Negative PF Phase C Maximum Avg FLOAT 1 00 to 1 00 Demand 90 8 Volts A N THD Maximum UINT16 0 to 9999 9079 Volts B N THD Maximum UINT16 0 to 9999 9081 Amps A THD Maximum UINT16 0 to 9999 9082 Amps B THD Maximum UINT16 0 to 9999 9083 Amps C THD Maximum 9047 Positive VARs Phase C Maximum Avg FLOAT 9999 M to 9999 VARs Demand M 9049 Negative Watts Phase A Maximum Avg FLOAT 9999 M to 9999 watts Demand M watts watts 9053 Negative Watts
33. 3 Format Parameter 21617 No no units UINT 2 No No No No uint16 1 int16 2 uint32 4 int32 8 float32 16 www eaton com IM02601001E C 13 Modbus Register Maps Parameter Name Display Name Base Address Discrete Units Type Size Is Time Bit Swap Swap Divider Multiplier Date Alarm On Writable Possible Values D based byte amp OffsetBytes Word nec False mSourceRegOutput3 Value source Measure for Output 3 2 618 No no units UINT 2 No No No Yes Not Assigned 0 Van 999 Vbn 1001 Vcn 1003 Vab 1005 Vbc 1007 Vca 1009 la 1011 1b 1013 Ic 1015 Total Watts 1017 Total VARs 1019 Total VA 1021 Total PF 1023J Frequency 1025 In 1027 Watts Phase A 1029 Watts Phase B 1031 Watts Phase C 1033 VARs Phase A 1035 VARs Phase B 1037 VARs Phase C 1039 VA Phase A 1041 VA Phase B 1043J VA Phase C 1045 PF Phase A 1047 PF Phase B 1049 PF Phase C 1051 Demand la 1999 Demand Ib 2001 Demand Ic 2003 Demand Forward Watts 2005 Demand Lag ging VARs 2007 Demand Reverse Watts 2009 Demand Leading VARs 2011 Demand VAs 2013 Avg Demand Lagging PF 2015 Avg Demand Leading PF 2017 Demand In 2019 Avg Demand Lagging PF Phase A 2051 Avg Demand Lag ging PF Phase B 2053 Avg Demand Lagging PF Phase C 2055 Avg Demand Leading PF Phase A 2057 Avg Demand Leading PF Phase B 2059 Avg Demand Leading PF Phase C 2061 THD Van 5999 THD Vbn 6000 THD Vcn 6001 THD la 6002 THD Ib 6003 THD Ic 6004
34. 3 adjacent registers 2 bytes each First lowest addressed register high byte is year 0 99 low byte is month 1 12 Middle register high byte is day 1 31 low byte is hour 0 23 plus DST bit DST daylight saving time bit is bit 6 0x40 Third register high byte is minutes 0 59 low byte is seconds 0 59 For example 9 35 07AM on October 12 2049 would be 0x310A 0x0C49 0x2307 assuming DST is in effect IM02601001E C 65 Modbus Register Maps All registers not explicitly listed in the table read as 0 Writes to these registers will be accepted but won t actually change the register since it doesn t exist 2 Meter Data Section items read as 0 until first readings are available or if the meter is not in operating mode Writes to these registers will be accepted but won t actually change the register d Register valid only in programmable settings update mode In other modes these registers read as O and return an illegal data address exception if a write is attempted 4 Meter command registers always read as 0 They may be written only when the meter is in a suitable mode The registers return an illegal data address exception if a write is attempted in an 5 D Is incorrect a valid response is returned but the command is not executed Use 5555 for the password if passwords are disabled in the programmable settings 6 M denotes a 1 000 000 multiplier 7 Each identifier is a Modbus register For entities that occupy multiple registers FLOAT S
35. 5 LH y Y Y y Press Enter Use buttons to set Ct n value The Ct d cannot be changed Use buttons to select scaling www eaton com IM02601001E 6 7 Using the PXM 2000 Series Configuring PT Setting The PT Setting has three parts Pt n numerator Pt d denominator and Pt S scaling 1 Press the Enter button when Pt is in the A window The PT n screen appears You can either Change the value for the PT numerator Access one of the other PT screens by pressing the Enter button press Enter once to access the Pt d screen twice to access the Pt S screen a To change the value for the PT numerator or denominator From the Pt n or Pt d screen Use the Down button to select the number value for a digit Use the Right button to move to the next digit b To change the value for the PT scaling From the Pt S screen Use the Right button or the Down button to choose the scaling you want The Pt S setting can be 1 10 100 or 1000 NOTE If you are prompted to enter a password refer to the instructions earlier in this chapter 2 When the new setting is entered press the Menu button twice 3 The STOR ALL YES screen appears Press Enter to save the new PT setting Example Settings 2177 1277 Volts Pt n value is 277 Pt d value is 277 Pt S value is 1 14 400 120 Volts Pt n value is 1440 Pt d value is 120 Pt S value is 10 138 000 69 Volts Pt n value is 1380 Pt d value is 69 Pt S value is 100 345 000 115 Volts P
36. 64 64 64 64 48 2 4 4 Is Time Bit Swap amp OffsetB No No No No No No Is Time Bit Swap stamp OffsetBytes No No No No No No No No No No No No No No No No Modbus Register Maps Swap Divider Multiplier Date Alarm On Writable Possible Values Wort No No No Swap Divider Multiplier Date Alarm On Writable Spec False Words No No No No No No No No False Yes Yes Yes No No Yes No No Yes No No Not Assigned 0 Van 999 Vbn 1001 Vcn 1003 Vab 1005 Vbc 1007 Vca 1009 la 1011 1b 1013 Ic 1015 Total Watts 1017 Total VARs 1019 Total VA 1021 Total PF 1023 Frequency 1025 In 1027 Watts Phase A 1029 Watts Phase B 1031 Watts Phase C 1033 VARs Phase A 1035 VARs Phase B 1037 VARs Phase C 1039 VA Phase A 1041 VA Phase B 1043 VA Phase C 1045 PF Phase A 1047 PF Phase B 1049 PF Phase C 1051 Demand la 1999 Demand Ib 2001 Demand Ic 2003 Demand Forward Watts 2005 Demand Lag ging VARs 2007 Demand Reverse Watts 2009 Demand Leading VARs 2011 Demand VAs 2013 Avg Demand Lagging PF 2015 Avg Demand Leading PF 2017 Demand In 2019 Avg Demand Lagging PF Phase A 2051 Avg Demand Lag ging PF Phase B 2053 Avg Demand Lagging PF Phase C 2055 Avg Demand Leading PF Phase A 2057 Avg Demand Leading PF Phase B 2059 Avg Demand Leading PF Phase C 2061 THD Van 5999 THD Vbn 6000 THD Vcn 6001 THD la 6002 THD Ib 6003 THD Ic 60
37. 9D 1F5 38030 80 Negative Power Factor 3 Ph Minimum OA 1 00 to 1 00 none JEE 1F62 8034 8035 Neutral Current Minimum Avg Demand FLOAT Oto 9999M fmps SR 2 O 04 9036 903 Positive Watts Phase A Minimum Avg OA 9999 M to 9999 watts Demand M O Be OD 06 8038 8039 Positive Watts Phase B Minimum Avg OA 9999 M to 9999 watts Demand M Di 58 8040 804 Positive Watts Phase C Minimum Avg OA 9999 M to 9999 watts Demand M TS og OA 304 304 Positive VARs Phase A Minimum Avg OAT F9999 M to 9999 VAHs Demand M OB O 3044 3045 Positive VARs Phase B Minimum Avg OA 9999 M to 9999 VARs Demand M O a 6D O 3046 3047 Positive VARs Phase C Minimum Avg OA 9999 M to 9999 VARS Demand M O 10 8048 8049 Negative Watts Phase A Minimum Avg OA 9999 M to 19999 watts Demand M A f f 8050 805 Negative Watts Phase B Minimum Avg OA 9999 M to 9999 atts T 2 805 805 Negative Watts Phase C Minimum Avg OA 9999 M to 9999 Iwatts Demand M ps 5 16 3054 8055 Negative VARs Phase A Minimum Avg OA 9999 M to 9999 VARs Demand M O l TY 8 8056 8057 Negative VARs Phase B Minimum Avg OA 9999 M to 9999 VARs Demand M 19 IA 8058 8009 Negative VARs Phase C Minimum Avg OAT F9999 M to 9999 VARs Demand M oT 53 B 1 3060 306 VAs Phase A Minimum Avg Demand OA 9999 IV 9999 IVAs MS 2 L f 306 306 VAs Phase B Minimum Avg Demand OA 9999 M 9999 VAs yy ri 80 8064 8065 VAs Phase C Minimum Avg Demand OA 009 V 9999 VAs OS f
38. Boot up 7 No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No C 1 Modbus Register Maps Parameter Name mACVavgLNLongtermAvg Value mACIA Value mACIB Value mACIC Value mACIN Value mAClavg Value mACIAPeakDemand Value mACIBPeakDemand Value mACICPeakDemand Value mDemandla Value mDemandlb Value mDemandlc Value mDemandln Value mDemandlnPeak Value mPhaseAnglela Value mPhaseAnglelb Value mPhaseAnglelc Value mACIALongtermAvg Value mACIBLongtermAvg Value mACICLongtermAvg Value mACINLongtermAvg Value mACIAPeakDemandTime Value mACIBPeakDemandTime Value mACICPeakDemandTime Value mACINPeakDemandTime Value mWA Value mWB Value mWC Value mWtotal Value mVAA Value mVAB Value mVAC Value mVAtotal Value mVarA Value C 2 Display Name lavg Demand la Peak Demand lb Peak Demand lc Peak Demand la Demand Ib Demand lc Demand In Demand In Peak Phase Angle la Phase Angle Ib Phase Angle lc la Long term Average Ib Long term Average Ic Long term Average In Long term Average Time of Peak Demand la Time of Peak Demand Ib Time of Peak Demand Ic Time of Peak Demand In Real Power Phase A Real Power Phase B Real Power Phase C Real Power Apparent Power Phase A Apparent Power Phase B Apparent Power Phase C Apparent Power Reactive Power Phase A Base Address Discrete Units 0 based V L N Average Long term Average 4527 9002 9004 9006 901
39. Cautionary Value Lower Critical Message Lower Critical Value Hysteresis Recent Value Unit Enable Alarm Auto Closing IM02601001E Critical High Current Phase A 0 0 Caution High Current Phase A 0 0 Caution Low Current Phase A 0 0 Critical Low Current Phase A 0 0 1 0 0 55797 Disabled 10 5 Setup on the Web Server Pages In addition to setpoints and alarm messages you can also set the hysteresis This is set as a percentage and is used to dampen noise events caused by a value bouncing back and forth across a set point Out of Limits Setup Edit Page J Login e 7 Quick Setup L2 Alarm Triggers 5 Out Of Limits 3 Alarm on Value o CI Meter Setup amp Commissioni e 7 System o 3 Diagnostics Recent Value 0 557761 Alarm on Value Use the Alarm on Value Setup page to configure device option card or communica tions status event triggers You can configure if such events are to be treated as alarms what the alarm levels are the messages associated with the events the limit values and if the alarms are to be autoclosing These alarms include Restart is pending e Modbus RTU communications failure e Alarms based on the state of digital inputs 10 6 IMO2601001E www eaton com Setup on the Web Server Pages Alarm on Value Setup Page 8 05 AM EDT Jul 31 2009 Power Xpert E Ten Event Power Xpert 2260 Meter Meter power auatty ene
40. Current Date and Time TSTAMP KE 90 119F 119F 4512 4512 Current Day of Week UINT16 1 Sun 2 Mon etc Ee e D Hc er un 176F 176F 6000 6000 Volts AN THD UINT16 0 to 10000 0 01 1770 1770 6001 6001 Volts B N THD UINT16 0 to 10000 0 01 1771 1771 6002 6002 Volts C N THD UINT16 0 to 10000 0 01 1772 172 6003 6003 Amps A 96THD UINT16 0 to 10000 0 01 dia iis 6004 6004 Amps B THD UINT16 0 to 10000 0 01 1774 1774 6005 6005 Amps C THD UINT16 0 to 10000 0 01 www eaton com IM02601001E C 33 Modbus Register Maps 1775 179 6000 6045 Phase A Voltage harmonic magnitudes UINT16 0 to 10000 0 01 179D 1704 6046 6085 Phase A Voltage harmonic phases SINT16 1800 to 1800 0 1 degree 0 01 0 1 degree 1765 17EC 6086 6125 Phase A Current harmonic magnitudes UINT16 0 to 10000 17ED 1814 61270 6165 Phase A Current harmonic phases SINT16 1800 to 1800 Phase C Current harmonic magnitudes 18B5 18DD 1905 18DC 1904 192C 6326 6366 6406 6365 6405 6445 0 01 0 1 degree 0 01 UINT16 0 to 10000 Phase C Current harmonic phases SINT16 1800 to 1800 Wave Scope scale factor for channel Va UINT16 0 to 32767 Wave Scope scale factors for channel b UINT16 0 to 32767 Wave Scope scale factors for channels Vb UINT16 0 to 32767 and lb Wave Scope scale factors for channels Vc UINT16 0 to 32767 and Ic Volts A N Minimum Volts B N Minimum Volts C N Minimum Volts A B Minimum Volts B
41. Electrical Installation 6 Service Delta 3 Wire with 2 PTs 2 CTs A B C B A n ED Y a GND e NAL sal labs IG Power Suppl H NO pply EN i Viet VW VM V T A B C C C I Or fe B A B A Select 2 C7 DEL 2 CT Delta from the N Meter s Front Panel Display See Chapter 6 Not connected to meter 4 14 IMO2601001E www eaton com Electrical Installation 7 Service Delta 3 Wire with 2 PTs 3 CTs Power Supply C C B z A B A Select 2 1 DEL 2 CT Delta from the e Meter s Front Panel Display See Chapter 6 Not connected to meter NOTE The third CT for hookup is optional and is for Current Measurement only www eaton com IM02601001E 4 15 Electrical Installation 8 Service Current Only Measurement Three Phase GC gt L Power Suppl NO pply d VRef a 20VAC B 4 Minimum v y y N A B C Select 3 EL LUSE 3 Element Wye from the Meter s Front Panel Display See Chapter 6 For improved accuracy this connection is recommended but not required 4 16 IMO2601001E www eaton com Electrical Installation 9 Service Current Only Measurement Dual Phase GND Power L f Supply e 20VAC Minimum IN A E Select 3 EL LUSE 3 Element Wye from the Meter s Front Panel Display See Chapter 6 For improved accuracy this connection is recommended but not required www eaton com 1M02601001E 4 17 Electrical Installation 1
42. Format for Limits Base Address Discrete Units 0 based 2 618 No no units No no units No no units 21523 No no units IM02601001E Type UINT FLOAT FLOAT UINT Size 2 4 4 2 Is Time Bit Swap bytes stamp Offset Bytes No No No No No No No No Swap Divider Multiplier Date Alarm On Writable Possible Values Words No No No No Spec False www eaton com Yes Yes Yes No Not Assigned 0 Van 999 Vbn 1001 Ven 1003 Vab 1005 Vbc 1007 Vca 1009 la 1011 Ib 1013 Ic 1015 Total Watts 101 7 Total VARs 1019 Total VA 1021 Total PF 1023 Frequency 1025 In 1027 Watts Phase A 1029 Watts Phase B 1031 Watts Phase C 1033 VARs Phase A 1035 VARs Phase B 1037 VARs Phase C 1039 VA Phase A 1041 VA Phase B 1043 VA Phase C 1045 PF Phase A 1047 PF Phase B 1049 PF Phase C 1051 Demand la 1999 Demand Ib 2001 Demand Ic 2003 Demand Forward Watts 2005 Demand Lagging VARs 2007 Demand Reverse Watts 2009 Demand Leading VARs 2011 Demand VAs 2013 Avg Demand Lagging PF 2015 Avg Demand Leading PF 2017 Demand In 2019 Avg Demand Lagging PF Phase A 2051 Avg Demand Lagging PF Phase B 2053 Avg Demand Lag ging PF Phase C 2055 Avg Demand Leading PF Phase A 2057 Avg De mand Leading PF Phase B 2059 Avg Demand Leading PF Phase C 2061 THD Van 5999 THD Vbn 6000 THD Ven 6001 THD la 6002 THD Ib 6003 THD Ic 6004 uint16 1 int16 2 uint32 4 i
43. IP Hostname The PXM 2000 meter supports the following types of option cards Digital Output Relay Contact Digital Input Card Pulse Output Solid State Relay Contacts Digital Input Card e mA Output Card e 20mA Output Card Electrical specifications and installation information for each card is covered in Chapter 7 Digital Output Relay Contact Digital Input Card The Relay Output Digital Input Option Card has e Two relay contact outputs for load switching e Two wet dry contact sensing digital inputs e Accumulators in the software which count the transitions of the Inputs and Outputs A typical use of this card is to monitor the status of circuit breakers or relays Important First use the Hardware Limits Edit screen to set up the limits you want to assign to an Output You can can use the Hardware Limits Edit screen to configure up to eight limits When configuring this page keep the following in mind Channel selects the electrical parameter through the Set Limit Channel dialog box The various electrical measurements from the meter are grouped under the categories of Demand Reading and Total Harmonic Distortion THD IMO2601001E www eaton com WWW eaton com Setup on the Web Server Pages The Enabled check boxes activate the Above and Below settings When active the output is triggered for when that condition occurs Once active you can click any of the Setpoint and Hysteresis fields and edit
44. Label Relay 2 Label Relay 1 Open State Name Relay 1 Closed State Name Relay 2 Open State Name Relay 2 Closed State Name Relay 1 Accumulator Scaled Relay 2 Accumulator Scaled Relay 1 Delay to Operate Relay 1 Delay to Release Relay 2 Delay to Operate Relay 2 Delay to Release Relay 1 Accumulator Divisor Relay 2 Accumulator Divisor pase Address Discrete J D 21257 2 292 2 293 2 296 2 29 2 298 21299 2 302 2 303 2 480 21496 2 512 2 528 2 544 27560 215 6 21517 2 582 2 583 2 584 2 985 2 586 21987 Units NO no units NO no units NO no units NO no units No no units No no units No no units NO no units NO no units NO no units NO no units NO no units NO no units No no units No no units NO no units NO no units NO tenth seconds NO tenth seconds NO tenth seconds No tenth seconds No no units NO no units 1M02601001E ype STRING UINT UINT UINT UINT UINT UINT UINT UINT STRING STRING STRING STRING STRING STRING UINT UINT UINT UINT UINT UINT UINT UINT Ize hvte 16 2 Z Z al EN 02 ES 32 32 s lime bit No No No No No No No No No No No No No No No No No No No No No No No wap No No No No No No No No No No No No No No No No No No No No No No No wap OC No No No No No No No No No No No No No No No No No No No No No No No Divider
45. PF Phase C 2061 THD Van 5999 THD Vbn 6000 THD Ven 6001 THD la 6002 THD Ib 6003 THD Ic 6004 Parameter Name Display Name IHWLimitldent05 Value Limit ID 5 IHWLimitAboveSetpoint05 Value Limit 5 Above Setpoint IHWLimitAboveRetHyst05 Value Limit 5 Above Return Hysteresis IHWLimitBelowSetpoint05 Value Limit 5 Below Setpoint IHWLimitBelowRetHyst05 Value Limit 5 Below Return Hysteresis www eaton com Base Address Discrete bs 27036 2 037 2 039 2 041 2 043 Units No no units No percent No percent No percent No percent IM02601001E Type UINT FLOAT FLOAT FLOAT FLOAT Size i 2 gt a A Aa gt A Is Time Bit d H No No No No No Modbus Register Maps Swap Swap Divider Multiplier Date Alarm Writable Possible Values No No No No No WOFO No No No No No De Dr Yes Yes Yes Yes Yes C 23 Not Assigned 0 Van 999 Vbn 1001 Ven 1003 Vab 1005 Vbc 1007 Vca 1009 la 1011 1b 1013 Ic 1015 Total Watts 1017 Total VARs 1019 Total VA 1021 Total PF 1023 Frequency 1025 In 1027 Watts Phase A 1029 Watts Phase B 1031 Watts Phase C 1033 VARs Phase A 1035 VARs Phase B 1037 VARs Phase C 1039 VA Phase A 1041 VA Phase B 1043 VA Phase C 1045 PF Phase A 1047 PF Phase B 1049 PF Phase C 1051 Demand la 1999 Demand Ib 2001 Demand Ic 2003 Demand Forward Watts 2005 Demand Lagging VARs 2007 Demand Reverse Watts 2009 De
46. Pages Diagnostics 10 20 Firmware Configuration Page Meter time iF AM ier 10 01 2009 15 41 37 UTC E A I of 10 01 2009 11 41 37 EDT QA Lab CPO Enable 30 second auto refresh Firmware Configuration This page may be used to update the meter or network card with a new firmware image Click the browse button to select the file containing the new image After confirming your selection the process will begin First the file will be uploaded note closing your browser during this phase will likely terminate the upload then the meter or network card will begin the update After the upload phase this page will update every 30 seconds to display the update status Note After a successful update of the network card firmware youll be prompted to reboot the network card or you may check Reboot the network card when complete to skip the prompt The network card home page should automatically reload after the reboot completes but you may also ask the browser to reload it manually after the reboot Current network card firmware version 1 4 Current meter firmware version 14 Reboot the network card when complete L You can access the system log or a page that displays the names serial numbers and versions of the various components in the meter Diagnostics System Log The system log shows system events such as changes to settings firmware updates and meter restarts Each event carries a time and date
47. Phase B 1031 Watts Phase C 1033 VARs Phase A 1035 VARs Phase B 1037 VARs Phase C 1039 VA Phase A 1041 VA Phase B 1043 VA Phase C 1045 PF Phase A 1047 PF Phase B 1049 PF Phase C 1051 Demand la 1999 Demand Ib 2001 Demand Ic 2003 Demand Forward Watts 2005 Demand Lagging VARs 2007 Demand Reverse Watts 2009 Demand Leading VARs 2011 Demand VAs 2013 Avg Demand Lagging PF 2015 Avg Demand Leading PF 2017 Demand In 2019 Avg Demand Lagging PF Phase A 2051 Avg Demand Lagging PF Phase B 2053 Avg Demand Lagging PF Phase C 2055 Avg Demand Leading PF Phase A 2057 Avg Demand Leading PF Phase B 2059 Avg Demand Leading PF Phase C 2061 THD Van 5999 THD Vbn 6000 THD Vcn 6001 THD la 6002 THD Ib 6003 THD Ic 6004 Parameter Name Display Name iHWLimitldentO07 Value Limit ID 7 IHWLimitAboveSetpoint07 Value Limit 7 Above Setpoint HWLimitAboveRetHyst07 Value Limit 7 Above Return Hysteresis IHWLimitBelowSetpoint07 Value Limit 7 Below Setpoint HWLimitBelowRetHyst07 Value Limit 7 Below Return Hysteresis www eaton com Base Address Discrete U ba 2 054 2 055 2 05 2 059 2 061 Units No no units No percent No percent No percent No percent IM02601001E Type UINT FLOAT FLOAT FLOAT FLOAT Size I 2 gt gt Is Time Bit amp OffsetB No No No No No No No No No No Wort No No No No No er On False Yes Yes Yes Yes Yes C 25
48. Phase C Maximum Avg FLOAT 9999 M to 9999 Demand M 9055 Negative VARs Phase A Maximum Avg FLOAT 9999 M to 9999 Demand M VARs VARs VA VAS none none none none 0 01 0 01 9080 Volts C N THD Maximum UINT16 0 to 9999 0 01 0 01 0 01 UINT16 0 to 9999 0 01 Modbus Register Maps BEEN i Reserved Block Size 93 AA OOOO TAS www eaton com IM02601001E C OO 9 Modbus Register Maps 24B7 24B9 9400 9402 Volts AN Max Timestamp TSTAMP 1Jan2000 A A NEE 1Dec2099 74BA 24BC 9103 9405 Volts B N Max Timestamp TSTAMP 1Jan2000 7 sec n 2099 Bed E mw EEN CU ATA ATA E ARA A IE TT OI ICON PORRA eee TARA Lw wiww e E AA CIT TINA SAA Dec2099 3 1 2402 24D4 9427 9429 Positive Watts 3 Ph Max Avg Dmd TSTAMP 1Jan2000 sec Timestamp 31Dec2099 24Db 2407 9430 9432 Positive VARs 3 Ph Max Avg Dmd TSTAMP 1Jan2000 1 sec 3 Timestamp 31Dec2099 2408 24DA 9433 9435 Negative Watts 3 Ph Max Avg Dmd TSTAMP 1Jan2000 sec 3 Timestamp 31Dec2099 24DB 24DD 9436 9438 Negative VARs 3 Ph Max Avg Dmd TSTAMP 1Jan2000 sec 3 Timestamp 31Dec2099 24DE 24E0 9439 944 VAs 3 Ph Max Avg Dmd Timestamp STAMP 1Jan2000 LEE NNI 1Dec2099 24E1 24E3 9442 9444 Positive Power Factor 3 Ph Max Avg Dmd TSTAMP 1Jan2000 sec 3 Timestamp 31Dec2099 24E4 24E6 9445 9447 Negative Power Factor 3 Ph Max Avg TSTAMP 1Jan2000 sec Dmd Timestamp 31Dec20
49. Quick Setup o 7 Alarm Triggers Digital Input 1 Meter Setup amp Commissionin abet Input 1 o J Security m o CI Metering Closed State Name Closed 3 Communications H C Option Cards Open State Name Open O Hardware Limits EO Pulse Sensing J y Digital Inputs y Relay Outputs Accumulator Enabled 3 Save Restore Settings Tri Disabled v CJ System gt EI Hardware Accumulator Label Front Switch Acc System Firmware o 3 Diagnostics Divisor CA Accumulator Kt 0 8224 Digital Input 2 a liar ta l IM02601001E 10 13 Setup on the Web Server Pages 10 14 Use the Relay Outputs Setup Edit page to set the output behavior of the relays The count reflects the number of times the relay has energized You can define the labels state names operating delays and configure the accumulator The Divisor is a com pression factor for the accumulator and you can select 1 10 100 1000 10000 and 100000 For example if you choose a Divisor of 10 each time 10 state changes occur the accumulator count will increment by 1 Relay Output Setup Edit Page 1 Login Relay Output Setup Edit o 3 Quick Setup o 3 Alarm Triggers vus CT Meter Setup Relay 1 o 7 Security Label Relay 1 o 3 Metering e J Communications Closed State Name 1 Closed oa 7 Option Cards Open State Name I Open B Hardware Limits P Ci Digital Inputs Set Delay Tenth Seconds 111 y Relay Outputs 3 Save Restore Set
50. Vca 1009 la 1011 Ib 1013 Ic 1015 Total Watts 101 7 Total VARs 1019 Total VA 1021 Total PF 1023 Frequency 1025 In 1027 Watts Phase A 1029 Watts Phase B 1031 Watts Phase C 1033 VARs Phase A 1035 VARs Phase B 1037 VARs Phase C 1039 VA Phase A 1041 VA Phase B 1043 VA Phase C 1045 PF Phase A 1047 PF Phase B 1049 PF Phase C 1051 Demand la 1999 Demand Ib 2001 Demand Ic 2003 Demand Forward Watts 2005 Demand Lagging VARs 2007 Demand Reverse Watts 2009 Demand Leading VARs 2011 Demand VAs 2013 Avg Demand Lagging PF 2015 Avg Demand Leading PF 2017 Demand In 2019 Avg Demand Lagging PF Phase A 2051 Avg Demand Lagging PF Phase B 2053 Avg Demand Lag ging PF Phase C 2055 Avg Demand Leading PF Phase A 2057 Avg De mand Leading PF Phase B 2059 Avg Demand Leading PF Phase C 2061 THD Van 5999 THD Vbn 6000 THD Ven 6001 THD la 6002 THD Ib 6003 THD Ic 6004 Swap Divider Multiplier Date Alarm On Writable Possible Values OC No No No No No No No No C 11 No No Yes No No Yes No No true false uint16 1 int16 2 uint32 4 int32 8 float32 16 Modbus Register Maps Parameter Name Display Name Base Address Discrete Units Type Size Is Time Bit Swap Swap Divider Multiplier Date Alarm On Writable Possible Values D based byte amp OffsetBytes Word nec False mSourceRegOutput1 Value source Measure for Output 1 27606 No no units UINT 2 No No No Y
51. Web Server Pages for more information Alarm on Value The meter can issue alarms based on the value of a digital input from an option card if a Modbus RTU device experiences a communications failure or if a meter restart is pend ing Locating Events From the Events page you can view either currently active events or a log of all events that have occurred Click a specific event in the list to display the detailed information about that event at the bottom of the page You can acknowledge or clear either the cur rently selected event or all events www eaton com IM02601001E 9 13 Functions on the Web Server Pages 9 14 Events Page Power Xpert AQ Active Events 6 37 PM GMT Jul 07 2009 Event Power Xpert 2270 Meter Events Home Meter Power Quality Eneroy 1 0 Events Setup Print Heip P 228152 Critical High Avg Volts L L 2009 07 07 16 28 25 Ack Clear Event EET view Data Clear All Events Event Details Event ID Sequence Index Trigger Type Time Value Acknowledgment Status Condition Present Note 228152 0 Out of Limits 2009 07 07 16 2825 UTC Critical High Avg Volts L L 194 125 Not Acknowledged true IM02601001E Copyright 2003 Eaton Corporation All Rights Reserved WWW eaton com Setup on the Web Server Pages 1 De ON THE WEB SERVER PAGES Overvie
52. a scaled value Kh See Section 6 4 for values T s P Wat IR LED Light Pulses Through face plate 90ms LED y LED 4 OFF ON KYZ output Contact States Through Backplate NC A NC 7 NO IM02601001E www eaton com Isolation Overview and Specifications All Inputs and Outputs are galvanically isolated to 2500 Vac Environmental Rating Storage Operating Humidity Faceplate Rating Measurement Methods Voltage Current Power Update Rate Watts VAR and VA All other parameters Communication 20 to 70 C 20 to 70 C to 95 RH Non condensing NEMA12 Water Resistant Mounting Gasket Included True RMS Sampling at over 400 Samples per Cycle on All Channels Every 6 cycles e g 100 ms 60 Hz Every 60 cycles e g 1 s 60 Hz 1 second for current only measurement if reference voltage is not available Serial Communications Format 1 RS485 Port through Back Plate 2 Energy Pulse Output through Back Plate Protocols Com Port Baud Rate Com Port Address Data Format PXM 2000 Series Transducer Modbus RTU Modbus ASCII DNP 3 0 9 600 to 57 600 bps 001 247 8 Bit No Parity Default Initial Communication Baud 9600 See Chapter 5 Network Communications Format Connection Type Protocols Mechanical Parameters RJ45 10 100BaseT Ethernet Network Port Ethernet TCP IP Modbus TCP HTTP HTTPS NTP SMTP SNMP Dimensi
53. and RS485 KYZ Connection is shown in Figure 4 4 S Current Gills Nickel Plated Brass Stud Qp Gb C X C X amp eg d Y N Figure 4 1 CT Leads terminated to Meter 8 Screw for Lug Connection Wiring Diagrams are shown later in this chapter Communications Connections are detailed in Chapter 5 4 2 IMO2601001E www eaton com Electrical Installation CT Leads Pass Through No Meter Termination The second method allows the CT wires to pass through the CT Inputs without terminating at the meter In this case remove the Current Gills and place the CT wire directly through the CT opening The opening will accomo date up to 0 177 4 5mm maximum diameter CT wire CT Wire passing through meter Current Gills removed Figure 4 2 Pass Through Wire Electrical Connection www eaton com IM02601001E 4 3 Electrical Installation Quick Connect Crimp on Terminations For Quick Termination or for Portable Applications a 0 25 Quick Connect Crimp on Connectors can also be used Quick Connect Crimp on Terminations Figure 4 3 Quick Connect Electrical Connection 4 4 IMO2601001E www eaton com Electrical Installation Voltage and Power Supply Connections Voltage Inputs are connected to the back of the unit via a optional wire connectors The connectors accomodate AWG 12 26 0 129 3 31 mm2 RS485 and KYZ Pulse Output CAUTION Do not apply input or sup p
54. and safety notations in this docu ment are based on Eaton Electrical Inc and or Eaton Corporation s Eaton experi ence and judgment and may not cover all contingencies If further information is required an Eaton sales office should be consulted oale of the product shown in this literature is subject to the terms and conditions outlined in appropriate Eaton selling policies or other contractual agreement be tween Eaton and the purchaser THERE ARE NO UNDERSTANDINGS AGREEMENTS WARRANTIES EXPRESSED OR IMPLIED INCLUDING WARRANTIES OF FITNESS FOR A PARTICULAR PUR POSE OR MERCHANTABILITY OTHER THAN THOSE SPECIFICALLY SET OUT IN ANY EXISTING CONTRACT BETWEEN THE PARTIES ANY SUCH CONTRACT STATES THE ENTIRE OBLIGATION OF EATON THE CONTENTS OF THIS DOCU MENT SHALL NOT BECOME PART OF OR MODIFY ANY CONTRACT BETWEEN THE PARTIES In no event will Eaton be responsible to the purchaser or user in contract in tort including negligence strict liability or otherwise for any special indirect incidental or consequential damage or loss whatsoever including but not limited to damage or loss of use of equipment plant or power system cost of capital loss of power additional expenses in the use of existing power facilities or claims against the purchaser or user by its customers resulting from the use of the information recom mendations and descriptions contained herein Product Registration PLEASE REGISTER YOUR PRODUCT By r
55. have not programmed a con figuration for the card the unit will default to the following outputs Channel 1 Watts 1800 Watts gt 1mA Watts 1800 Watts gt 1mA Channel 2 VARs 1800 VARs gt 1mA VARs 1800 VARs gt 1mA Channel 3Phase A Voltage WYE 300 Volts gt 1mA Phase A Voltage Delta 600 Volts gt 1mA Channel 4Phase A Current 10 Amps gt 1mA www eaton com IM02601001E 7 7 Using the I O Option Cards Wiring Diagram 7 8 Analog Outputs 0 1 mA Channel Outputs 1 2 3 4 Bi R Common C Fig 7 5 4 Channel O 1mA Output Card IM02601001E www eaton com 20mA Output Card 4 Using the I O Option Cards The 20mA card transmits a standardized 0 20 mA signal This signal is linearly proportional to real time quantities measured by the meter The current sources need to be loop powered The outputs are electrically isolated from the main unit Specifications The technical specifications at 25 C at 5000 load are as follows Number of outputs Power consumption Signal output range Max load impedance Hardware resolution Effective resolution Update rate per channel Output accuracy Load regulation Temperature coefficient Isolation Maximum loop voltage Internal voltage drop Reset Default output value 4 single ended 1W internal 0 to 24 mA 850 Q 24VDC 12 bits 14 bits with 2 5kHz PWM 100ms 0 1 9o of output range 24mA 0 03 of o
56. is outputting a pulse every 1 8 kWh you would set the Accumulator Kt to be the value of the KYZ in this case either 1 8 or a ratio of that number The Set Limit Channel dialog box associates a meter measure like kW Demand or Phase B current with each of the outputs and gets a pulse train whose rate reflects the present value of that measure IMO2601001E www eaton com WWW eaton com Setup on the Web Server Pages Digital Input Setup Edit Page Login Digital Input Setup Edit e 3 Quick Setup amp Cl Alarm Triggers Pulse Input 1 Gd Meter Setup amp Commissioni Labet 1 e 7 Security o 3 Metering Closed State Name Closed o 3 Communications e C Option Cards Open State Name lOpen Digital Inputs Accumulator Enabled Y Pulse Outputs Y Save Restore Settings Trigger Input e L7 System o 7 Diagnostics Accumulator Label Divisor Accumulator Kt 0 8224 Pulse Innut 2 You can set up to four outputs for your card You can define the labels state names and configure the accumulator You can also specify the phase source and measurement Accumulators have both a compression factor and a device output ration setting The divisor is a compression factor for the accumulator and you can select 1 10 100 1000 10000 and 100000 For example if you choose a Divisor of 10 each time 10 state changes occur the accumulator count will increment by 1 The Accumulator Kt is the output
57. la minimum value Percent THD la minimum value Date Percent THD la maximum value Percent THD la maximum value Date m Percent THD Ib minimum value Percent THD Ib minimum value Date Percent THD Ib maximum value Percent THD Ib maximum value Date o Percent THD lc minimum value Percent THD lc minimum value Date Percent THD lc maximum value Percent THD lc maximum value Date Frequency minimum value Frequency minimum value Date Frequency maximum value Frequency maximum value Date Event 1 Latest Event 2 Event 3 Event 4 Event 5 Event 6 Event 7 Event 8 Event 9 Event 10 Base Address Discrete Units 0 based 25317 25320 29322 290229 20227 25330 209094 285390 2533 25340 25342 25345 2934 25390 29392 25390 20301 25360 29362 29365 25367 25400 20929 25650 25 79 25900 26025 26150 26275 26400 26525 No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No percent percent percent percent percent percent percent percent hertz hertz IM02601001E Type DATE FLOAT DATE FLOAT DATE FLOAT DATE FLOAT DATE FLOAT DATE FLOAT DATE FLOAT DATE FLOAT DATE FLOAT DATE FLOAT DATE STRING STRING STRING STRING STRING STRING STRING STRING STRING STRING Size bytes 6
58. mapped 275A 275A 10075 10075 Pulse Output Test Power UINT16 bit mapped 2 5BB 275E Reserved NENNEN 275F 275F Input 1 Accumulator Scaled 0 to 9999 2760 27 60 Input 2 Accumulator Scaled 0 to 9999 2761 2 61 10082 10082 Input 3 Accumulator Scaled 0 to 9999 2762 2 62 Input 4 Accumulator Scaled 0 to 9999 2 63 27 63 Output 1 Accumulator Scaled 0 to 9999 2764 2 64 Output 2 Accumulator Scaled 0 to 9999 2765 2 65 Output 3 Accumulator Scaled 0 to 9999 2166 2 66 Output 4 Accumulator Scaled 0 to 9999 2167 2790 10088 10129 Reserved D Analog Out 0 1mA Analog Qut 4 20mA Note www eaton com IM02601001E ddvvvvvv vvvvvvvvV resolution is 1 10 100 1000 10000 or 100000 counts Reserved 42 Block Size 58 Modbus Register Maps One bit for each output Bit 4 is for output 74 and bit 1 is for output 1 If a bitis set the output is closed other OD Writing 1 in bit N sets Pulse Output N 1 in test mode Writing 0 oth erwise reestablished the output in normal operation only while in privileged session When Reading this reports which Pulse Output is under test according to the bits set or cleared 1 under test normal This register is Write able in privileged session only Simulates constant Power for the Pulse Out put under test Format is same as Kt settings for Pulse Output V is raw value in Wh pulse from 0 to 9999 dd decimal point position
59. meter Note After you ve assigned an IP address it is visible from the front panel via the IP menu www eaton com IMO2601001E 10 3 Setup on the Web Server Pages Ethernet LAN Setup Edit Sow BhemetLANSepEdt 7 UC Quick Setup This page may be used to change various network configuration items on the gateway To save the changes click a Meter Apply Click Discard to cancel any unsaved changes and revert to the values stored in the gateway Any applied B Network changes will take effect immediately so ifthe IP address changes you ll need to connect your browser to the new o 7 Alarm Triggers address o CI Meter Setup amp Commissioni Location i gt Gel System Who To Contact 7 Diagnostics asset MAC ID 00 20 85 00 FF FE Link Status Connected IP Address Use the following IP Address Subnet Mask Preferred DNS Server In addition to network settings you can also add location contact and asset ID informa tion Alarm Triggers The meter has two types of triggers Out of Limits triggers provide set points for issuing alarms for any of the supported electrical measurements You can also set a hysteresis value for these to avoid rapid multiple trips from a value that hovers around the set point Alarm on Value has a set of core reset or communications parameters and may in clude additional communication or reset parameters from option cards These param eters reflect device status a
60. meters with either the same or similar settings You can set up one meter download the configuration file to your local computer and then upload that same configuration file to other meters Files are downloaded to your browser s default down load folder To download the current configuration file Click Setup Expand Meter Setup amp Commissioning Click Save Restore Settings When prompted type the admin account User Name and Password Click the Save meter configuration button Click OK To upload a configuration file to a meter Click Setup Expand Meter Setup amp Commissioning 1 2 3 4 Click the Save and Restore Configuration button 5 6 7 Click Save Restore Settings Click the Browse button beside the Configuration file to restore field Select the configuration xm file Click OK C N W N gt Save Restore Configuration Page Meter time Di Power Xpert 07 23 2009 20 26 27 UTC TN e E Meter Location Enable 30 second auto refresh Save and Restore Configuration This page may be used to save and restore all the configuration items at once The save option allows the meter administrator to download an XML formatted file containing the configuration items At a later time the configuration items can be restored replacing the current items Save meter configuration Configuration file to restore IM02601001E 10 17 Setup on the Web Server Pages System Setup The S
61. mit and receive in order to properly align communication Because of this when you are communicating directly to a meter with a PC or a switch a straight cable can be used Using the PXM 2000 Gateway Card With the installation of the Power Xpert Meter 2000 Gateway Card you gain the capability of communicating over the Ethernet medium using EATON s Power Xpert architecture Hardware Connection 1 The Gateway Card comes pre installed in Slot 2 of the PXM Series meter Refer to instructions at the beginning of this chapter for card installation 2 Use a CAT 5 or better cable to connect to the Gateway Card The card auto detects cable type and will work with either straight or crossover cable RJ45 Cable connects here Fig 7 8 PXM 2000 Series Meter with Gateway Card 12 IM02601001E www eaton com Using the I O Option Cards Performing Network Configuration As with the other Option cards the PXM 2000 auto detects the presence of the Gateway card You configure the Gateway card through the Ethernet connection using the Power Xpert webpage See Chapter 10 for instructions www eaton com IM02601001E 13 Using the I O Option Cards 14 IM02601001E www eaton com Introduction to Web Server Pages a INTRODUCTION TO WEB SERVER PAGES This chapter is an introduction to the Power Xpert Meter web server pages and describes how to access basic information through them Each option provides easy access to basic metering functi
62. network Override network settings to as configuration settings Normal sign a private IP address Con mode figuration mode the port is set to 192 168 1 1 a 2 Reserved Reserved Normal behavior Reset the HTTP passwords to the defaults on boot up user and admin After a successful boot the switch should be turned back off before rebooting the card 4 Reserved Reserved s Reserved Reserved Normal behavior Reset the card to factory defaults on boot up After a successful boot the switch should be turned back off before rebooting the card 8 Reserved Reserved IM02601001E B 1 DIP Switch Description B 2 1M02601001E www eaton com C MODBUS REGISTER MAPS TCP IP Register Map Parameter Name VendorName Value ModelName Value DisplayName Value serialNumber Value softwareVersion Value iDeviceVoltsRating Value iNumPhases Value iFieldReplaceableUnit Value NominalFrequency Value iDeviceAmpsRating Value sstatus Value mACVAB Value mACVBC Value mACVCA Value mACVavgLL Value mACVAN Value mACVBN Value mACVCN Value mACVavgLN Value mPhaseAngleVab Value mPhaseAngleVbc Value mPhaseAngleVca Value mACVavgLLLongtermAvg Value www eaton com Modbus Register Maps The following pages define the Modbus Register Map for the Power Xpert Meter 2770 in the Wye configuration This is the largest of the Power Xpert Meter maps and the maps of other models and wiring configurations are subsets of this
63. of Shorting Blocks and Fuses for voltage leads and power supply to prevent hazard ous voltage conditions or damage to CTs if the meter needs to be removed from service CT grounding is optional NOTES e IF THE EQUIPMENT IS USED INA MANNER NOT SPECIFIED BY THE MANUFACTURER THE PROTECTION PROVIDED BY THE EQUIPMENT MAY BE IMPAIRED THERE IS NO REQUIRED PREVENTIVE MAINTENANCE OR INSPECTION NECESSARY FOR SAFETY HOWEVER ANY REPAIR OR MAINTENANCE SHOULD BE PERFORMED BY THE FACTORY DISCONNECT DEVICE The following part is considered the equipment disconnect device A SWITCH OR CIRCUIT BREAKER SHALL BE INCLUDED IN THE END USE EQUIPMENT OR BUILDING INSTALLATION THE SWITCH SHALL BE IN CLOSE PROXIMITY TO THE EQUIPMENT AND WITHIN EASY REACH OF THE OPERATOR THE SWITCH SHALL BE MARKED AS THE DISCONNECTING DEVICE FOR THE EQUIPMENT www eaton com IM02601001E 4 1 Electrical Installation CT Leads Terminated to Meter The PXM 2000 Series is designed to have Current Inputs wired in one of three ways Diagram 4 1 shows the most typical connection where CT Leads are terminated to the meter at the Current Gills This connection uses Nickel Plated Brass Studs Current Gills with screws at each end This connection allows the CT wires to be terminated using either an O or a U lug Tighten the screws with a 2 Phillips screwdriver The maximum installation torque is 1 Newton Meter Other current connections are shown in Figures 4 2 and 4 3 Voltage
64. only in privileged l l C O 2B42 2B42 11075 11075 Turn relay off UINT16 bit mapped Writing a Tin bit N turns relay N 1 OFF this register is write able only in privileged lon 2B47 2B4 resolution is 1 10 100 Disabled accumulators 2B4B 2B4B resolution is 1 10 100 Disabled accumulators TT E A A Digital UU Pulse Output Card Overlay Note ia I 2B3F 2B3F 11072 11072 Digital Input States UINT16 bit mapped dddd cccc bbbb aaaa Nibble dddd for input 4 cccc for input 3 bbbb for input 2 and aaaa for input 1 Within each field rightmost bit is the current state 1 closed open and bits at left are the older states 100ms apart historical states Example XXXX xxxx xxxx 0011 Current state of input 1 is closed before that it was closed too before that it was open and the oldest state known O 48 IM02601001E www eaton com 2B40 2B40 2B41 2B41 2B42 2B42 2B43 2B47 2B48 2B49 2BAA 2B4A 2BAB 2B4B 2BAU 2B4C 2BAD 2B4D 2BAE 2B4E 2B46 2B47 2B48 2B49 Digital Output States bit mapped 11073 11073 11074 11074 11075 11075 UINT16 UINT16 UINT16 Pulse Output Test Select bit mapped Pulse Output Test Power bit mapped 0 to 9999 0 to 9999 0 to 9999 0 to 9999 ddvvvvvv vvvvvvvvV counts Modbus Register Maps One bit for each output Bit 4 is for output 74 and bit 1 is f
65. serial Number 1276 No no units STRING 64 No No No No ooftwareVersion Value ooftware Version 2108 No no units STRING 48 No No No No iFieldReplaceableUnit Value Field Replaceable Unit 1605 No no units UINT 2 No No No Yes true false mUpdateRate Value Update Rate 27600 No millisec UINT No No No No onds mChannelDirection1 Value Channel 1 Bidirectional Enable 2 601 No no units UINT mChannelDirection2 Value Channel 2 Bidirectional Enable 2 602 No no units UINT mChannelDirection3 Value Channel 3 Bidirectional Enable 21603 No no units UINT mChannelDirection4 Value Channel 4 Bidirectional Enable 2 604 No no units UINT mFormatRegOutput1 Value Output 1 Format for Limits 27605 No no units UINT nM No No No Yes Bidirectional Positive Only No No No Yes Bidirectional Positive Only No No No Yes Bidirectional Positive Only No No No Yes Bidirectional Positive Only No No No No uint16 1 int16 2 uint32 4 int32 8 float32 16 mSourceRegOutput1 Value Source Measure for Output 1 27606 No no units UINT 2 No No No Yes Not Zu et Van 999 Vbn 1001 Ven 1003 Vab 1005 Vbc 1007 Vea 1009 la 1011 1b 1013 Ic 1015 Total Watts 1017 Total VARs 1019 Total VA 1021 Total PF 1023 Frequency 1025 In 1027 Watts Phase A 1029 Watts Phase B 1031 Watts Phase C 1033 VARs Phase A 1035 VARs Phase B 1037 VARs Phase C 1039 VA Phase A 1041 VA Phase B 1043 VA Phase C 1045 PF Phase A 1047 PF Phase B 1049 PF Phase C 1051 D
66. stamp and a severity level You can print the log by clicking the Print button however the printout contains a screen im age not the entire log To print an entire log you may need to use the scroll bar to reposi tion the log in the window and print it in sections Note You can tell who has made configuration changes to the meter from the log as it not only logs changes but the IP address of the computer from which the changes were made oystem Log Page System Log 894 10 02 2009 16 15 47 648258 Informational Rebooting card Meter module Phases to Display on Meter Front setto admin 299 999 45 81 895 10 02 2009 16 24 43212271 Informational 3 by Web Services admin 299 999 45 81 Web Services S Meter module Front Display Volts L N set to tueby admin 199 999 45 81 2 2 2 3 4553 T U Js c s 896 10 02 2009 16 24 43 455388 Informational Web Services admin 4199 999 45 81 Web Services A e Meter module Front Display Watt VARs PF setto true admin 99 999 45 81 7 2 2 2 3 675067 rma es ix i ol ET SUME I EET Ee by Web Services admin 199 999 45 81 Web Services Meter module Front Display V A Hz set to tue by admin 99 999 45 81 2 2 24 43 8657 formati wee a 898 10 02 2009 16 24 43 865706 Informational wy vice a min 299 999 45 81 Web Services Meter module Front Display Vah set to true by Web admin 299 999 45 81 Services admin 299 999 45 81 Web Services Saving configuration change s and restarting Meter mo
67. the Power Xpert Meter are trended and minimum and maximum values are logged with date and time stamps Trend View 6 24 PM GMT Aug 11 2009 Event O amp Power Xpert 2270 Meter C N THD Voltage Trend and Min Max THD Current PhaseA 19 83 PhaseB 100 00 PhaseC 100 00 THD Voltage AN O BN CN 8PM Max min Aw El cp EL e Present 1 20 Min 0 0 June 16 2009 01 52 42 AM 0000 8 11 09 Max 3 6 August 01 2009 08 03 12 AM 0000 Point Timestamp Avg 96 Min 96 Max 96 August 11 2009 06 10 PM GMT 1 19302 1 07000 1 34000 August 11 2009 05 55 PM GMT 1 16665 1 06000 1 66000 August 11 2009 05 40 PM GMT 1 14931 0 00000 1 30000 August 11 2009 05 25 PM GMT 1 27606 0 00000 2 40000 August 11 2009 05 10 PM GMT 2 21872 1 66000 2 52000 August 11 2009 04 55 PM GMT 2 18880 1 69000 2 58000 August 11 2009 04 40 PM GMT 2 22692 1 76000 2 42000 August 11 2009 04 25 PM GMT 2 23515 1 80000 2 42000 August 11 2009 04 10 PM GMT 2 31070 1 31000 2 71000 Armant 44 OOOO a2 cc ORs CRIT NAA AA a l Bde eee Copyright 2003 Eaton Corporation All Rights Reserved Harmonics View PXM2270 only The individual harmonics of the THD may be viewed for up to 40 har monics of the fundamental frequency Select this view from the upper center drop down list WWW eaton com IMO2601001E 9 7 Functions on the We
68. their contents Hardware Limits Edit Page Home Meter Power Quality Energy I O Events f Setup Print Help CH Login Hardware Limits Edit OK Cancel gt 7 Quick Setup Setpoint Setpoint Hysteresis Hysteresis Ke Alarm Triggers m EE Enabled Selling o ottusce Prima ofFullscale Prima Not x 0 0 0 0 9 7 Meter Setup amp Commissioni o 7 Security o 7 Metering 3 Communications 9 7 Option Cards TN Hardware Limits TN Digital Inputs 3 Relay Outputs y Save Restore Settings EI System C Hardware 3 system Firmware o 3 Diagnostics Voltage Current Frequency Power Power Total Power Factor THD 120 0 V 50A 60 0 Hz 0 0 W 0 0 W 1 0 100 0 You can use the Digital Input Setup Edit page to configure the relay inputs You can as sign labels for the open and closed states as well as the accumulator You can also dis able enable the accumulator as well as the set the state of the Trigger Input Disabled Open to Close Close to Open or Any Transition You can use the digital inputs to accept pulses from gas or water meters The divisor is a compression factor you can use to keep the results within the meter s ability to report Without the compression factor the accumulator might roll over either too much or too rapidly and lose history Digital Input Setup Edit Page Home Meter Power Quality Energy EJ Login Digital Input Setup Edit o
69. typical of the status emails sent by the meter Power Xpert Meter Status Report Device Power Xpert Meter 2000 Gateway Card 10 10 IMO2601001E www eaton com Setup on the Web Server Pages Time 09 24 2009 00 00 48 Serial Number 0036216826 MAC 00 20 85 00 FF EA Location Meter Location Mode PXM2270 The email also includes two comma separated files containing a trend log file with the last 1000 entries and an event log file with the last 100 entries E mail Setup Page EEE EA E Login E mail Setup Edit Quick Setu 3 3 S P This page may be used to change the email configuration for the gateway Configuration for ten i eter for each recipient to save the changes before moving on to the next recipient Click Cancel to car TN Network stored in the gateway o 7 Alarm Triggers Out Of Limits Global email configuration 5 Alarm on Value SMTP Server o o 7 Meter Setup amp Commissionir DESS A rd Security See Pf 5 Passwords l From Power XpertMeter eaton com 5 Access Control 7 EJ Metering 5 Demand o I Communications Recipient 1 configuration Y Com 2 Setup To e e 5 E mail Setup C Send on event active SNMP Setup C Send on event clear o 3 Option Cards C Send periodic status emails o Save Restore Settings 9 3 System Days between status emails 0 o 7 Diagnostics Time of day to send periodic status emails 0 Jo Communications Settings SNMP Setup The meter provi
70. volts volts volts none none none none none none Wh per energy format Wh per energy format VARh per energy format VARh per energy format VAh per energy format Wh per energy format Wh per energy format Wh per energy format Wh per energy format Wh per energy format Wh per energy format VARh per energy format VARh per energy format VARh per energy format VARh per energy format VARh per energy format VARh per energy format VAh per energy format WWW e amps 10 register 2047 2047 4095 3000 watts VARs VAs 3000 register 2047 3047 1 pf register 20 UL 0 45 or less 2047 60 2730 65 or more freq 45 register 4095 30 2047 0 4095 300 volts 300 register 2047 2047 CT numerator multi plier denominator PT numerator multi plier denominator 5 to 8 digits decimal point implied er energy format resolution of digit before decimal point units kilo or mega per energy format se note 10 aton com 9C7B 9C7D 9C7E 9C7F 9080 9081 9082 9083 9084 9085 9086 9087 9088 9089 9 A 9C7C 9C7D 9C7E 9C7F 9080 9081 9082 9083 9084 9085 9086 9087 9088 9CA2 AUU 90 40060 40061 VA hours Phase C cm 0 to 99999999 VAh per energy format 40062 40063 40064 40065 40066 40067 40067 VARs Phase C UINT16 0 to 4095 3000 register 2047 vas 2047 40068 40069 40070 40071
71. 0 9012 9014 5016 5018 5250 9202 9204 9208 0262 0338 0340 5342 5448 5450 5452 5454 5546 5949 9902 9009 6000 6002 6004 6006 6064 6066 6068 6070 6128 No volts No amperes No amperes No amperes No amperes No amperes No amperes No amperes No amperes No amperes No amperes No amperes No amperes No amperes No degrees phase No degrees phase No degrees phase No amperes No amperes No amperes No amperes No no units No no units No no units No no units No watts No watts No watts No watts No volt amperes No volt amperes No volt amperes No volt amperes No volt amperes reactive IM02601001E Type FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT DATE DATE DATE DATE FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT FLOAT Size bytes stamp Offset 4 oOo fF A A A A HF A A A A A A A A A A A A A A DD O O a Aa HF HF HF A A A gt A Is Time Bit No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No Swap Swap Divider Multiplier Date Alarm On Writable Possible Values Bytes Words No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No
72. 0 Service Current Only Measurement Single Phase N A e 8 GND L Power f Suppl NO J PP VRet 20VAC Boo Minimum T N A Select 3 El LUSE 3 Element Wye from the Meter s Front Panel Display See Chapter 6 For improved accuracy this connection is recommended but not required 4 18 IMO2601001E www eaton com Serial Communication Installation 5 SERIAL COMMUNICATION INSTALLATION PXM 2000 Series Communication The PXM 2000 Series provides RS485 communication speaking Modbus ASCII Modbus RTU and DNP 3 0 protocols RS485 KYZ Output Com 2 Com 2 provides a combination RS485 and an Energy Pulse Output KYZ pulse See Chapter 2 for the KYZ Out put Specifications see Chapter 6 for Pulse Constants Figure 5 1 Meter Back with RS485 Communication Installation RS485 allows you to connect one or multiple PXM 2000 Series meters to a PC or other device at either a local or remote site All RS485 connections are viable for up to 4000 feet 1219 20 meters www eaton com IM02601001E 5 1 Serial Communication Installation Figure 5 2 shows the detail of a 2 wire RS485 connection PXM 2000 Series Connection From other RS 485 device Connect e Ejto e to Shield SH to Shield SH Figure 5 2 2 wire RS485 Connection NOTES For All RS485 Connections Use a shielded twisted pair cable 22 AWG 0 33 mm2 or thicker and ground the shield preferably at one location only Es
73. 0 PM GMT 208 04695 208 03975 208 05428 July 14 2009 12 15 PM GMT 203 04766 208 03922 208 05452 July 14 2009 12 10 PM GMT 208 04960 208 04018 208 05933 July 14 2009 12 05 PM GMT 208 04577 208 03943 208 05424 July 14 2009 12 00 PM GMT 208 04518 208 03906 208 05249 July 14 2009 11 55 AM GMT 208 04421 208 03906 2038 043836 July 14 2009 11 50 AM GMT To To enis Teo ro 208 04502 ee 208 03915 208 05286 gt ao Copyright 2003 Eaton Corporation AN Rights Reserved The Power Xpert Meter measures per phase and average system current and calculates rms values over the period of one second The meter will maintain a log of all rms mea surements with date and time stamps The same information is available as a trend The most recent minimum and maximum values are detected for all the channels and are logged with date and time stamps Current minimum and maximum values can be cleared by the user at any time After the current values are cleared the meter will start calculating new minimum and maximum values IM02601001E 9 3 Functions on the Web Server Pages 9 4 Meter Page Current Display 1 43 PM GMT Jul 13 2009 Event O Power Xpert 2270 Meter Help Average Current Trend and Min Max Voltage Line Line VLL Average AB Q BC CA 76 530 A 76 640 A 76 645 A 76 572 A 218 826 A 10PM 12A
74. 00 0 XXXX 012X XXX 102XX XX 112 X XXX Disabled accumulators always read 0 li C 45 Modbus Register Maps 2 75 211 10072 10072 otatus of card UINT16 bit mapped Flag fields c calibration not good f configuration error 7 mmm Wm uw fe A HOP O O UEsDOUS xx _Q gt E ___ gt P trINt FQ A AAA Lc E li O lo Loo e Option Lard 2 Section 2AF7 2AF7 11000 11000 Class ID and card status UINT16 bit mapped undv cccctttt Flags active if bit is set u unsupported card n card need configura tion d card is using default configuration v communication with card is ok Field cccc class of installed card Field tttt type of card 2AB ZARB 2AF8 1 Wo n 11001 Reseved Head Read only le Sab EE dii eg 2B01 2B08 11010 11017 I number Bd pu LL Se al Number ASCII BERI ne INstaved Cdl 2B09 2B0A 11018 11019 Bacall 4 boc LN Version in ASCII of the Pu of the in EL Xx 2B30 11056 11057 Firmware Version a 4 char none Version of the BOOT firmware of the card left justified and padded with spaces Blank for boards without embed C 2B31 2B32 11058 11059 Firmware Version ASCII 4 char none Version of ee RUN firmware of the card left justified and padded with spaces Blank for SE en embed aec 46 IM02601001E www eaton com O Modbus Register Maps bit mapped pS 3400 c 19200 d 14400 e 9600 Stop bits T cleared 1 stop bit set 2 stop bits
75. 009 Timezone Eastern Daylight Time D Demand E a Set date time manually Com 2 Setup Ly E mail Setup 17 ate alc Io 3 SNMP Setup Synchronize with NTP Server oe J Option Cards D Analog Outputs 3 Save Restore Settings oe 7 System NTP Server IP hostname 2 oe J Hardware D Faceplate Display Set 3 Real time Clock Ia Cuctam Cirrmeaarn NTP Server IP hostname 1 NTP Server IP hostname 3 Hardware System Firmware The System Firmware page displays both the meter and gateway firmware version Firmware files can be downloaded from Eaton and the web page can be accessed through the Firmware Configuration page Click the Upgrade button to launch the Firmware Configuration page To download firmware trom the Firmware Configuration Page 1 Select the Reboot when complete checkbox 2 Click the new firmware image link which will direct the meter to the eaton com website where firmware files are stored Select the firmware type from the list Fill out the form if required Download the firmware to your local file system Click the Browse button Select the firmware file Click the Open button Note On rare instances such as a problem occurring in the firmware upgrade you may need to reload the meter page after rebooting the meter It can take around five minutes for values to display after a reboot So 299 UP uw WWW eaton com IMO2601001E 10 19 Setup on the Web Server
76. 027 VAs 3 Ph Maximum EE Demand 2343 2344 9028 9029 volts 2 A pa A AAA volts SSES I e T y EE amps amps mam pm mv je o or VERRE VARs 3 Ph Maximum Avg Ben 0 to 9999 M Demand Bul dd M to 9999 Dba adaa dil Power Factor 3 Ph Maximum Avg Beef N 00 to 41 00 Demand LL EM ho 1 Negative Power Factor 3 Ph Maximum FLOAT 1 00 to 41 00 none Avg Demand 234b 2346 9030 9031 2347 2348 9032 9033 Frequency Maximum Maximum ROAT Uni to 65 00 2349 234A 9034 9035 Neutral THIS Maximum Avg Demand E 0 to 9999 Eu NN 234B 2340 9036 9037 Positive Watts Phase A Maximum Avg 9999 M to 9999 iti FLOAT Demand M Positive Watts Phase B Maximum Avg FLOAT 9999 M to 9999 Demand M 9999 M to 9999 O Positive VARs Phase A Maximum Avg FLOAT Sep M to 9999 VARs Demand 234D 234E 9038 9039 234F 2350 9040 9041 Positive Watts Phase C Maximum Avg FLOAT Demand M 2351 2352 9042 9043 AA Til Til 2353 2354 9044 9045 Positive VARs Phase B Maximum Avg FLOAT Dee M to 9999 e O Demand C 38 IM02601001E www eaton com ado 2397 2398 233B 5 2350 Zoor 2361 2303 2365 2367 2369 230B 2360 236F 23 1 lala 2375 23 6 2377 23 8 23 9 237A 23 B 2383 2306 2358 235A 235C 299E 2360 2362 2364 2366 2368 236A 236C 236E 23 0
77. 04 Possible Values true false Modbus Register Maps Parameter Name mDI3Accum Value mDI4Accum Value mDI5Accum Value mDl6Accum Value mDI7Accum Value mDI8Accum Value mDigitallnput1 Value mDigitallnput2 Value mDigitallnput3 Value mDigitallnput4 Value minputlLabel Value minputZLabel Value minput3Label Value minput4label Value IInputl AccumLabel Value ilnput2AccumLabel Value ilnput3AccumLabel Value iInput4AccumLabel Value IInputlLowName Value ilnputTHighName Value ilnput2LowName Value ilnput2HighName Value ilnput3LowName Value ilnput3HighName Value ilnput LowName Value ilnput4 HighName Value ITriggerlnput1 Value iTriggerlnput2 Value iTriggerlnput3 Value iTriggerlnput4 Value IInputlAccumDivisor Value ilnput2AccumDivisor Value ilnput3AccumDivisor Value IInput4AccumDivisor Value C 16 Display Name Input 3 Accumulator Scaled Input 4 Accumulator Scaled Output 1 Accumulator Scaled Output 2 Accumulator Scaled Output 3 Accumulator Scaled Output 4 Accumulator Scaled Digital Input 1 Digital Input 2 Digital Input 3 Digital Input 4 Input 1 Label Input 2 Label Input 3 Label Input 4 Label Input 1 Accumulator Label Input 2 Accumulator Label Input 3 Accumulator Label Input 4 Accumulator Label Input 1 Open State Name Input 1 Closed State Name Input 2 Open State Name Input 2 Closed State Name Input 3 Open State Name Input 3 Closed State Name Input 4 Open State Name Input 4 Closed State Na
78. 1 16 hours e 2 Two days e 3 Eight days e 4 Four and a Half Weeks Demand Profile and Demand Comparison A table containing all of the plotted data points is beneath the plot You can scroll through this to view individual data points The Meter Page Graph selection drop down menu 6 07 PM GMT Jul 07 2009 EXN an 2 S p Pan and Power Xpert 2270 Meter zoom controls AB Line Line Voltage Trend and Min Max Line Line VLL Average 239 145 V AB Q BC Q CA Current 239 140 V 239 135 V Print and data 239 130 V export controls 239 125 V Average O Phase A O Phase B 239 115 V t 239 110 V a M V Neutral 8PM Frequency Frequency 47 99 Hz avg Max Min 239 120 V 10PM 12AM 2AM 4AM 6AM 8AM 104 7 6959 Guam RL en TE ae Present 237 8 V Min 0 0 V June 04 2009 03 11 23 PM 0000 Max 520 1 V June 05 2009 09 42 35 AM 0000 Timestamp Avg V Min V Max V July 06 2009 10 05 AM GMT 239 12611 239 11113 239 14143 July 06 2009 10 00 AM GMT 239 12863 239 11304 239 14162 July 06 2009 09 55 AM GMT 239 12573 239 11218 239 13977 July 06 2009 09 50 AM GMT 239 12557 239 11298 239 13927 July 06 2009 09 45 AM GMT 239 12698 239 11308 239 14098 July 06 2009 09 40 AM GMT 239 12708 239 11224 239 14038 July 06 2009 09 35 AM GMT 239 12721 239 11389 239 14157 July 06 2009 09 30 AM GMT 239 12509 239 11110 239 14000
79. 14 August 11 2009 03 40 AM GMT 123 52971 August 10 2009 03 40 AM GMT 117 10114 August 11 2009 03 45 AM GMT 123 52971 August 10 2009 03 45 AM GMT 117 10114 August 11 2009 03 50 AM GMT 123 51179 August 10 2009 03 50 AM GMT 117 07084 August 11 2009 03 55 AM GMT 123 51179 August 10 2009 03 55 AM GMT 117 07084 Auqust 11 2009 04 00 AM GMT 123 51179 Auqust 10 2009 04 00 AM GMT 117 07084 Copyright 2003 Eaton Corporation AM Rights Reserved While viewing the Demand Comparison page you can also select to compare the infor mation to previous time periods day to day Demand Comparison only week to week or month to month If you re comparing two specified time periods such as two different days a calendar control appears when you click either date Click a day in the calendar to select the beginning and ending dates in the comparison The lt and gt controls in the calendar move forward or backward one month The lt lt and gt gt controls move the calen dar forward or backward one year Locating Demand and Energy Information From the Energy page 1 Click a radio button on the left side of the page that represents the kind of Energy and Demand you wish to view 2 From the drop down box near the top of the page select either Energy and Demand Demand Profile or Demand Comparison The page will update to display the information selected The table shown below the graph shows ea
80. 15 VAR hours Toa SINTSZ 1099999999 VAR per energy format DER 0 516 1917 VA hours Tota Oto 99999999 WV per energy format O5ED 05 518 1519 W hours Received Phase A N O to 99999999 or O to Wh per energy format Bos EN Bid OSEF DSFO 920 15 W hours Received Phase B N O to 99999999 or Wh per energy format BEN lud age TTT ki 05 922 15 W hours Received Phase N O to 99999999 or Wh per energy format een ee UK omg TTT 025 W hours Delivered Phase A N O to 99999999 or Wh per energy format TT TTT UK age OSFO O5F6 520 1527 W hours Delivered Phase E N O to 99999999 or Wh per energy format TI lud ams TTT 529 W hours Delivered Phase N O to 99999999 or Wh per energy format TT ITT hemm TTT DOF9 OSFA 930 15 W hours Net Phase A N 99999999 to Wh per energy format TT ITT as F DOFB 05 932 15 W hours Net Phase B N 99999999 to Wh per energy format pS bam 30 IM02601001E www eaton com O O1 L Wu O1 L O Modbus Register Maps 05FD SFE 1534 1535 W hours Net Phase C INT32 99999999 to h per energy format 2 99999999 ESA OO por ES LES A ASE 0607 0602 1538 1530 Wrhours Total Phase E LSINT32 Dto 99999999 Wh per energy format 0605 0006 942 VAR hours Positive Phase A SINT32 0 99999999 VARh per energy format 0609 060A 946 1547 VAR hours Positive Phase SINT32 0 99999999 VARh per energy forma
81. 17 No DATE 6 Yes No No ymd No HMS mACVCA ValueMin Vca minimum value 25120 No volts FLOAT 4 No No No No mACVCA ValueMin Vca minimum value Date 25122 No DATE 6 Yes No No ymd No HMS mACVCA ValueMax Vca maximum value 25129 No volts FLOAT 4 No No No No mACVCA ValueMax Vca maximum value Date 29127 No DATE 6 Yes No No ymd No HMS mACVAN ValueMin Van minimum value 25130 No volts FLOAT 4 No No No No www eaton com IM02601001E C 5 Modbus Register Maps Parameter Name Display Name Base Address Discrete Units Type Size Is Time Bit Swap Swap Divider Multiplier Date Alarm On Writable Possible Values 0 based bytes stamp Offset Bytes Words Spec False mACVAN ValueMin Van minimum value Date 25132 No DATE 6 Yes No No ymd No HMS mACVAN ValueMax Van maximum value 25135 No volts FLOAT 4 No No No No mACVAN ValueMax Van maximum value Date 25137 No DATE 6 Yes No No ymd No HMS mACVBN ValueMin Vbn minimum value 25140 No volts FLOAT 4 No No No No mACVBN ValueMin Vbn minimum value Date 25142 No DATE 6 Yes No No ymd No HMS mACVBN ValueMax Vbn maximum value 25145 No volts FLOAT 4 No No No No mACVBN ValueMax Vbn maximum value Date 25147 No DATE 6 Yes No No ymd No HMS mACVCN ValueMin Vcn minimum value 25150 No volts FLOAT 4 No No No No mACVCN ValueMin Vcn minimum value Date 25152 No DATE 6 Yes No No ymd No HMS mACVCN ValueMax Ven maximum value 25159 No volts FLOAT 4 No No No No mACVCN ValueMax Vcn m
82. 1F205B8F 46596883 Warning IF vou install this root certificate Windows will automatically trust any certificate issued by this CA Installing a certificate with an unconfirmed thumbprint is a security risk IF you click Yes you acknowledge this risk Do you wart to install this certificate You are about to install a certificate From a certification authority C4 claiming to represent Powers pert 00 20 85 00 FF FE Root Certificate Authority Installation Certificate Import Wizard successfully stored Certificate Import Wizard X Completing the Certificate Import Wizard You have successfully completed the Certificate Import wizard You have specified the following settings Certificate Store Selected by User Trusted Root Certific Content Certificate anc 8 The certificate wizard displays a completed dialog Click Finish The Security Warn ing dialog box will appear Security Warning dialog box WWW eaton com 9 Click Yes to install the CA 10 A message box opens to verify that the import was successful Import Successful message box Certificate Import Wizard E 1 The import was successful 11 Click OK IM02601001E 11 5 Root Certificate Authority Installation 12 Click OK to close the dialog box The installation process is complete You can now access the meter using the https protocol for example https 192 168 1 1 Installing Root CA with Microsoft Interne
83. 1F81 182 8066 8067 Positive PF Phase A Minimum Avg FLOAT 4700 to 1 00 none O a 3 84 8068 8069 Sean Phase B Minimum Avg DA 1 00 to 1 00 none O a Demand 85 86 8070 807 Positive PF Phase C Minimum Avg OA 1 00 to 1 00 none S aa 87 38 807 807 OA 1 00 to 1 00 none Es ere E AA LA www eaton com IM02601001E C 35 Modbus Register Maps UIN UIN UIN e 0 to QQQO e O to OOOQ e 0 to QQQO e 0 to OOOQ e 0 to QQQO UIN UIN Amps A THD Minimum Amps B THD Minimum Amps C THD Minimum UNT puo por f f E E EE SA Block Size 9 8400 8402 Volts A N Min Timestamp TSTAMP 1Jan2000 1Dec2099 2002 20D4 8403 8405 Volts B N Min Timestamp TSTAMP 1Jan2000 E A ae 1Dec2099 20Db 20D7 8406 8408 Volts C N Min Timestamp TSTAMP 1Jan2000 LER RI 1Dec2099 2008 20DA 8409 8411 Volts A B Min Timestamp TSTAMP 1Jan2000 A A 1Dec2099 20DB 20DD 0412 8414 Volts B C Min Timestamp TSTAMP 1Jan2000 e A A 1 ac2099 20DE 20E0 045 8417 Volts C A Min Timestamp TSTAMP 1Jan2000 1 sec a 1 A QO 20E1 20E3 0418 8420 Amps A Min Avg Dmd Timestamp STAMP 1Jan2000 E A a 1Dec2099 20EA 20E6 0421 8423 Amps B Min Avg Dmd Timestamp STAMP 1Jan2000 LANES 1Dec2099 20E7 20E9 0424 8426 Amps C Min Avg Dmd Timestamp STAMP 1Jan2000 KS E ESSI 1Dec2099 20EA 20EC 0427 8429 Positive Watts 3 Ph Min Avg Dmd TSTAMP 1Jan2000 sec 3 Timestamp 31Dec2099 20ED 20E
84. 2 2009 01 25 AM EDT 0 00000 October 02 2009 01 40 AM EDT 0 00000 O Phase C Demand Comparison The Demand Comparison page is similar to the Demand Profile page but provides a graph you can use to compare two overlaid demand plots from selectable periods of time You can select to compare plots between Today and Yesterday his Week and Last Week This Month and Last Month e 2 different Days e 2 different Weeks e 2 different Months Peak demand is shown in the graph as a dashed line 9 10 IMO2601001E www eaton com Calendar Control 09 10 2009 Thu lt lt Sep2009 gt gt gt Sun Mon Tue Wed Thu Fri Sat uA AR AR Ee TE Song 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 WWW eaton com Functions on the Web Server Pages Demand Comparison Plot 7 28 PM GMT Aug 11 2009 Event Power Xpert 2270 Meter CO kVAh kVA KVARh KVAR Received Ne 6AM BAM 10AM 12PM EM 4PM 6PM Delivered 6AM BAM 10AM 12PM 2PM 4PM 6PM Net UD E DI El Print L O Sum Compare Today with Yesterday v Show Comparison Display Demand in Amps Phase A 08 10 2009 and 08 09 2009 O Phase B Timestamp Value W Timestamp Value W Phase C August 11 2009 03 30 AM GMT 123 55719 August 10 2009 03 30 AM GMT 117 13858 August 11 2009 03 35 AM GMT 123 52971 August 10 2009 03 35 AM GMT 117 101
85. 2000 Series Using the Main Menu 1 Press the Menu button The Main Menu screen appears The Reset Demand mode rStd appears in the A window Use the Down button to scroll causing the Reset Energy rStE Configuration CFG Operating OPr and Information InFo modes to move to the A window e The mode that is currently flashing in the A window is the Active mode which means it is the mode that can be configured MENU EMTE R MENU ENTE R MENU EHTE R CFE LOPr e rSkE For example Press Down Twice CFG moves to A window Press Down Twice OPr moves to A window NOTE If the PXM 2000 Meter has an Ethernet Gateway card there is an IP menu option after InFo mode Press Enter when IP is in the A window to see the IP Address The IP address is displayed with 4 characters to a line e g an IP address of 111 222 333 444 would appear as 111 2 22 33 3 444 Note that it may take 2 3 minutes after Power up for the IP Address to display 2 Press the Enter button from the Main Menu to view the Parameters screen for the mode that is currently active MENU ENTER MENU ENTER Using Reset Mode Reset Mode has two options did e Reset Demand rStd resets the Max and Min values no C no C Reset Energy rStE resets the energy accumulator fields n Press the Enter button while either rStd or rStE is in the A window Y gt Y gt The Reset Demand No or Reset Energy No screen appears e f
86. 2141 2143 0514 8516 Negative PF Phase C Min Avg Dmd TSTAMP 1Jan2000 sec 3 Timestamp 31Dec2099 2144 2146 0517 8519 Volts AN 9o THD Min Timestamp TSTAMP 1Jan2000 A A a 1Dec2099 2147 2149 0520 852 Volts B N THD Min Timestamp TSTAMP 1Jan2000 EUIS le JOO 214A 214C 0023 89525 Volts C N 96THD Min Timestamp TSTAMP 1Jan2000 ci EE ln Is 99 214D 214F 8926 8528 Amps A 96THD Min Timestamp TSTAMP 1Jan2000 mo i M e 0909 www eaton com IM02601001E C 37 Modbus Register Maps 2150 2152 0529 8531 Amps B THD Min Timestamp TSTAMP 1Jan2000 Amps C THD Min Timestamp TSTAMP 1Jan2000 1Dec2099 2193 2155 89392 8534 F ll 1Dec2 sec 3 QA A ee AH AAA AHHH cmmeenm II 0 EN MEME SSES ES O MATE ENER SE 2321 2328 9000 9001 Volts A N Maximum FLOAT 0 to 9999 M 232B 2320 9004 9005 Volts C N Maximum FLOAT 0 to 9999 M 232D 232E 9006 9007 FLOAT 0 to 9999 M 232F 2330 9008 9009 Volts B C Maximum FLOAT 0 to 9999 M 2331 232 9010 9011 Volts C A Maximum FLOAT 0 to 9999 M 2335 2336 9014 9015 0 to 9999 M Amps B Maximum Avg Demand FLOAT 2337 2338 9016 9017 Amps C Maximum Avg Demand FLOAT 0 to 9999 M 2339 233A 9018 9019 Positive Watts 3 Ph Maximum Avg FLOAT 0 to 9999 M 233B 2330 9020 9021 E VARs 3 Ph Maximum Avg FLOAT 0 to 9999 M 233D 233E 9022 9023 Neve Watts 3 Ph Maximum Avg BE 0 to 9999 M 233F 2340 9024 9025 2341 2342 9026 9
87. 5 0 90384 Aunust 11 2000 0425 PM GMT N 88384 N 85228 n 01044 Copyright 2003 Eaton Corporation AM Rights Reserved HINID On CO IND The Quality page contains information about the present power quality for PXM2260 and 2270 meters These meters calculate the following instantaneous values averaged over a period of 60 cycles e Percent THD of Current for Phases A B and C Percent THD of Voltage for Phases A B and C Using the drop down box above the graph you can select to view this information as a trend with minimum and maximum values or as harmonics Note The PXM2250 meter does not measure THD THD The Total Harmonic Distortion THD is the ratio expressed as a percentage of the rms value of the ac signal after the fundamental component is removed and inter harmonic components are ignored to the rms value of the fundamental The formula for THD is provided below The variables X and x may represent either voltage or current and may be expressed either as rms or peak values as long as all are expressed in the same fashion IMO2601001E www eaton com Functions on the Web Server Pages 9 THD x t 100 x 3 X x x where n is the highest harmanic number used X fundamental value of current or voltage x nth harmonic value of current or voltage Trend and Min Max View Like most other real time measures the THD Current and Voltage measurements in
88. 9 A MI 0 DB 0 DC 2012 2013 Negative VARs 3 Ph Average FLOAT 9999 M to 9999 TS MI 0 DD 07DE 2014 2015 VAs 3 Ph Average FLOAT 9999 M to 9999 o A MI 0 DF 07E0 2006 20107 Positive PF 3 Ph Average FLOAT 1 00 to 1 00 mme 0 2 O7E1 07E2 2018 2019 Negative PF 3 PF Average FLOAT 1 00 to 1 00 mme 0 2 07E3 07E4 2020 2071 Neutral Current Average FLOAT 0 to 9999 M EII O A DIER IER 2022 2023 Positive Watts Phase A Average FLOAT 9999 M to 9999 Se dE E 07E7 www eaton com 07E8 2024 07E9 07EA 2026 2027 Positive Watts Phase C Average FLOAT 9999 M to 9999 A V 9999 M to 9999 Positive Watts Phase B Average FLOAT OREM wats V 2025 watts IM02601001E _ IA C 31 Modbus Register Maps 0788 WEI 2028 2029 Positive VARs Phase A Average FLOAT o999Mto 9999_ VARS D T 7 E Peers per ic 1 17 IR w w pee ie 1 Tt p wcwiwer wr ewm TID Www Dade ieee 1 T M 07F5 O F6 2038 2039 Negative Watts Phase C Average FLOAT 9999 M to 9999 M 07F7 O F8 2040 2041 Negative VARs Phase A Average FLOAT 9999 M to 49999 M 07F9 O FA 2042 2043 Negative VARs Phase B Average FLOAT 9999 M to 9999 M M 07FB O FC 204 2045 Negative VARs Phase C Average FLOAT 9999 M to 9999 Ao 07FD 07FE 2046 2047 VAs Phase A Average FLOAT 9999 M to 9999 UIS M O7FF 0800 2048 2049 VAs Phase B Average FLOAT 9999 M to 9999 VAs
89. 99 24E7 24E9 9448 9450 Frequency Max Timestamp STAMP 1Jan2000 LAE NI 1Dec2099 24EA 24EC 9451 9453 Neutral Current Max Avg Dmd Timestamp TSTAMP 1Jan2000 LEE EN Dec2100 1 n 24ED 24EF 9454 9456 Positive Watts Phase A Max Avg Dmd TSTAMP 1Jan2000 sec 3 Timestamp 31Dec2099 24F0 24F2 9457 9459 Positive Watts Phase B Max Avg Dmd TSTAMP 1Jan2000 sec 3 Timestamp 31Dec2099 24F3 24F5 9460 9462 Positive Watts Phase C Max Avg Dmd TSTAMP 1Jan2000 sec 3 Timestamp 31Dec2099 24 6 24F8 9463 9465 Positive VARs Phase A Max Avg Dmd TSTAMP 1Jan2000 sec 3 Timestamp 31Dec2099 24F9 24FB 9466 9468 Positive VARs Phase B Max Avg Dmd TSTAMP 1Jan2000 sec 3 Timestamp 31Dec2099 24FC 24FE 9469 9471 Positive VARs Phase C Max Avg Dmd TSTAMP 1Jan2000 sec 3 Timestamp 31Dec2099 C 40 IM02601001E www eaton com AR 2902 25905 2908 250B 250E 2911 2014 2517 251A 2510 25920 2023 2026 2529 2520 Zur 2032 29399 s 2038 253B 2501 2504 2507 2504 250D 2910 2913 2516 2919 251C 251F 2022 2025 2028 252B 202E 2531 2534 2537 253A 253D 9472 94 5 94 8 9481 9484 948 9490 9493 9496 9499 9502 9505 9508 9511 9514 9517 9519 Volts A N THD Max Timestamp TSTAMP 1Jan2000 De 099 9520
90. C Minimum Volts C A Minimum Amps A Minimum Avg Demand Amps B Minimum Avg Demand FLOAT Amps C Minimum Avg Demand 192D 1954 6446 6485 0 1 degree 1999 1956 1957 1955 1956 1958 6486 6487 6488 6486 648 6489 1959 195A 6490 6491 195B PER 19DB 1A1B 1ABB 1A9B 199A 19DA 1A1A 1A5A 1A9A 1ADA 6492 6956 6620 6684 6 48 6812 6555 6619 6683 6 47 6811 68 5 800 800 800 800 8009 80 80 8015 80 C 34 IM02601001E In each group of 40 registers the first register represents the fundamental frequency or first harmonic the second represents the second harmonic and so on up to the 40th register which represents the 40th harmonic Harmonic magnitudes are given as of the fundamental magnitude Thus the first register in each group of 40 will typically be 9999 A reading of 10000 indicates invalid Convert individual samples to volts or amps V or A sample scale factor 1 000 000 samples update in conjunction with THD and harmonics samples not available all zeroes If THD not available Block Size 876 www eaton com Modbus Register Maps Lo ee ed du EE BE Demang Tl das ee al GNE QE ME 57 F58 3024 8025 WEE YARS 3 Ph Minimum Avg DAT 016 9999 V VARS T Demand DT eee ees A OB 9 8028 8029 Positive Power Factor 3 Ph Minimum OA SEIERE 00 none
91. D a V 040F 0410 1040 1041 VARs Phase C FLOAT M to 9999 Kc E A 0411 0412 1042 1043 VAs Phase A FLOAT a M to 9999 AA 0413 0414 1044 1045 VAs Phase B FLOAT a M to 9999 A 0415 0416 1046 1047 VAs Phase C FLOAT a M to 9999 w e F 0417 0418 1048 1049 Power Factor Phase A FLOAT i 00 to 1 00 none 0419 041A 1050 1051 Power Factor Phase B FLOAT 1 00 to 1 00 ee 041B 041C 1052 1053 Power Factor Phase C FLOAT 1 00 to 1 00 none www eaton com Block Size 63 IM02601001E C 29 Modbus Register Maps NI 0 to 99999999 or O5DB 05D 500 150 W R Wh per energy format Wh received 8 delivered always have opposite signs 0 to 99999999 Wh received is positive for view as load delivered is positive for view as generator 5 to 8 digits decimal point implied per energy format resolution of digit before decimal point units kilo or mega per energy format see note 10 OSDD 50 W hours Delivered N O to 99999999 or Wh per energy format es ke zm TTT Q5DF OSEO 504 1505 W hours Net N 99999999 to Wh per energy format ee as T OTT EE 0 to 90999999 Wh per energy format ET 1508 1509 WAR Tours Positive SINT2 to 99999999 VAR per energy format OSES mem 1577 WAR Tours Negative SINTS2_ to 99999999 VAR per energy format 9 CH O al Ol 1 O Wu Wu O C 1 DAL LA Dl Ed ODES 15 VAR hours Net 99999999 to VARh per energy format 99999999 SEQ OSEA 1514 T5
92. DemandNetWatts Value nterval Demand Net Watts 7855 No watts FLOAT 4 No No No No mintDemandNetVARs Value Interval Demand Net VARs 7857 No volt FLOAT 4 No No No No amperes reactive mVanPerTHD Value Percent THD Van 8154 No percent FLOAT 4 No No No No mVbnPerTHD Value Percent THD Vbn 8156 No percent FLOAT 4 No No No No mVcnPerTHD Value Percent THD Vcn 0158 No percent FLOAT 4 No No No No mlaPerTHD Value Percent THD la 9436 No percent FLOAT 4 No No No No mlbPerTHD Value Percent THD Ib 9438 No percent FLOAT 4 No No No No mlcPerTHD Value Percent THD lc 9440 No percent FLOAT 4 No No No No mFreq Value Frequency 11000 No hertz FLOAT 4 No No No No mFreqLongtermAvg Value Frequency Long term Average 11036 No hertz FLOAT 4 No No No No mLastStartTime Value Time of Last Start 12234 No no units DATE 6 No No No ymd No HMS aRestartPending Value A Restart is Pending 3019 Yes No No true false mACVAB ValueMin Vab minimum value 25100 No volts FLOAT 4 No No No No mACVAB ValueMin Vab minimum value Date 25102 No DATE 6 Yes No No ymd No HMS mACVAB ValueMax Vab maximum value 25105 No volts FLOAT 4 No No No No mACVAB ValueMax Vab maximum value Date 25107 No DATE 6 Yes No No ymd No HMS mACVBC ValueMin Vbc minimum value 25110 No volts FLOAT 4 No No No No mACVBC ValueMin Vbc minimum value Date 25112 No DATE 6 Yes No No ymd No HMS mACVBC ValueMax Vbc maximum value 25115 No volts FLOAT 4 No No No No mACVBC ValueMax Vbc maximum value Date 251
93. Event O Power Xpert 2270 Meter EN wm 10250 260 102 Digital Input 1 Digital Input 1 Inputs Name Type Digit a Digital Input 1 Mode Contact O Digital Input 2 Digital Input 3 Accumulator Details Digital Input 4 Outputs Name Digital Output 1 O Digital Output 2 Digital Output 3 Digital Output 4 Copyright 2003 Eaton Corporation All Rights Reserved www eaton com IMO2601001E 8 5 Introduction to Web Server Pages Help Page The Help page nat only provides access to the manual but also lets you e Generate a map of the Modbus registers for both the meter and installed I O cards Access a web page from which you can download the various MIB files Access the Eaton firmware update page Access the Eaton Power Xpert Website e View licensing information for all 3rd party software used by the Gateway Card Help Page 3 21 PM EDT Sep 09 2009 KA Power Xpert i Event O MK a g EP Power Xpert 2260 Meter Help Home J meter Power Quaity Eneroy 10 Toon seo CJ print mew Power Xpert Website Eaton Power Xpert Website Firmware Newest Firmware Im License Information 3rd Party Licensing Documents Protocol Documents User Guide Manual Modbus TCP Register Maps 0 1 255 PXM2260 Meter v Generate and View Map 8 6 IMO2601001E www eaton com Functions on the Web Server Pages 9 FUNCTIONS ON THE WEB SERVER PAGES Overview Reset All Mi
94. F 0430 8432 Positive VARs 3 Ph Min Avg Dmd TSTAMP 1Jan2000 sec 3 Timestamp 31Dec2099 20F0 20F2 0433 8435 Negative Watts 3 Ph Min Avg Dmd TSTAMP 1Jan2000 1 sec 3 Timestamp 31Dec2099 20F3 20F5 0436 8438 Negative VARs 3 Ph Min Avg Dmd TSTAMP 1Jan2000 1 sec 3 Timestamp 31Dec2099 20F6 2058 8439 8441 VAs 3 Ph Min Avg Dmd Timestamp STAMP 1Jan2000 O NE 1Dec2099 20F9 20FB 0442 8444 Positive Power Factor 3 Ph Min Avg Dmd TSTAMP 1Jan2000 1 sec 3 Timestamp 31Dec2099 20FC 20FE 0445 8447 Negative Power Factor 3 Ph Min Avg Dmd TSTAMP 1Jan2000 1 sec 3 Timestamp 31Dec2099 20FF 2101 8448 8450 Frequency Min Timestamp TSTAMP 1Jan2000 Mo 1Dec2099 2102 2104 0451 8453 Neutral Current Min Avg Dmd Timestamp STAMP 1Jan2000 Dec2100 2105 2107 0454 8456 Positive Watts Phase A Min Avg Dmd TSTAMP Timestamp E es 31Dec2099 2108 210A 0457 8459 Positive Watts Phase B Min Avg Dmd TSTAMP 1Jan2000 1 sec 3 Timestamp 31Dec2099 C 36 IM02601001E www eaton com Modbus Register Maps 210B 210D 0460 8462 Positive Watts Phase C Min Avg Dmd TSTAMP 1Jan2000 sec Timestamp 31Dec2099 210E 2110 8463 8465 Positive VARs Phase A Min Avg Dmd TSTAMP 1Jan2000 sec Timestamp 31Dec2099 2111 2113 8466 8468 Positive VARs Phase B Min Avg Dmd TSTAMP 1Jan2000 sec Timestamp 31Dec2099 2114 2116 8469 8471 Positive VARs Phase C Min Avg Dmd TSTAMP 1Jan2000 sec 3 Time
95. INT 2 No No No No Closed Open mDigitallnput1 Value Digital Input 1 10283 No no units UINT 2 No No No No Closed Open mDigitallnput2 Value Digital Input 2 10284 No no units UINT 2 No No No No Closed Open C 18 IM02601001E www eaton com Parameter Name Display Name IHWLimitident01 Value Limit ID 1 IHWLimitAboveSetpoint01 Value Limit 1 Above Setpoint IHWLimitAboveRetHyst01 Value Limit 1 Above Return Hysteresis iHWLimitBelowSetpointO1 Value Limit 1 Below Setpoint HWLimitBelowRetHyst01 Value Limit 1 Below Return Hysteresis www eaton com Base Address Discrete J Da 2 000 2 001 21003 2 005 2 007 Units No no units No percent No percent No percent No percent IM02601001E Type UINT FLOAT FLOAT FLOAT FLOAT Size gt a A gt Is Time Bit alil No No No No No Modbus Register Maps Swap Swap Divider Multiplier Date Alarm Writable Possible Values No No No No No VOC No No No No No De Un Yes Yes Yes Yes Yes C 19 Not Assigned 0 Van 999 Vbn 1001 Vcn 1003 Vab 1005 Vbc 1007 Vca 1009 la 1011 1b 1013 Ic 1015 Total Watts 1017 Total VARs 1019 Total VA 1021 Total PF 1023 Frequency 1025 In 1027 Watts Phase A 1029 Watts Phase B 1031 Watts Phase C 1033 VARs Phase A 1035 VARs Phase B 1037 VARs Phase C 1039 VA Phase A 1041 VA Phase B 1043 VA Phase C 1045 PF Phase A 1047 PF Phase B 1049 PF Phase C 1051 Dema
96. INT32 etc all registers making up the entity must be listed in ascending order For example to log phase A volts VAs voltage THD and VA hours the register list would be 0x3E7 0x3E8 0x411 0x412 0x176F 0x61D 0x61E and the number of registers 0x7917 high byte would be 7 8 Writing this register causes data to be saved permanently in nonvolatile memory Reply to the command indicates that it was accepted but not whether or not the save was successful This can only be determined after the meter has restarted g Reset commands make no sense if the meter state is LIMP An illegal function exception will be returned 10 Energy registers should be reset after a format change 11 Entities to be monitored against limits are identified by Modbus address Entities occupying multiple Modbus registers such as floating point values are identified by the lower register address If any of the 8 limits is unused set its identifier to zero If the indicated Modbus register is not used or is a nonsensical entity for limits it will behave as an unused limit 12 There are 2 setpoints per limit one above and one below the expected range of values LM1 is the too high limit LM2 is too low The entity goes out of limit on LM1 when its value is greater than the setpoint lt remains out of limit until the value drops below the in threshold LM2 works similarly in the opposite direction If limits in only one direction are of interest set the in threshold on
97. Label Value IInputl AccumLabel Value IInputZAccumLabel Value IInputlLowName Value IInput1HighName Value ilnput2LowName Value C 26 Input 1 Label Input 2 Label Input 1 Accumulator Label Input 2 Accumulator Label Input 1 Open State Name Input 1 Closed State Name Input 2 Open State Name Base Address Discrete J DaseQ 21063 No 21064 No 27066 No 27068 No 27070 No 21100 No 2 116 No 2 164 No 2 180 No 2 228 No 21236 No 21244 No IM02601001E Units no units percent percent percent percent no units no units no units no units no units no units no units Type UINT FLOAT FLOAT FLOAT FLOAT STRING STRING STRING STRING STRING STRING STRING Size i 2 Is Time Bit amp OffsetB No No No No No No No No No No No No No No No No No No No No No No No No Wort No No No No No No No No No No No No www eaton com Dn False Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Swap Swap Divider Multiplier Date Alarm Writable Possible Values Not Assigned 0 Van 999 Vbn 1001 Ven 1003 Vab 1005 Vbc 1007 Vca 1009 la 1011 1b 1013 Ic 1015 Total Watts 1017 Total VARs 1019 Total VA 1021 Total PF 1023 Frequency 1025 In 1027 Watts Phase A 1029 Watts Phase B 1031 Watts Phase C 1033 VARs Phase A 1035 VARs Phase B 1037 VARs Phase C 1039 VA Phase A 1041 VA Phase B 1043 VA Phase C 1045 PF Phase A 1047 PF Phase B 1049 PF Ph
98. M 2AM 12PM 7 13 09 59 99 Hz Max Min Avg Pan a Lx A fe sees Present 76 530 A Min 0 0 A July 01 2009 03 54 04 PM 0000 Max 1096 4 A July 09 2009 07 11 17 PM 0000 Point Timestamp Avg A Min A Max A July 13 2009 01 35 PM GMT 75 73760 74 85833 76 84624 July 13 2009 01 30 PM GMT 76 00890 74 86393 77 23889 July 13 2009 01 25 PM GMT 76 85432 76 49771 77 39297 July 13 2009 01 20 PM GMT 76 88304 76 43217 77 43003 July 13 2009 01 15 PM GMT 76 97477 76 53390 77 66428 July 13 2009 01 10 PM GMT 76 90220 76 33844 77 49222 July 13 2009 01 05 PM GMT 76 77275 75 95566 77 47629 July 13 2009 01 00 PM GMT 76 39973 75 75037 77 18129 Ho N On e Wo ho Copyright 2003 Eaton Corporation AN Rights Reserved Locating Current Information From the Meter page click one of the radio buttons listed below Current to select a spe cific phase or neutral The page will update to display the selection To view the trending waveform harmonics or phasor graphs click the drop down box located on the top of the page and make a selection When Trend and Min Max is selected the minimum and maximum values are displayed on the bottom right side of the page with date and time stamps When Harmonics is selected a table is displayed showing the Order Frequency Mag nitude and Angle PXM 2270 only By default all the measurement options are selected when the Ph
99. NG PROCEDURES MAY REQUIRE PROXIMITY TO EXPOSED ENERGIZED LIVE ELECTRICAL WIRING AND OR PARTS WHERE THE HAZARD OF FATAL ELECTRIC SHOCK IS PRESENT Exercise extreme care to avoid injury or death Always disconnect lock out and tag the current and voltage sources and the control power supply circuit before touching the connections or components on the rear face of the meter base unit FAILURE TO GROUND THE PXM 2250 2260 2270 METER MAY RESULT IN INJURY DEATH OR EQUIPMENT DAMAGE Properly ground the meter during installation Covered by one or more of the following patents US Patent Numbers D526920 D525893 6751563 6735535 6636030 2 1M02601001E www eaton com Overview and Specifications 2 OVERVIEW AND SPECIFICATIONS Power Xpert Meter 2000 Series Overview 2 1 The PXM 2250 2260 2270 is a multifunction power and energy meter designed to be used in electrical substations panel boards and as a primary revenue meter due to its high performance measurement capability The unit provides multifunction measurement of all electrical parameters and makes the data available in multiple formats via display communication systems and through analog signal transmission Figure 2 1 PXM 2000 Meter The PXM 2000 Series meter is designed with advanced meaurement capabilities allowing it to achieve high performance accuracy It is specified as a 0 2 class energy meter for billing applications as well as a highly accurate panel indication me
100. NT32 0 to 999999999 ceunteitherat beth ZEE ES 12016 12023 Option Card 2 Inputs Accumulators UINT32 0 to 999999999 number of transitions ansitions output ac ae BRL ee 2EF 2EFE 12024 12031 Option Card 2 Outputs Accumulators UINT32 0 to 999999999 number of transitions transitions Unused accumulators alWoa dU o D un ommands section4 wen SSES SE AN EC MEN LL ES Set to 0 Reserved Registers 5207 5207 21000 21000 Initiate Meter Firmware Reprogramming UINT16 5208 5208 721000 21001 Force Meter Restart UNTIG Block Size 16 1 1 auses a watchdog O 50 IM02601001E www eaton com Modbus Register Maps Meter will process command registers this register through Close Privileged Command Session register below for 5 minutes or until the session is closed 5209 5209 21002 21002 Open Privileged Command Session UINT16 NOICNEVEl COME 520A 520A 21003 21003 Initiate Programmable Settings Update UINT16 Meter enters PS update 1 mode 520B 520B 21004 21004 Calculate Programmable Settings Check UINT16 0000 to 9999 Meter calculates 1 sum3 checksum on RAM copy EE us 5200 520C 21005 21005 Programmable Settings Checksum3 UINT16 0000 to 9999 Read write checksum register PS block saved in nonvolatile memory on fal 520D 520D 21006 21006 Write New Password3 UINT16 0000 to 9999 t S GOU cro 520E 520E 21007 21007 Terminate Progr
101. No No No No No No No No No No No No No No No No No No No No No No Spec False ymd HMS ymd HMS ymd HMS ymd HMS www eaton com No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No Parameter Name mVarB Value mVarC Value mVARtotal Value mPFapparentA Value mPFapparentB Value mPFapparentC Value mPFapparentTotal Value mPFapparentTotalbMinIntAvg Value mForwardEnergy Value mReverseEnergy Value mNetEnergy Value mLeadingVARh Value mLaggingVARh Value mNetVARh Value mVAh Value mDemandSumWatts Value mDemandNetWatts Value mDemandSumVARs Value mDemandNetVARs Value mTimeLastDemand Value mDemandType Value mTotalDemandlnterval Value mDemandsSubinterval Value mintDemandForwardWatts Value mintDemandReverseWatts Value www eaton com Display Name Reactive Power Phase B Reactive Power Phase C Reactive Power PF App Phase A PF App Phase B PF App Phase C PF Apparent PF App Total Interval Avg Forward Real Energy Reverse Real Energy Net Real Energy Leading Reactive Energy Lagging Reactive Energy Net Reactive Energy Apparent Energy Demand Sum Watts Demand Net Watts Demand Sum VARs Demand Net VARs Time Last Demand Window Demand Type Demand Interval Demand Subinterval Interval Demand Forward Watts Interval Demand Reverse Watts Base Address Discrete
102. Note The Setup page is the administrative interface for the meter Use this to initially config ure the meter for operation as well as to fine tune the configuration to meet your needs You ll need the administrative account name and password to modify the setup param eters Details about using the setup page are covered in the Setup on the Web Pages chapter IMO2601001E www eaton com Introduction to Web Server Pages Setup Page 2 26 PM EDT Sep 09 2009 Event Power Xpert 2260 Meter C Login Current Login Info EQ Quick Setup y Meter Number of Logged On Users 1 User logged on 3 Network e J Alarm Triggers 3 Out Of Limits D Alarm on Value Number of Web Clients 1 Web client o J Meter Setup amp Commissionin J Security D Passwords D Access Control Number of MODBUS TCP Clients 10 MODBUS TCP clients oe 7 Metering D Demand EJ Communications 3 Com 2 Setup D E mail Setup 3 SNMP Setup e 7 Option Cards 3 Hardware Limits D Digital Inputs D Relay Outputs D Save Restore Settings Ed System oe 2 Hardware D Faceplate Display Se Real time Clock 3 System Firmware e J Diagnostics D System Log D System Hardware Logged On Users List UserName Security Level IP Address Hostname Current Login user UO Page The I O page shows the current status of all of the inputs and outputs from any installed I O cards UO Page 9 23 AM EDT Jul 14 2009 Power Xpert AG E j
103. P 1Jan2000 KEE NEE a e 099 9528 Amps A THD Max Timestamp TSTAMP 1Jan2000 NA e 90 9531 Amps B THD Max Timestamp TSTAMP 1Jan2000 e 090 9534 Amps C THD Max Timestamp TSTAMP 1Jan2000 1Dec2099 Ld m NENNEN NN men EL 1 8 3 Uption Lara ection www eaton com IM02601001E C 4 270F 270F 10000 10000 Class ID and card status UINT16 bit mapped undv cccctttt Flags active if bit is set u unsupported card n card need configura tion d card is using default configuration v communication with card is ok Field cccc class of installed card Field tttt type of card ee note 19 EB AS olli B ER installed card Serial Number in ASCII E i 0 ne Nstavedg Lol 2 210 2722 10018 10019 Version ASCII A char none Version in ASCII of the hardware of the installed card 2147 2148 10056 10057 Firmware Version ASCII 4 char none Version of the BOOT firmware of the card left justified and padded with spaces Blank for boards without embed 2 49 274A 10058 10059 Firmware Version ASCII 4 char none Gersion of the RUN firmware of the card left justified and padded with spaces Blank for boards without embed d firmware 4 4 274F 274F 10064 10064 Current speed and format UINT16 bit mapped abcde fghijk Bps a 57600 b 38400 c 19200 d 14400 e 9600 Stop bits T cleared 1 stop bit set 2 stop bits Parity g even h odd I none Dat
104. RSTE See sheets 2 amp 3 MAIN MENU RESET DEMAND MODE sequence completed RSTD blinking RSTE CFG MAIN MENU RSTE blinking CFG INFO MAIN MENU CFG blinking INFO sequence of screens to get password if required and reset max min data See sheet 4 RESET ENERGY MODE sequence of screens to get password if required and reset energy accumulators See sheet 4 CONFIGURATION MODE grid of meter settings screens with password protected edit capability Configuration Mode is not available during a Programmable Settings update via a COM port dee See sheet 5 MAIN MENU INFORMATION INFO blinking OPR RSTD sequence of screens to show model information same as STARTUP except lamp tests omitted Xxx MAIN MENU Screen MAIN MENU screen scrolls through 4 choices showing 3 at a time The top choice is always the active one which is indicated by blinking the legend SYMBOLS BUTTONS MENU Returns to previous menu from any screen in any mode single screen ENTER Indicates acceptance of the current screen and advances to the next one all screens erer DOWN RIGHT Navigation and edit buttons Navigation No digits or legends are blinking On a menu down advances to the next menu selection right does nothing In a grid of screens down advances to the next row right advances to the GE next column Rows columns and menus all navigate circularly A digit or legend is blinking to indic
105. Units Type 0 based 6130 No volt FLOAT amperes reactive 6132 No volt FLOAT amperes reactive 6134 No volt FLOAT amperes reactive 6212 No power FLOAT factor 6214 No power FLOAT factor 6216 No power FLOAT factor 6220 No power FLOAT factor 6316 No power FLOAT factor 7004 No watt hours FLOAT 7006 No watt hours FLOAT 7008 No watt hours FLOAT 7010 No volt FLOAT ampere reactive hours 7012 No volt FLOAT ampere reactive hours 7014 No volt FLOAT ampere reactive hours 7016 No volt am FLOAT pere hours 7025 No watts FLOAT 7027 No watts FLOAT 7031 No volt FLOAT amperes reactive 7033 No volt FLOAT amperes reactive 7037 No no units DATE 7165 No no units UINT 7166 No minutes FLOAT 7168 No minutes FLOAT 7170 No watts FLOAT 7172 No watts FLOAT IM02601001E Size bytes stamp Offset 4 a A A A fF HF A A FS gt a A A A a Aa A gt A Is Time Bit No No No No No No No No No No No No No No No No No No No No No No No No No Modbus Register Maps Swap Swap Divider Multiplier Date Alarm On Writable Possible Values Bytes Words No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No Spec False ymd HMS C 3 No No N
106. a 5 7600 38400 1 c 19200 d 14400 e 9600 Stop bits T cleared 1 stop bit set 2 stop bits Parity g even h odd Ee Data bits j 8 k 7 6 m 5 Set to 0 when an analog BUEA BOLA 80EA 3303 3303 33003 Reserved UNIB bit bitmapped EE SA 80EB 80EB 33004 33004 Protocol UINT16 bit mapped ppp 100 DNP3 Lite el ele pff ei eg E 80EC 80EC 33005 33005 Reply delay UINT16 to 65535 milliseconds TET to E to a Modbus transaction s to S an lit boa nstal 001 Rtu Modbus oet to 0 when an analog HA AH 22 222 oe SC C 60 IM02601001E www eaton com Modbus Register Maps 80E8 80E8 33001 33001 Input 1 2 bindings Hie ae logging enables UINT16 bit mapped One nibble for each 1 input Assuming abcd as the bits in each nibble a select this input for EOI End Of Interval pulse sensing b log this input when pulse is detected cc Input event trigger mode Contact sensing method 00 none 01 open to close 10 cose to open 11 any CH RA 80E9 oe 33002 Relay 1 Delay to Operate UINT16 RG Sak operate the MU a reque Kessel 80EA Mati dll 33003 Relay 1 Delay to Release UINT16 OS bea to release the a Tenue HIER 80F0 33004 33009 Reseved VINMI6 ENN 80F1 80F1 33010 33010 Relay 2 Delay to Lo MN EM rss Taras Delay to operate the ince request 80F2 80F2 33011 33011 Relay 2 Delay to Release UINT16 pem PE Ka to release the ince requ
107. a 2CT hookup 4 Scrolling is suspended for 3 minutes after any button press MENU from any operating to Main Menu mode screen See sheet 1 WWW eaton com IM02601001E A 3 Navigation Maps from MAIN MENU RSTD selected ENTER RESET_MM_NO RST DMD no blinking RIGHT RIGHT RESET_MM_YES RST DMD yes blinking ENTER is password required no ENTER reset all max amp min values RESET_MM_CONFIRM demand Reset Mode Screens Sheet 3 from MAIN MENU RSTE selected RESET_ENERGY_NO RST ENER no blinking RIGHT RIGHT RESET_ENERGY_YES yes blinking ENTER is password required no reset all max amp min values yes increment make next digit blinking digit RESET_ENTER_PW blink PASS energy 1HHHE one blinking ENTER is password correct yes energy lt Which reset no RESET PW FAIL A 2 sec So FAIL RESET_ENERGY_CONFIRM RST ENER DONE 2 sec to previous operating mode screen see sheet 2 A 4 2 sec MENU to previous operating from any mode screen reset see sheet 2 D screen to Main Menu See sheet 1 IM02601001E www eaton com Navigation Maps Configuration Mode Screens Sheet CONFIG_MENU SCRL blinking CT SCROLL EDIT SCRL yes or no PT DOWN CONFIG_MENU CT blinking CTN_EDIT CT N 1HHHE on
108. a bits j 8 k 7 6 y IA NO IM02601001E www eaton com Modbus Register Maps p 100 DNP3 Lite 2751 2791 10066 10066 Current protocol UINT16 bit mapped ut ASCII Modbus 001 RTU Modb mi 2 52 2752 10067 10067 Current reply delay UINT16 0 to 65535 milliseconds Delay to reply a Modbus 1 transaction after receiv ing it i est 2157 2790 10072 10129 Data and uu EI EET Block for Option Card 1 Register assignments Meaning of registers depend on installed depend on which type card see below of card is in the slot See overlays below T Xpansions tor Data and Control block tor Option Cara Digital 1 0 Relay Card Overlay Note 2101 2757 10072 10072 Digital Input States UINT16 bit mapped 22221111 Two nibble fields 1 2222 for input 2 and 1111 for input 1 Lsb in each nibble is the current state of the input Msb in each nibble is the oldest 2 58 2 58 10073 10073 Digital Relay States UINT16 bit mapped If a x EE of 1 Relay 2 is unknown otherwise state of Relay 2 is informed in c 1 tripped O released If b is 1 then state of Relay 1 is unknown otherwise state of Relay 1 is informed in d E UM 2 59 2759 10074 10074 Turn relay on UINT16 bit mapped Writing a Y in bit N turns relay N 1 ON this register is write able only in privileged www eaton com IM02601001E C 43 Modbus Register Maps 275A 275A 10075 10075 Turn relay off UINT16 bit mapped Writi
109. actions will not be as secure as with the root CA using https The performance of the meter is not measurably reduced by using secure transactions This section explains root CA installation for Microsoft Internet Explorer 6 Microsoft Internet Explorer 7 Installing Root CA with Microsoft Internet Explorer 6 To install a certificate through Internet Explorer 6 1 Open the browser type the IP address of the meter in the address bar and select Go For example https 192 168 1 1 ca html The security alert dialog box ap pears The security alert dialog box Security Alert E f Information you exchange with this site cannot be viewed or d changed by others However there is a problem with the site s security certificate I The security certificate was issued by a company vou have nat chosen to trust View the certificate ta determine whether pon want to trust the certifying authority e The security certificate date is valid The security certificate has a valid name matching the name of the page you are trying bo vier Do pon want to proceed Click the View Certificate button The certificate dialog box appears WWW eaton com IMO2601001E 11 1 Root Certificate Authority Installation Certificate Dialog Box Certificate General Details Certification Path Certificate Information This certificate cannot be verified up to a trusted certification authority Issued to 10 222 50 94 Issued b
110. air shielded 5H cable Twisted pair shielded SH cable Twisted pair shielded SH cable Y Earth Connection preferably at single location Figure 5 3 RS485 Daisy Chain Connection IM02601001E www eaton com Slave device 1 SH A B ooo Master device Rr SH A B dn nnnnnnnnnnnnnn S Earth Connection preferably at single location Twisted pair shielded SH cable Slave device 1 SH A B Slave device3 CO O Serial Communication Installation Long stub results T connection that can cause interference problem Last Slave device N Slave device 2 SH A B mmm Qe ee ene ness EE or n n ARRA Twisted pair shielded SH cable Twisted pair shielded SH cable ejeje Slave device 2 B A SH STAR connection can cause interference problem SH A B OOO Slave device 4 Twisted pair shielded SH cable Figure 5 4 Incorrect T and Star Topologies www eaton com 1M02601001E 5 3 Serial Communication Installation PXM 2000 Series Transducer Communication Information The PXM 2000 Series Transducer does not include a display or buttons on the front face of the meter Programming and communication utilize the RS485 connection on the back face of the meter shown in section 5 1 2 Once a connection is established Eaton Meter Configuration Software can be used to program the meter and communicate to slave devices M
111. alue Limit 4 Below Setpoint HWLimitBelowRetHyst04 Value Limit 4 Below Return Hysteresis C 22 base Address Discrete J Dasec 2 027 No 2 028 No 2 030 No 2 032 No 2 034 No IM02601001E Units no units percent percent percent percent ype UINT FLOAT FLOAT FLOAT FLOAT gt a A gt gt A Ize s lime bit alil No No No No No wap No No No No No wap IO No No No No No Divider Multiplier Date je www eaton com Alarm Un Writable Possible Values Yes Yes Yes Yes Yes Not Assigned 0 Van 999 Vbn 1001 Vcn 1003 Vab 1005 Vbc 1007 Vca 1009 la 1011 Ib 1013 Ic 1015 Total Watts 1017 Total VARs 1019 Total VA 1021 Total PF 1023 Frequency 1025 In 1027 Watts Phase A 1029 Watts Phase B 1031 Watts Phase C 1033 VARs Phase A 1035 VARs Phase B 1037 VARs Phase C 1039 VA Phase A 1041 VA Phase B 1043 VA Phase C 1045 PF Phase A 1047 PF Phase B 1049 PF Phase C 1051 Demand la 1999 Demand Ib 2001 Demand Ic 2003 Demand Forward Watts 2005 Demand Lagging VARs 2007 Demand Reverse Watts 2009 Demand Leading VARs 2011 Demand VAs 2013 Avg Demand Lagging PF 2015 Avg Demand Leading PF 2017 Demand In 2019 Avg Demand Lagging PF Phase A 2051 Avg Demand Lagging PF Phase B 2053 Avg Demand Lagging PF Phase C 2055 Avg Demand Leading PF Phase A 2057 Avg Demand Leading PF Phase B 2059 Avg Demand Leading
112. ammable Settings Update3 UINT16 Meter leaves PS update mode via rese 520F 5211 21008 21010 Set Meter Clock TSTAMP 1Jan2000 Saved only when 3rd 1Dec2099 regi teri written N Nd O Write only register 521A 521A 21019 21019 Close Privileged Command Session UINT16 Ends an open command N 10 O O NEN 2 658F 659A 26000 26011 Perform a Secure Operation UINT16 hange meter type O O A rogrammable settings Section 752F 752F 30000 30000 CT multiplier amp denominator UINT16 bit mapped dddddddd mmmmm High byte is denomina mmm tor 1 or 5 read only low byte is multiplier 1 10 or 100 7530 7530 30001 30001 CT numerator UINT16 1 to 9999 none 1 3 1 7 1 0 12 Encrypted command to read password or 1 1 1 EN ES ERI www eaton com IM02601001E C 51 Modbus Register Maps 1533 7533 30004 30004 PT multiplier amp hookup UINT16 bit mapped mmmmmmmm mm mm mm PT mmhhhh multiplier 1 10 100 or 1000 hhhh hookup enu meration 0 3 element wye 9S 1 delta 2 CTs 5S 3 2 5 element 7534 7534 30005 30005 Averaging Method UINT16 bit mapped UU interval 5 15 30 60 b 0 block or 1 rolling sss subintervals 7535 7 535 30006 30006 Power amp Energy Format UINT16 bit mapped pppp nn eee ddd pppp power scale 0 unit 3 kilo 6 mega 8 auto nn number of energy digits 5 8 gt 0 3 eee energy scale 0 unit 3 kilo 6 mega
113. amp Commissionin 502 ZZ Security HTTP Port 80 3 Passwords y Access Control HTTPS Port 443 gt E Metering Require HTTPS o 3 Communications o 3 Option Cards Return Error vs zero on unsupported read requests Y Save Restore Settings gt CC System c Diagnostics Metering Demand The Demand Setup page allows you to select either a fixed window or sliding window and the respective intervals in minutes A fixed window setting allows you to select one interval period For example if 15 minutes is selected the demand calculation will be performed and the demand values will be updated every 15 minutes With a sliding window setting the Power Xpert Meter provides a rolling average you se lect the interval period and the subinterval period For example if you select 15 minutes as the demand interval and 5 minutes as the subinterval the demand will calculate every 5 minutes using the 3 subinterval values 15 5X3 IMO2601001E www eaton com WWW eaton com Fixed Settings Em Demand Ve Quick Setup Alarm Triggers Interval Type 3 Out Of Limits TN Alarm on Value ia Ed Meter Setup amp Commissioni o Security ve EJ Metering o 3 Communications o 3 Option Cards Save Restore Settings o 7 System o 3 Diagnostics Sliding Settings Login Demand 7 Quick Setup o EJ Alarm Triggers Interval Type 3 Out Of Limits 5 Alarm on Value Mia HRS
114. and THD calculations Resetting min max or energy is allowed only in run and off states warmup will return a busy exception In limp state the meter reboots at 5 minute intervals in an effort to clear the problem Limits evaluation for all entites except demand averages commences immediately after the warmup period Evaluation for demand averages maximum demands and minimum demands com mences at the end of the first demand interval after startup Only 1 input on all digital input cards may be specified as the end of interval pulse Combination of class and type currently defined are 0x41 Relay card 0x42 Pulse card 0x81 0 1mA analog output card 0x82 4 20mA analog output card IM02601001E C 67 Modbus Register Maps C 68 IM02601001E www eaton com
115. ase C 1051 Demand la 1999 Demand Ib 2001 Demand Ic 2003 Demand Forward Watts 2005 Demand Lagging VARs 2007 Demand Reverse Watts 2009 Demand Leading VARs 2011 Demand VAs 2013 Avg Demand Lagging PF 2015 Avg Demand Leading PF 2017 Demand In 2019 Avg Demand Lagging PF Phase A 2051 Avg Demand Lagging PF Phase B 2053 Avg Demand Lagging PF Phase C 2055 Avg Demand Leading PF Phase A 2057 Avg Demand Leading PF Phase B 2059 Avg Demand Leading PF Phase C 2061 THD Van 5999 THD Vbn 6000 THD Ven 6001 THD la 6002 THD Ib 6003 THD Ic 6004 Parameter Name ilnput2HighName Value ITriggerlnput1 Value iTriggerlnput2 Value EOlEnablelnput1 Value EOlEnablelnput2 Value ilnput1 AccumDivisor Value ilnput2AccumDivisor Value mKtFactorlnput Value mKtFactorlnput2 Value mRelay1Label Value mRelay2Label Value Relay10penName Value Relay1ClosedName Value Relay20penName Value iRelay2ClosedName Value mRelay1Accum Value mRelay2Accum Value mRelay1OperateDelay Value mRelay1ReleaseDelay Value mRelay2ZOperateDelay Value mRelay2ReleaseDelay Value Relay1AccumDivisor Value Relay2AccumDivisor Value www eaton com Display Name Input 2 Closed State Name Trigger Level for Input 1 Trigger Level for Input 2 Select Input 1 as End of Interval Select Input 2 as End of Interval Input 1 Accumulator Divisor Input 2 Accumulator Divisor Input 1 Accumulator Kt Input 2 Accumulator Kt Relay 1
116. asor diagram is se lected You can clear an option on the left side of the page to remove the correlating point of the phasor diagram Frequency Frequency measurements for the meter occur every second using phase A voltage on V1 In the absence of voltage there is no frequency measurement The result is a gap in the trend data for frequency dependent items A trend of frequency measurements is maintained with date and time stamps Minimum and maximum values are detected and saved with date and time stamps of the occurrence Locating Frequency Information From the Meter page click the Frequency radio button on the left side of the page To view the trending and phasor graphs click the drop down box at the top of the page IMO2601001E WWW eaton com Power WWW eaton com Functions on the Web Server Pages and make a selection Phasor is not available if wiring configuration is set to Delta When Trend and Min Max is selected the minimum maximum and average values are displayed on the bottom right side of the page with date and time stamps By default all the options are selected when the Phasor diagram is selected The user can unselect an option on the left side of the page to remove the correlating point of the phasor diagram Harmonics aren t available for frequency Meter Page Frequency Display 12 35 PM GMT Jul 14 2009 Event Power Xpert 2270 Meter Frequency Trend and Min Max Voltage Li
117. ate that it is eligible for Editing change When a digit is blinking down increases the digit value right moves to the next digit When a legend is blinking action taken either button advances to the next choice legend button J m GE mei Ta Sek Ales If the PXM 2000 meter has an Ethernet Gateway card there is an IP Menu option after the Information screen A 2 IM02601001E www eaton com Navigation Maps Operating Mode Screens Sheet 2 See Notes 1 4 3 VOLTS_LN VOLTS_LN_MIN RIGHT VOLTS_LN_MAX RIGHT DOWN from any VOLTS_LN screen RIGHT See Note 1 VOLTS_LL RIGHT VOLTS_LL_MAX VOLTS_LL_MIN DOWN from any VOLTS LL screen p AV o 0 6 O O RIGHT See Note 1 See Note 1 EM SMS RIGHT RIGHT AMPS THD DOWN from any AMPS screen See Note 1 W VAR PF W VAR PF W VAR PF W VAR PF MAX POS MIN POS MAX NEG MIN NEG DOWN 2 DOWN from any W VAR PF screen RIGHT See Note 1 VA FREQ VA FREQ MAX VA FREQ MIN 2 DOWN from any VA FREQ screen See Note 1 KWH REC KWH DEL KWH NET KWH TOT DOWN s from any KWH screen See Note 1 KVARH_POS KVARH_NEG KVARH_NET KVARH_TOT DOWN from any KVARH screen See Note 1 Notes 1 Group is skipped if not applicable to the meter type or hookup or if explicitly disabled via programmable settings 2 DOWN occurs without user intervention every 7 seconds if scrolling is enabled 3 No Volts LN screens for Delt
118. aximum value Date 25157 No DATE 6 Yes No No ymd No HMS mACIAPeakDemand Value Demand la Peak Date 25200 No DATE 6 Yes No No ymd No HMS mACIBPeakDemand Value Demand Ib Peak Date 25203 No DATE 6 Yes No No ymd No HMS mACICPeakDemand Value Demand lc Peak Date 25206 No DATE 6 Yes No No ymd No HMS mDemandlnPeak Value Demand In Peak Date 25209 No DATE 6 Yes No No ymd No HMS mPeakDemandAmpsAvg Value Peak Demand Amps Avg Date 25212 No DATE 6 Yes No No ymd No HMS mPeakDemandForwardWatts Value Peak Demand Forward Watts Date25215 No DATE 6 Yes No No ymd No HMS mPeakDemandReverseWatts Value Peak Demand Reverse Watts Date 25218 No DATE 6 Yes No No ymd No HMS mPeakDemandLaggingVARs Value Peak Demand Lagging VARs Date 25221 No DATE 6 Yes No No ymd No HMS mPeakDemandLeadingVARs Value Peak Demand Leading VARs Date 25224 No DATE 6 Yes No No ymd No HMS mPeakDemandVAs Value Peak Demand VAs Date 25227 No DATE 6 Yes No No ymd No HMS mPeakDemandNetWatts Value Peak Demand Net Watts Date 25230 No DATE 6 Yes No No ymd No HMS mPeakDemandSumWatts Value Peak Demand Sum Watts Date 25233 No DATE 6 Yes No No ymd No HMS mPeakDemandNetVARs Value Peak Demand Net VARs Date 25236 No DATE 6 Yes No No ymd No HMS mPeakDemandSumVARs Value Peak Demand Sum VARs Date 25239 No DATE 6 Yes No No ymd No HMS mVanPerTHD ValueMin Percent THD Van minimum value 25300 No percent FLOAT 4 No No No No mVanPerTHD ValueMin Percent THD Van m
119. b Server Pages Energy 9 8 Harmonics Plot 6 51 PM GMT Aug 11 2009 Power Xpert Re O E dl Power Xpert 2270 Meter Home Meter Power Quatity Energy 1 0 Events setup print Heip Phase A THD Current THD Current PhaseA 19 66 O Phase B 100 00 O Phase C 100 00 THD Voltage O AN 1 13 O BN 1 17 CN 1 20 360 hz 660 hz 960 hz 1260 hz 1560 hz 1860 hz 2160 hz ls M Export Print VU Data _ Exclude Fundamental Magnitude Angle Deg 1 85706 146 40000 0 07522 163 70000 0 22398 86 00000 0 02247 165 70000 0 06686 14 90000 0 02749 177 00000 0 15137 55 90000 0 01969 109 40000 0 13762 76 70000 0 00000 0 00000 aojo N oN e wN ua Copyright 2005 Eaton Corporation AN Rights Reserved Table of Data Points For both views a table below the graph provides the numeric values as well This table can be saved as a CSV file The Power Xpert Meter measures and accumulates three kinds of energy values every 60 cycles Real Power Watts Reactive Power VAR and Apparent Power VA Real Power and Reactive Power take direction into account and so are recorded for forward reverse net and sum These measurements are used to calculate accumulators for the kWh Forward Reverse Net and Sum kVARh Lag Lead Net and Sum and kVAh Real Power Watts Reactive Power VAR is the product of the vo
120. ble ES 7D04 7D04 32005 32005 Reply delay UINT16 0 to 65535 milliseconds Modbus transaction after receiving it oet to 0 when an analog board is install 001 RTU Modbus 3 ll ll 7 7D00 7D00 32001 32001 Input 2 bindings amp logging enables UINT16 bit mapped 2222 1111 One nibble for each 1 input Assuming abcd as the bits in each nibble a select this input for EOI End Of Interval pulse sensing b log this input when pulse is detected cc Input event trigger mode Contact sensing method 00 none 01 open to close 10 close to open 11 any www eaton com IM02601001E C 55 Modbus Register Maps 7D01 7D01 32002 32002 Relay 71 Delay to Operate UINT16 0 1 second units 7D02 7DO2 32003 32003 Relay 1 Delay to Release UINT16 0 1 second units D03 7D08 32004 32009 UINT16 set to 0 1D09 7D09 32010 32010 Relay 22 Delay to Operate UINT16 0 1 second units MIA Delay to operate the relay since request Delay to operate the relay since request Delay to release the relay since request 7DO0A 7D0A 320011 32011 Relay 2 Delay to Release UINT16 0 1 second units Delay to release the relay since request DOB 7D20 32012 32033 UINT16 Set to 0 22 D21 7D21 32034 32034 Input Accumulators Scaling UINT16 bit mapped 7D22 7D22 32035 32035 Relay Accumulators Scaling UINT16 bit mapped 4 bits per accumulator OxF disables th
121. ce Figure 3 2 Meter Dimensions 0 77 19 55 i 4 85 123 19 0 91 23 11 _ 3 25 82 55 _ 0 77 19 55 Figure 3 3 Transducer Dimensions www eaton com IM02601001E 3 1 Mechanical Installation 3 38 Sq 0 95 2404 3 25 82 55 85 9 4 X 0 2 Ha 5 1 4 0 102 1 69 43 3 54 89 92 eg Fig 3 4 Meter Back Figure 3 5 ANSI Mounting Panel Cutout 3 62 92 0 3 62 92 0 Figure 3 6 DIN Mounting Cutout 3 2 IMO2601001E www eaton com Mechanical Installation ANSI Installation Steps NEMA 12 Mounting Gasket Threaded Rods Ge Lock Washer and Nut Figure 3 7 ANSI Mounting Procedure Insert 4 threaded rods by hand into the back of meter Twist until secure Slide NEMA 12 Mounting Gasket onto back of meter with rods in place Slide meter with Mounting Gasket into panel Secure from back of panel with lock washer and nut on each threaded rod Use a small wrench to tighten Do not overtighten The maximum installation torque is 0 4 Newton Meter BROWN www eaton com IM02601001E 3 3 Mechanical Installation DIN Installation Steps Top Mounting Bracket Groove PXM Series Meter with NEMA 12 Moun Gasket A Remove unscrew ANSI Studs for DIN Installation Figure 3 8 DIN Mounting Procedure 1 Slide meter with NEMA 12 Mounting Gasket into panel Remove ANSI Studs if in place 2 From back of panel
122. ce to access the Prot screen Protocol a To enter the Address from the Adr screen Use the Down button to select the number value for a digit Use the Right button to move to the next digit b To select the Baud Rate from the bAUd screen Use the Right button or the Down button to select the setting you want c To select the Protocol from the Prot screen Press the Right button or the Down button to select the setting you want NOTE If you are prompted to enter a password refer to the instructions earlier in this chapter 2 When you have finished making your selections press the Menu button twice 3 The STOR ALL YES screen appears Press Enter to save the settings MENU EMTER MENU ENTER MENU ENTER 005 51b Mod E Y Y y Use buttons to enter Address Use buttons to select Baud Rate Use buttons to select Protocol www eaton com IM02601001E 6 9 Using the PXM 2000 Series Using Operating Mode Operating Mode is the PXM 2000 Series default mode that is the standard front panel display After Startup the meter automatically scrolls through the parameter screens if scrolling is enabled Each parameter is shown for 7 seconds with a 1 second pause between parameters Scrolling is suspended for 3 minutes after any button is pressed 1 Press the Down button to scroll all the parameters in Operating Mode The currently Active i e displayed parameter has the Indicator light next
123. ch demand update value along with the time stamp The contents of the table can be written to file formats that are compatible with various third party spreadsheet database and data analysis tools The Export Data button provides the option to write a comma separated values csv file The csv file is written to the My Documents folder of your local computer The first row in the file contains the column titles If you want to just copy a section of a table to paste into a report or email simply select the information you want in the table and copy it to the Windows clipboard Ctrl C Place the cursor where you wish to paste the information in the third party application and press Ctrl V To select the entire table press Ctrl A IM02601001E 9 11 Functions on the Web Server Pages Events The Power Xpert Meter monitors and logs Out of Limits and Alarm on Value events Events can be used to send e mail as well as to change the state of internal or external Os Triggers The following sections highlight available triggers The meter will use the programmed limits set by the user Every event and its corresponding parameters along with the date and time of the occurrence are logged and available for display or retrieval Triggers are configured in the Setup page Each trigger can have the following limits Upper Critical Limit Upper Cautionary Limit Lower Cautionary Limit Lower Critical Limit In addition you can select
124. ddd energy digits after decimal point 0 6 7536 7536 30007 30007 Operating Mode Screen Enables UINT16 bit mapped eeeeeeee Top op mode screen rows on off rows top to bottom are bits low order to high C 52 IM02601001E www eaton com Modbus Register Maps 753E 753E 30015 30015 User Settings Flags UINT16 bit mapped g nn srpdywf g enable alternate full scale bar graph current 1 on O 0ff nn number of phases for voltage amp current screens 3 ABC 2 AB 1 A 0 ABC s scroll 120n O 0ff r password for reset in use 1 on 0 0ff p password for configuration in use 1 on O 0ff d daylight saving time changes O off 1 0n y diagnostic events in system log 1 yes 0 no W power direction 0 view as load 1 view as generator Zeck 753aF 30016 30016 Full Scale Current for load bar graph UINT16 0 to 9999 settings bit g is set this value replaces CT nu merator in the full scale rrent calculation dddd reply delay 7549 7549 30026 30026 COM setup UINT16 bit mapped dddd ppp bbb 50 msec ppp protocol 1 Mod bus RTU 2 Modbus ASCII 3 DNP bbb baud rate 1 9600 2 19200 4 38400 6 5 600 754A 754A 30027 30027 COM2 address UINT16 1 to 247 none 754B 7548 30028 30028 Limit 1 Identifier UINT16 0 to 65535 Use Modbus address as 7 11 12 bAC 754 30029 30029 Limit 1 Out High Setpoint SINT16 200 0 to 200 0 0 1 of full scale Set
125. des authentication configuration for both SNMP version 1 and version 3 and you can enable disable either or both protocols You can also specify up to six trap recipients You can review download the various supported management information bases MIBs by clicking Help and then clicking Protocol Documents Note that the requirements for the two protocols are different For SNMP 1 you are only required to provide a read only and read write community string However SNMP 3 requires separate usernames and passphrases passwords for both read and write privi leges Consult your SNMP software documentation for more information WWW eaton com IMO2601001E 10 11 Setup on the Web Server Pages Option Cards 10 12 SNMP Setup Edit Page Login SNMP Setup Edit Quick Setup y Meter SNMPv1 Configuration ke Coen Enable SNMP v1 TN Out Of Limits Read only community string pubic 3 Alarm on Value oe C Meter Setup amp Commissioni Read write community string 7 CU Security 3 Passwords EY Access Control SNMPv3 Configuration Authentication SHA Privacy AES Meterin t3 9 Enable SNMP v3 IN Demand CZ Communications Read only username vest Cid IN Com 2 Setup DN E mail Setup Read only passphrase 0 i Read write username admin 3 Option Cards Save Restore Settings Read write passphrase o o 1 System c Diagnostics Trap recipient community string public Trap Recipients
126. display after the first two digits of the password have been entered MENU ENTER MENU ENTER PASS PASS Ej Z y y 2 When all 4 digits of the password have been selected press the Enter button e If you are in Reset Mode and the correct Password has been entered rSt dMd dont or rSt EnEr donE appears and the screen resumes auto scrolling parameters e f you are in Configuration Mode and the correct Password has been entered the display returns to the screen that required a password f an incorrect Password has been entered PASS FAIL appears and MENU VETERE The previous screen is redisplayed if you are in Reset Mode The previous Operating Mode screen is redisplayed if you are in e Pegg A Configuration Mode LEAL Y 6 4 IMO2601001E www eaton com Using Configuration Mode Configuration Mode follows Reset Energy on the Main Menu To access Configuration Mode 1 Press the Menu button while the meter is auto scrolling parameters Using the PXM 2000 Series Press the Down button until the Configuration Mode option CFG is in the A window 2 3 Press the Enter button The Configuration Parameters screen appears 4 Press the Down button to scroll through the configuration parameters Scroll SCrL CT PT Connection Cnct and Port The parameter currently Active i e configurable flashes in the A window 5 Press the Enter button to access the Setting scr
127. dule 901 10 02 2009 16 24 59419713 Informational Reset command Restart the Meter 899 10 02 2009 16 24 44 097539 Informational 900 10 02 2009 16 24 59281280 Informational IMO2601001E www eaton com WWW eaton com Setup on the Web Server Pages Diagnostics System Hardware The System Hardware page provides a single convenient page you can use to check information about the meter and the cards installed in it System Hardware Page Home Meter Power Quality Energy Login System Hardware e 3 Quick Setup e 7 Alarm Triggers Meter Information e 7 System Meter Serial Number 0036557329 o CC Diagnostics SEN Sp 3 system Log Bei Meter Model PXM2260 Model Name PXM2000 Serial Humber 00 20 85 00 FF FE Software Version 1 4 0 Card Name 2 Relay Out 2 Status In Module Serial Humber 0020063617 Version A Model 1250 26001 IMO2601001E 10 21 Setup on the Web Server Pages 10 22 IMO2601001E www eaton com Root Certificate Authority Installation 1 1 ROOT CERTIFICATE AUTHORITY INSTALLATION You can improve the security of your Power Xpert Meter on the web by installing a root certificate authority CA A CA is a trusted third party organization that issues digital cer tificates for use with encrypted digital transactions The digital certificate guarantees that the company holding a certificate is who it claims to be You can use the meter without installing a root CA using http but the trans
128. e blinking if edit DOWN increment blinking digit CONFIG MENU ENTER PT blinking CNCT PORT PTN EDIT Gin RIGHT blink one blinking if edit DOWN increment blinking DOWN MENU DOWN CONFIG MENU ENTER digit CNCT blinking PORT MENU PASS ENTER next digit CONNECT EDIT CNCT DOWN or increment blinking See Note 1 CTD SHOW CT MULT EDIT CT D CTS ipd 10r5 1 or 10 or 100 RIGHT choice blinking if edit show next choice ENTER PTD EDIT PT MULT EDIT PT D PT S Hnr 1 or 10 or 100 or 1000 one blinking if edit choice blinking if edit digit ENTER CNCT choices 3 EL WYE ZCT DEL 1 of 3 choices choice blinking if edit RIGH show 2 5EL WYE DOWN MENU next choice PROT choices MOD RTU CONFIG_MENU ENTER ENTER MOD ASCI E neng DNP PASS ENTER ENTER SCRL ADDRESS EDIT BAUD EDIT DOWN PROTOCOL EDIT DOWN ADR BAUD PROT DOWN m RIGHT 4H or rot hl or DOWN increment E blink em ue RIGHT TS MONIS sp ies RIGE MENU blinking one blinking if edit next choice blinking if edit show choice blinking if edit show digit digit next next choice choice CONFIG MENU PASS 2 blinking ENTER ENTER SCRL CT PASSWORD EDIT DOWN PASS increment one blinking CONFIG MENU screen scrolls through 6 choices showing 3 at a time The blinking top choice is always the digit active one i
129. e ac cumulation 0 5 power of divisor for the scaled accumulator Example count 12456 Abits 3 divisor 103 1000 amp aled accumulator 12 7 n NENNEN One nibble for each of the 4 inputs Assuming bcc as the bits in each nibble b Log this input when pulse is detected cc Input event trigger mode Contact sensing OO NENNEN EE ERN 44443333 22221111 7D00 7D00 32001 32001 Input 4 bindings amp logging enables UINT16 bit mapped method 00 none 01 open to close 10 close to open 11 any O 56 IM02601001E www eaton com Modbus Register Maps 7D01 7D01 32002 32002 source for Pulse Quput 1 UINT16 enumeration ppp vvvv ppp Phase 000 none 001 Phase A 010 Phase B 011 Phase C 100 All Phases 101 Pulse from EOl End Of Interval ww Value 0000 none 0001 Wh 0010 Wh 0011 2 Wh 0100 Varh 0101 Varh 0110 Varh 0111 VAh 1000 Received Wh 10012 Delivered Wh 1010 2 Inductive Varh 1011 Capacitive Varh D02 7D02 32003 32003 Kt Wh pulse factor for Pulse Output 1 UINT16 bit mapped V V not scaled energy value per pulse from 0 to 9999 dd decimal point position 00 0 XXXX 01 X XXX 10zXX XX 112 X XXX 7 Block Size 63 WE ma wm L L m me ww ww ma mr wm NENNEN RE 7DA7 7DAE 32168 32175 Relay 1 Open State Name ASCII EE 7DAF 7DB6 32176 32183 R
130. e air humidity EMC Immunity Interference Weight Dimensions inch W x H x L External Connection www eaton com 20 to 70 C 40 to 80 C Maximum 95 non condensing EN61000 4 2 1 50Z 0 72 x 2 68 x 3 26 AWG 12 26 0 129 3 31 mm2 9 pin 0 200 pluggable terminal block IM02601001E 2959 Using the I O Option Cards Wiring Diagram otatus Inputs For wet contacts For dry contacts Inputs 11 12 O Inputs 11 12 Moon Common C F Common C NO em A C ps Relay Contacts NC 7 Fig 7 3 Relay Contact 2 Status Input 2 Card 7 4 IM02601001E www eaton com Using the I O Option Cards Pulse Output Solid State Relay Contacts Digital Input Card 2 The Pulse Output Digital Input card is a combination of pulse outputs via solid state contacts and dry wet contact sensing digital inputs The outputs are electrically isolated from the inputs and from the main unit Specifications The technical specifications at 25 C are as follows Power consumption Relay outputs Number of outputs Contact type Relay type Peak switching voltage Continuous load current Peak load current On resistance max Leakage current Switching Rate max Isolation Reset Power down state Inputs Number of inputs Sensing type Wetting voltage Input current Minimum input voltage Maximum input voltage Filtering Detection scan rate Isolation 0 420W interna
131. e remaining steps for installing a certificate using Internet Explorer 6 starting with step 2 11 8 IMO2601001E WWW eaton com Navigation Maps A NAVIGATION MAPS Introduction You can configure the meter and perform related tasks using the buttons on the meter face Chapter 6 contains a description of the buttons on the meter face and instructions for programming the meter using them The meter can also be programmed using software See chapter 8 for instructions on programming the meter using the Configuration software Navigation Maps Sheets 1 to 4 The PXM 2000 Series Navigation Maps begin on the next page The maps show in detail how to move from one screen to another and from one Display Mode to another using the buttons on the face of the meter All Display Modes will automatically return to Operating Mode after 10 minutes with no user activity Navigation Map Titles Main Menu Screens Sheet 1 Operating Mode Screens Sheet 2 Reset Mode Screens Sheet 3 e Configuration Mode Screens Sheet 4 www eaton com IM02601001E A 1 Navigation Maps Main Menu Screens Sheet 1 Navigation Overview STARTUP sequence run once at meter startup 2 lamp test screens hardware information screen firmware version screen conditional error screens 10 minutes with no user activity sequence completed MAIN MENU OPERATING MODE OPR blinking pu RSTD grid of meter data screens user activity
132. ects how voltage is viewed Line Line or Line Neutral The radio buttons select the voltage information to view Average AB BC or CA If more than one type of graph is available on the page another drop down menu in the 8 2 IMO2601001E www eaton com Data selection controls Data points in displayed set of data WWW eaton com AA EE RN Voltage Introduction to Web Server Pages top center of the page provides options for selecting available graphs For example in the Meter page you can select from the following types of graphs Trend and Min Max e Waveform available in the 2270 model only Indvidual Harmonics available in the 2270 model only Phasors not a selection item if wiring configuration is set to Delta Note that trend data must be available for that time period in order to view the single cycle Waveform graph of harmonic distortion If the required data isn t available for the selected time period you ll see an error message The Trend graph is a snapshot of the current values plus the historical values in the designated range zoom It doesn t update automatically and you must therefore re select the information to update the the display You can pan or zoom through a graph by clicking one of the options below the graph Use the pan feature to move forward or backward through the available time range The zoom feature plus minus and drop down menu provides the following time ranges e
133. een for the currently active parameter NOTE You can use the Enter button to scroll through all of the Configuration parameters and their Setting screens in order MENU ENTER MENU ENTER Y Y Press Enter when CFG is in A window Parameter screen appears Press Down Press Enter when Parameter you want is in A wndow 6 The parameter screen appears showing the current settings To change the settings Use either the Down button or the Right button to select an option To enter a number value use the Down button to select the number value for a digit and the Right button to move to the next digit NOTE When you try to change the current setting and Password Protection is enabled for the meter the Password screen appears See the previous page for instructions on entering a password 7 Once you have entered the new setting press the Menu button twice 8 The Store ALL YES screen appears You can either Press the Enter button to save the new setting Press the Right button to access the Store ALL no screen then press the Enter button to cancel the Save 9 If you have saved the settings the Store ALL done screen appears and the meter resets EL CL Stor Stor Stor Cl Cl ALLA js HLL e ALL e D ey a LHES ino j dont lt Y Yr Yr Press the Enter button to save the settings Press the Enter button to The settings have been saved Press the Right button for Stor All
134. egistering your product you re registering for the warranty in addition to receiving important update information You can register your product in one of three ways 1 Go online to www eaton com powerxpert and click on Product Registration under Related Links 2 Fill out and return the product registration card that can be found in the packet of information you received 3 Fill out the product registration information below and fax this page to 919 431 6240 Product Product Model or Version Number Product Serial or License Number Company Your Name Address Address City State Zip Email Today s Date Phone Eaton GO number if known ETN Powering Business Worldwide Table of Contents RT de leo A e in OE E E 1 1 o a e E RE RU OO e E E PC SE E O O 1 1 Warranty and Liability a Le te 1 1 e o A ao nee eects eae beta aeeeeyee aces 1 2 2 Overview and Specifications EE 2 1 Power Xpert Meter 2000 Series E EIERE Eege Nee 2 1 Voltage and Current le e 2 2 So e A 2 3 Measured RE 2 4 Ben Pear eegene 2 5 e aX 2 8 Accuracy See full Range specifications earlier in this chanter 2 8 S Mechanical M otii rior ra da ese 3 1 OOU UO Nanni Dr Hr 3 1 ANSI Tostalauon ole 3 3 IN TNS Tea AU ON OS Itu n 3 4 PXM 2000 Series Transducer Installation ws sec2nccnencioniansedsnsdoneneedencaineesiaed adoehadenndduneidesiountceseshenouelbedhdesdiushiaedeacesdsenueam
135. elay 1 Closed State Name ASCII pd DB J DCE 32184 32207 RelayZ2 Label and State Names oame as Relay 71 NO 5 Es Ro FA ro www eaton com IM02601001E C 57 Modbus Register Maps Tee Www Ll O A DO a S O S IIA en ES AU WU mar 007 7 Tm EE m WW eme lu eer 7E1F 7E1F 32288 32288 Input Accumulator Kt UINT16 bit mapped dd VVVVVV VVVVVVVV KT power factor for the 7E20 E20 32280 32289 Input 2 Accumulator Kt UINTIG bit mapped da UU Pulse Output V is raw power value in Wh pulse from 0 to 9999 dd decimal point position 00 0 XXXX 01 X XXX 10 XX XX 11 X XXX A E AAN rom Leen ee IE E CET e E pw E ETS Xe Dua Jmm T T LIN UO wo KW eta ee SE LOIN ZW EN MC a TO 7DB7 7DCE 32184 32207 Output 2 Label and State Names same as Output 1 m HR VS V5 waremusbs mm we 1 1 MEM A IO 7E07 7EOE 32200 32271 Input 2 Accumulator Label ASCII De ff JEE 7El6 32272 32219 Input 3 Accumulator Label ASCII Tear po 1817 7ElE 32200 32287 Input 4 Accumulator Label ASCII 16 char 7E1F ce 7E1F 32288 32288 Input 1 Accumulator Kt UINT16 bit mapped dd VVVVVV VVVVVVVV KT power factor for the 7820 7E20 32289 32289 Input 2 Accumulator Kt UINT16 bit mapped ddVVWW WNVWWW accumulator input V Is raw power value EM 7E21 32290 32290 Input 3 Accumulator Kt UINT16 bit mapped dd VVVVVV VVVVVVVV in Wh pulse f
136. emand la 1999 Demand Ib 2001 Demand Ic 2003 Demand Forward Watts 2005 Demand Lagging VARs 2007 Demand Reverse Watts 2009 Demand Leading VARs 2011 Demand VAs 2013 Avg Demand Lagging PF 2015 Avg Demand Leading PF 2017 Demand In 2019 Avg Demand Lagging PF Phase A 2051 Avg Demand Lagging PF Phase B 2053 Avg Demand Lag ging PF Phase C 2055 Avg Demand Leading PF Phase A 2057 Avg De mand Leading PF Phase B 2059 Avg Demand Leading PF Phase C 2061 THD Van 5999 THD Vbn 6000 THD Ven 6001 THD la 6002 THD Ib 6003 THD Ic 6004 N N N N N mHighValueOutput1 Value Output 1 Source Register High Value 27607 No no units FLOAT 4 No No No Yes C 8 IM02601001E www eaton com Modbus Register Maps Parameter Name Display Name Base Address Discrete Units Type Size Is Time Bit Swap Swap Divider Multiplier Date Alarm On Writable Possible Values 0 based bytes stamp Offset Bytes Words opec False mLowValueOutput1 Value Output 1 Source Register Low Value 27609 No no units FLOAT 4 No No No Yes mFormatRegOutput2 Value Output 2 Format for Limits 27611 No no units UINT 2 No No No No uint16 1 int16 2 uint32 4 int32 8 float32 16 mSourceRegOutput2 Value Source Measure for Output 2 21612 No no units UINT 2 No No No Yes Not Zu ealo Van 999 Vbn 1001 Ven 1003 Vab 1005 Vbc 1007 Vca 1009 la 1011 1b 1013 1c 1015 Total Watts 1017 Total VARs 1019 Total VA 1021 Total PF 1023 Frequency 1025 In 1027
137. er s performance and calibration power providers use field test standards to ensure that the unit s energy measurements are correct Since the PXM 2000 Series are traceable revenue meters each model contains a utility grade test pulse that can be used to gate an accuracy standard This is an essential feature required of all billing grade meters Test Pulse Figure 6 4 Watt Hour Test Pulse Refer to Table 6 1 for the Wh Pulse Constants for Accuracy Testing Refer to Figure 6 5 for an example of how this process works Ir or KYZ 4 8 amp S Test Pulses Energy Pulses Energy Standard Figure 6 5 Using the Watt Hour Test Pulse Table 6 1 Infrared amp KYZ Pulse Constants for Accuracy Testing Kh Watthour per pulse Input Voltage Level Class 10 Models Class 2 Models Below 150V 0 500017776 0 1000035555 Above 150V 2 000071103 0 400014221 NOTE Minimum pulse width is 90 milliseconds IMO2601001E www eaton com Using the I O Option Cards D USING THE l O OPTION CARDS Overview The PXM 2000 Series offers extensive UO expandability Using the one universal Option Card slot the unit can be easily configured to accept a new l O Option card even after installation without your needing to remove it from the installation The meter auto detects any installed Option card One module of any type outlined in this chapter can be used per meter Installing an Option Card
138. ert Meter Gateway Card provides the PXM 2000 Series with Ethernet capability NOTE Network configuration will be done through the card Specifications The technical specifications at 25 C are as follows Number of ports Power consumption Data rate Diagnostic features Number of simultaneous Modbus connections 1 2 0 Watts internal 10 100Mbit 100 Mbit LINK and for ACTIVITY There are also four LEDs for Power Firmware upgrade activity DHCP use and meter communication status Ten The general specifications are as follows Operating temperature Storage temperature Relative air humidity EMC Immunity Interference Weight Dimensions inches W x H x L Connection type Default Configuration 20 to 70 C 20 to 70 C Maximum 95 non condensing EN61000 4 2 1 7 OZ 0 72 x 2 68 x 3 26 RJ45 modular auto detecting transmit and receive The PXM 2000 Series automatically recognizes the installed option card during Power Up If you have not programmed a con figuration for the card the unit will default to the following IP Address 192 168 1 1 Subnet Mask 255 255 255 0 Default Gateway 0 0 0 0 www eaton com IM02601001E 7 11 Using the I O Option Cards Wiring Diagram RJ45 Plug 8 7 6 RD S Cable 3 RD 2 TD Pin 1 1 TD Fig 7 7 PXM 2000 Gateway Card IMPORTANT The PXM 2000 Gateway Card uses an auto detecting circuit that automatically switches the trans
139. es Not Assigned 0 Van 999 Vbn 1001 Vcn 1003 Vab 1005 Vbc 1007 Vca 1009 la 1011 1b 1013 Ic 1015 Total Watts 1017 Total VARs 1019 Total VA 1021 Total PF 1023J Frequency 1025 In 1027 Watts Phase A 1029 Watts Phase B 1031 Watts Phase C 1033 VARs Phase A 1035 VARs Phase B 1037 VARs Phase C 1039 VA Phase A 1041 VA Phase B 1043J VA Phase C 1045 PF Phase A 1047 PF Phase B 1049 PF Phase C 1051 Demand la 1999 Demand Ib 2001 Demand Ic 2003 Demand Forward Watts 2005 Demand Lag ging VARs 2007 Demand Reverse Watts 2009 Demand Leading VARs 2011 Demand VAs 2013 Avg Demand Lagging PF 2015 Avg Demand Leading PF 2017 Demand In 2019 Avg Demand Lagging PF Phase A 2051 Avg Demand Lag ging PF Phase B 2053 Avg Demand Lagging PF Phase C 2055 Avg Demand Leading PF Phase A 2057 Avg Demand Leading PF Phase B 2059 Avg Demand Leading PF Phase C 2061 THD Van 5999 THD Vbn 6000 THD Vcn 6001 THD la 6002 THD Ib 6003 THD Ic 6004 mHighValueOutput1 Value Output 1 Source Register High Value 27607 No no units FLOAT 4 No No No Yes mLowValueOutput1 Value Output 1 Source Register Low Value 27609 No no units FLOAT 4 No No No Yes mFormatRegOutput2 Value Output 2 Format Parameter 2 611 No no units UINT 2 No No No No uint16 1 int16 2 uint32 4 int32 8 float32 16 C 12 IM02601001E www eaton com Modbus Register Maps Parameter Name Display Name Base Address Discrete Uni
140. es require the use of potential transformers PTs Current Inputs The unit supports a 5 amp or a 1 amp secondary for current measurements NOTE The secondary current must be specified and ordered with the meter The PXM 2000 Series Current Inputs use a unique dual input method Method 1 CT Pass Through The CT passes directly through the meter without any physical termination on the meter This insures that the meter cannot be a point of failure on the CT circuit This is preferable for utility users when sharing relay class CTs No Burden is added to the secondary CT circuit Method 2 Current Gills This unit additionally provides ultra rugged Termination Pass Through Bars that allow CT leads to be terminated on the meter This eliminates any possible point of failure at the meter This is a preferred technique for insuring that relay class CT integrity is not compromised the CT will not open in a fault condition IMO2601001E WWW eaton com Overview and Specifications Ordering Information PXM 2260 M A 6 5 1 1 5 d 1 ITT 1 2 3 4 5 6 7 1 Model 2250 Power Meter 2260 Power Quality Meter 2270 Power Quality Plus Meter 2 Meter Type M Meter with integral display T Transducer Only no display 3 Frequency 5 50 Hz System 6 60 Hz System 4 Current Input 5 5 Amp Secondary 1 1 Amp Secondary 5 Power Supply 1 Universal 90 265 VAC 50 60Hz or 100 370 VDC 4 18 60 VDC 6 I O S
141. est 8109 8109 33034 33034 Input Accumulators Scaling UINT16 bitmapped 22221111 4 bits per accumulator 22221111 OxF disables the ac 810A 810A 33035 33035 Relay Accumulators Scaling UINT16 bit mapped cumulation 0 5 power of divisor for the scaled accumulator Example count 12456 Abits 3 ae eee RECH ei _ TI 7 80E8 80E8 33001 33001 Input 1 4 bindings amp logging enables UINT16 bit mapped 44443333 22221111 One nibble for each of the 4 inputs Assuming bcc as the bits in each nibble b Log this input when pulse is detected cc Input event trigger mode Contact sensing method 00 none 01 open to close 10 close to open 11 any www eaton com IM02601001E Modbus Register Maps O0E9 80E9 33002 33002 ource for Pulse Quput 1 UINT16 enumeration PPP vvvv opp Phase 000 1 none 001 Phase A 010 Phase B 011 Phase C 100 All Phases 101 Pulse from EOI End Of Interval ww Value 0000 none 0001 Wh 0010 Wh 0011 Wh 0100 Varh 0101 Varh 0110 Varh 0111 VAh 1000 Received Wh 10012 Delivered Wh 1010 2 Inductive Varh 1011 Capacitive Varh Od 80EA 80EA 33003 33003 Kt Wh pulse factor for Pulse Output 1 UINT16 bit mapped V V not scaled 1 energy value per pulse from 0 to 9999 dd decimal point position 00 0 XXXX 01 X XXX 10 XX XX 11 X XXX 80EB 80EC 33004 33005 Output 2 Assignment and K
142. eter Connection To provide power to the meter attach an Aux cable to GND L and N Refer to Chapter 4 Figure 1 The RS485 cable attaches to SH B and A as shown in Figure 5 3 of this chapter 5 4 IM02601001E www eaton com Using the PXM 2000 Series 6 USING THE PXM 2000 SERIES Introduction You can use the Elements and Buttons on the meter s face to view meter readings reset and or configure the PXM 2000 Series and perform related functions The following sections explain the Elements and Buttons and detail their use Reading Type Indicator Parameter Designator Understanding Meter Face Elements Watt Hour The meter face features the following elements Test Pulse Reading Type Indicator Indicates Type of Reading Parameter Designator Indicates Reading Displayed Watt Hour Test Pulse Energy Pulse Output to Test Accuracy Scaling Factor Kilo or Mega multiplier of Displayed Readings e of Load Bar Graphic Display of Amps as of the Load Scaling of Load Bar Factor Figure 6 1 Meter s Face Plate with Elements Understanding Meter Face Buttons The meter face has Menu Enter Down and Right buttons which allow you to perform the following functions View Meter Information Enter Display Modes e Configure Parameters may be Password Protected Perform Resets may be Password Protected Perform LED Checks Change Settings View Parameter Values e Scroll Parameter Value
143. etup oe J Quick Setup D Meter meter Edit Password Y Network user Edit Password oe J Alarm Triggers BS A 5 Out Of Limits ry Alarm on Value oe C Meter Setup amp Commissionin oe c Security a Passwords D Access Control o 7 Metering C Communications 3 Option Cards D Save Restore Settings o 3 System C Diagnostics www eaton com IM02601001E 10 7 Setup on the Web Server Pages 10 8 Security Access Control You can additionally limit access to the meter in the following ways You can restrict either SNMP or Modbus access to the meter to a set of trusted IP addresses or hostnames You can have separate sets of trusted machines for either setting You can set the ports for Modbus HTTP or HTTPS You can require the HTTPS for web access to the meter Finally you can opt to return an error for unsupported read requests Access Control Edit Page 8 07 AM EDT Jul 31 2009 Power Xpert AG Event Power Xpert 2260 Meter1 Setup Home meter power J Quality enersy vo Events setup print CJ oe Login Access Control Edit OK Cancel oe C Quick Setup IN Meter Trusted IPs hostnames separated by semi colons Network SNMP access restricted by IP hostname oe J Alarm Triggers 3 Out Of Limits Modbus TCP access restricted by IP hostname 3 Alarm on Value Modbus TCP Port 502 e J Meter Setup
144. from the Meter s Front Panel Display See Chapter 6 4 10 IMO2601001E www eaton com Electrical Installation 3 Service WYE Delta 4 Wire with 3 PTs 3 CTs 2M Select 3 EL LUISE 3 Element Wye from the B A Meter s Front Panel Display See Chapter 6 www eaton com IM02601001E 4 11 Electrical Installation 4 Service 2 5 Element WYE 4 Wire with 2 PTs 3 CTs This configuration is not recommended In this configuration the B phase voltage is not measured to save the cost of a B Phase volt age transformer A balanced 3 phase voltage is assumed to estimate B phase voltage for the purpose of 3 phase power and energy estimation does not comply with Blondel s N A B C theory 2 5 element Wye configuration can not detect problems with B phase voltage The Phase AB and BC voltage values shown on the Meter web page are estimates only and on the Power web page only the System values will be shown Phase A B and C values will display as zero GND L Power Suppl NO d VRef A k A Select 2 5 EL LUSE 2 5 Element Wye from the Ba Meter s Front Panel Display See Chapter 6 4 12 IMO2601001E www eaton com Electrical Installation 5 Service Delta 3 Wire with No PTs 2 CTs A B C Power Supply V y Y A B C C C B A B A Select z L1 DEL 2 CT Delta from the Meter s Front Panel Display See Chapter 6 Not connected to meter www eaton com 1M02601001E 4 13
145. ical Installation 1 Service WYE Delta 4 Wire with No PTs 3 CTs Power L Supply y A Select 3 EL LUISE 3 Element Wye from the Meter s Front Panel Display See Chapter 6 B A www eaton com IM02601001E 4 7 Electrical Installation 1a Example of Dual Phase Hookup 1 mm 1 Select 3 EL LUISE 3 Element Wye from the fy i B A Meter s Front Panel Display See Chapter 6 4 8 Electrical Installation 1b Example of Single Phase Hookup E S E kA Select 3 EL LUSE 3 Element Wye from the s N V4 Meter s Front Panel Display See Chapter 6 B gt A H WWW eaton com Electrical Installation 2 Service 2 5 Element WYE 4 Wire with No PTs 3 CTs This configuration is not recommended In this configuration the B phase voltage is not measured to save the cost of a B Phase volt age transformer A balanced 3 phase voltage is assumed to estimate B phase voltage for the purpose of 3 phase power and energy N A B C estimation does not comply with Blondel s theory 2 5 element Wye configuration can not detect problems with B phase voltage The Phase AB and BC voltage values shown on the Meter web page are estimates only and on the Power web page only the System values will be shown Phase A B and C values will display as zero GND L Power Suppl NO pply VRef L ol Cl Oil EUGUE a Y ES Select 2 5 EL LUSE 2 5 Element Wye
146. iguration Boot Firmware Version ASCII bit mapped same as register 10000 1 0x270F Option Slot 1 Usage UINT16 Option Slot 2 Usage UINT16 bit mapped same as register 11000 Ox2AF7 Meter Meter Type Name Name ASCII me m Lm Reseved Reseved eter Data Section AHH B illios EX 03E7 03E8 1000 1001 Volts A N OSEA 03E9 1002 1003 Volts B N FLOAT O3EB O3EC 1004 1005 Volts C N FLOAT 0 to 9999 M volts A C 28 IM02601001E www eaton com Modbus Register Maps 03ED O3EE 1006 1007 Volts A B FLOAT 0 to 9999 M volts O A 03EF 03F0 1008 1009 Volts B C FLOAT 0 to 9999 M volts O Z 03F1 3FZ 1010 1011 Volts C A FLOAT 0 to 9999 M 2 03F5 03F6 1014 1015 Amps B FLOAT 0 to 9999 M amps OO A 03F7 03F8 1016 1017 Amps C FLOAT 0 to 9999 M amps O Z 03F9 O3FA 1018 1019 Watts 3 Ph total FLOAT 9999 M to 9999 mS M 03FB 03FC 1020 1021 VARs 3 Ph total FLOAT d M to 9999 ps 03FD O3FE 1022 1023 VAs 3 Ph total FLOAT Ze M to 9999 A NEE O3FF 0400 1024 1025 Power Factor 3 Ph total ROAT rr Jim to 1 00 me mme it 2 0403 0404 1028 1029 Neutral Current FLOAT 0 to 9999 M ams fe 0405 0406 1030 1031 Watts Phase A FLOAT M to 9999 A 0407 0408 1032 1033 Watts Phase B FLOAT a M to 9999 watts A A 0409 040A 1034 1035 Watts Phase C FLOAT Zo M to 9999 watts ae V 040B 040C 1036 1037 VARs Phase A FLOAT 9999 M to 9999 VARs ELS V 040D 040E 1038 1039 VARs Phase B FLOAT 9999 M to 9999 A E
147. ine Neutral The page will update to display the selection You can select trending waveform harmonics or phasor graphs from the drop down box near the top of the page When Trend and Min Max is selected the minimum and maximum values are displayed with date and time stamps When Harmonics is selected a table is displayed showing the Frequency Hz Mag nitude and Angle Deg By default the fundamental frequency is included It can be excluded by selecting the Exclude Fundamental check box on the left side of the page NOTE the Waveform and Harmonics views are only available on the PXM 2270 model IMO2601001E www eaton com Current WWW eaton com Meter Page Voltage Display Voltage Line Line VLL Average e AB O CA Current O Average O Phase A Phase B Phase C 77 045 A T7 079A 77 072 A 76 983 A 217 087 A 59 99 Hz Functions on the Web Server Pages 12 34 PM GMT Jul 14 2009 Event O Power Xpert 2270 Meter AB Line Line Voltage Trend and Min Max 208 055 V 208 050 V 208 045 V 208 040 V 208 035 V NA 10PM 12AM Max Min Aw Pan Present 208 0 V Min 0 0 V Max 520 1 V 12PM 7 14 09 MET f Export TEL Epi T ene June 04 2009 03 11 23 PM 0000 June 05 2009 09 42 35 AM 0000 Point Timestamp Avg V Min V Max V July 14 2009 12 25 PM GMT 208 043865 208 041385 208 05446 July 14 2009 12 2
148. inimum value 25302 No DATE 6 Yes No No ymd No Date HMS mVanPerTHD ValueMax Percent THD Van maximum value 25305 No percent FLOAT 4 No No No No mVanPerTHD ValueMax Percent THD Van maximum value 25307 No DATE 6 Yes No No ymd No Date HMS mVbnPerTHD ValueMin Percent THD Vbn minimum value 25310 No percent FLOAT 4 No No No No mVbnPerTHD ValueMin Percent THD Vbn minimum value 25312 No DATE 6 Yes No No ymd No Date HMS mVbnPerTHD ValueMax Percent THD Vbn maximum value 25315 No percent FLOAT 4 No No No No C 6 IM02601001E www eaton com Parameter Name mVbnPerTHD ValueMax mVcnPerTHD ValueMin mVcnPerTHD ValueMin mVcnPerTHD ValueMax mVcnPerTHD ValueMax mlaPerTHD ValueMin mlaPerTHD ValueMin mlaPerTHD ValueMax mlaPerTHD ValueMax mlbPerTHD ValueMin mlbPerTHD ValueMin mlbPerTHD ValueMax mlbPerTHD ValueMax mlcPerTHD ValueMin mlcPerTHD ValueMin mlcPerTHD ValueMax mlcPerTHD ValueMax mFreg ValueMin mFreg ValueMin mFreg ValueMax mFreq ValueMax aEventDescr01 Value aEventDescr02 Value aEventDescr03 Value aEventDescr04 Value aEventDescr05 Value aEventDescr06 Value aEventDescr07 Value aEventDescr08 Value aEventDescr09 Value aEventDescr10 Value www eaton com Display Name Percent THD Vbn maximum value Date o Percent THD Ven minimum value Percent THD Ven minimum value Date Percent THD Ven maximum value Percent THD Ven maximum value Date o Percent THD
149. is almost identical The only difference is that the 4 20 mA is unidirec tional The Analog Output Setup Edit page provides access to configuration parameters for each of the card outputs Each output can be assigned to one of any of the electrical parameters in the Demand Reading or THD groups You can set the Minimum and Maximum values as well as enable Bidirectional Current 0 1 mA card only Analog Output Setup Edit Page Login Analog Output Setup Edit CT Quick Setup y Meter Output 1 0 Network Source Measurement Not Assigned e J Alarm Triggers Y Out Of Limits Enable Bidirectional Current 3 Alarm on Value CI Meter Setup amp Commissionir CU Security Maximum Value 3 Passwords D Access Control EI Metering Output 2 Demand Source Measurement Not Assigned c Communications Minimum Value 3 Com 2 Setup Enable Bidirectional Current 5 E mail Setup o D SNMP Setup Minimum Value EJ Option Cards Maximum Value Y Analog Outputs IN Save Restore Settings Qutnut 3 10 16 IMO2601001E www eaton com WWW eaton com Setup on the Web Server Pages setting the Source Measurement Es Set Limit Channel Save Restore Settings Configuration files can be downloaded to your local file system and then uploaded from your local file system to a meter This is a handy convenience feature especially if you re setting up multiple
150. just for Daylight Savings Time DST based on the time zone selection and to synchronize time using NTP By using NTP time will be maintained by the real time clock and the real time clock will be calibrated and time corrected using NTP The Clock Setup Edit page allows you to set the time in hours and minutes in 24 hour time select a time sync option and set the date for the meter If NTP is selected for time synch an IP address of the NTP server should be set When selecting NTP Network Time Protocol as the Time Sync Source at least one IP Address must be entered as many as three NTP server IP addresses may be entered A list of public NTP servers is available at http support ntp org bin view Servers WebHome Note The Time Zone and Date format settings only affect logs and e mails 10 18 IMO2601001E www eaton com Setup on the Web Server Pages Clock Setup Edit Page Setup Home Meter Power Top Eneroy 170 Events setup print neip Ei Login Clock Setup Edit OK Cancel oe 7 Quick Setup SS Tne Zone used tor logs e mats ana connected device 01T 050 Essen Tne US EC 1 EY Network oe E Alarm Triggers Date Format for logs 5 Out Of Limits D Alarm on Value e CI Meter Setup amp Commissionin Set Time will be converted to Meter time E Security amp No Changes D Passwords 3 Access Control Set date time from the PC clock LZ Metering Time 8 18 14 AM Date Jul 31 2
151. l 4 Closing SPST NO Solid state DC 350V 120mA 350mA for 10ms 350 1uA 350V 10 s AC 3750V system to contacts Open contacts 4 Wet or dry contact status detection DC 12 24V internally generated 2 5mA constant current regulated OV input shorted to common DC 150V diode protected against polarity reversal De bouncing with 50ms delay time 100ms AC 2500V system to inputs The general specifications are as follows Operating Temperature Storage Temperature Relative air humidity EMC Immunity Interference Weight Dimensions inch W x H x L External Connection Default Configuration 20 to 70 C 40 to 80 C Maximum 95 non condensing EN61000 4 2 1 30Z 0 72 x 2 68 x 3 26 AWG 12 26 0 129 3 31 mm 13 pin 3 5mm pluggable terminal block The meter automatically recognizes the installed option card during Power Up If you have not programmed a con figuration for the card the unit will default to the following outputs Status Inputs Defaulted to Status Detect Pulse Outputs Defaulted to Energy Pulses Pulse Channel 1 1 8 Watt hrs per pulse Pulse Channel 2 1 8 Watt hrs per pulse Pulse Channel 3 1 8 VAR hrs per pulse Pulse Channel 4 1 8 VAR hrs per pulse www eaton com IM02601001E 7 5 Using the I O Option Cards Wiring Diagram For wet contacts For dry contacts Inputs 11 12 gt Inputs 11 12 Loop Common C 0 Common C
152. lot 1 See Chapter 7 for I O Card Specifications O None 1 2 Relay Outputs 2 Status Inputs 2 4 KYZ Pulses 4 Status Inputs 3 4Analog Outputs 0 1 mA 4 4 Analog Outputs 4 20 mA 7 110 2 See Chapter 7 for I O Card Specifications 5 Power Xpert amp Ethernet Gateway Card Example PXM 2260 M A 6 5 1 1 5 PXM 2260 Meter with 60 Hz System 5 Amp Secondary 90 265 VAC 100 370 VDC Power Supply 2 Relay Outputs 2 Status Inputs I O Card in Card Slot 1 and standard Power Xpert Ethernet Gateway Card in Card Slot 2 2 3 IMO2601001E www eaton com Overview and Specifications Measured Values The PXM 2000 Series provides the following Measured Values all in Real Time Instantaneous and some additionally as Average Maximum and Minimum values PXM 2000 Series Measured Values Measured Values Instantaneous Voltage L N Voltage L L Current per Phase Te Current Neutral WATT A B C Tot VAR A B C Tot VA A B C Tot PF A B C Tot Watt Hour A B C Tot Watt Hour A B C Tot Watt Hour Net VAR Hour A B C Tot VAR Hour A B C Tot VAR Hour Net A B C Tot VA Hour A B C Tot Frequency THD Voltage Angles Current Angles EE RA 2 4 IM02601001E WWW eaton com Overview and Specifications Utility Peak Demand 2 5 The PXM 2000 Series provides user configured Fixed Window or Sliding Window Demand modes This feature enables you to set up a customized Demand pr
153. lse Output 2 Kt Wh pulse Factor 27477 No no units UINT 2 No No No Yes mKtFactorOutput3 Value Pulse Output 3 Kt Wh pulse Factor 27478 No no units UINT 2 No No No Yes www eaton com IM02601001E C 17 Modbus Register Maps Parameter Name Display Name Base Address Discrete Units Type Size Is Time Bit Swap Swap Divider Multiplier Date Alarm On Writable Possible Values 0 based bytes stamp OffsetBytes Words Spec False mKtFactorOutput4 Value Pulse Output 4 Kt Wh pulse Factor 27479 No no units UINT 2 No No No Yes Digital Output Relay Contact Digital Input Card Map Parameter Name Display Name Base Address Discrete Units Type Size Is Time Bit Swap Swap Divider Multiplier Date Alarm Writable Possible Values VendorName Value Vendor Name ue No no units STRING o No Gem No i No ModelName Value Model Name 1064 No no units STRING 64 No No No No DisplayName Value Display Name 1096 No no units STRING 64 No No No Yes serialNumber Value serial Number 1276 No no units STRING 64 No No No No softwareVersion Value software Version 2108 No no units STRING 48 No No No No iFieldReplaceableUnit Value Field Replaceable Unit 1605 No no units UINT 2 No No No Yes true false mDI1Accum Value Input 1 Accumulator Scaled 10000 No no units UINT 4 No No No No mDIZAccum Value Input 2 Accumulator Scaled 10002 No no units UINT 4 No No No No mRelay1 Value Relay 1 10262 No no units UINT 2 No No No No Closed Open mRelay2 Value Relay 2 10263 No no units U
154. ltage the current and the sine of the phase angle between them e Apparent Power VA is the square root of the sum of the squares of the active and reactive powers IMO2601001E www eaton com WWW eaton com Functions on the Web Server Pages Demand Demand is the power consumption at the receiving terminal averaged over a specific in terval of time The Power Xpert Meter is capable of measuring demand by two methods fixed Block or sliding Rolling in intervals of 5 to 60 minutes These measurements are performed for the Total Current kW Forward Reverse Net and Sum kVar Lead Lag Net and Sum and kVA Fixed and Sliding Demand Fixed demand Total Current which is an average system current over time can be set to average current over a range of 5 15 30 or 60 minutes This is known as a fixed win dow For example setting the current demand window to 15 sets the meter to determine the average current over the past 15 minutes and update the value every 15 minutes Power demand can be fixed as described above or sliding For example a 15 minute average can be obtained that is updated every 5 minutes To accomplish this the Sub interval is set to 5 minutes and the Total Interval is set to 15 Note The Total Interval is the number of minutes in the average calculation The subin terval is the number of minutes between updates The Power Xpert Meter starts the demand window on meter startup Demand Profile Demand Pr
155. ly voltage to these Figure 4 4 Voltage Connection Ground Connections The meter s Ground Terminals should be connected directly to the installation s protective earth ground Use AWG 12 2 5 mm2 wire for this connection Voltage Fuses Eaton recommends the use of fuses on each of the sense voltages and on the control power even though the wiring diagrams in this chapter do not show them Use a 0 1 Amp fuse on each voltage input Use a 3 Amp Slow Blow fuse on the power supply www eaton com IM02601001E 4 5 Electrical Installation Electrical Connection Diagrams The following pages contain electrical connection diagrams for the PXM 2000 Series Choose the diagram that best suits your application Be sure to maintain the CT polarity when wiring The diagrams are presented in the following order 1 Three Phase Four Wire System Wye Delta with Direct Voltage 3 Element a Example of Dual Phase Hookup b Example of Single Phase Hookup Three Phase Four Wire System Wye with Direct Voltage 2 5 Element Three Phase Four Wire Wye Delta with PTs 3 Element Three Phase Four Wire Wye with PTs 2 5 Element Three Phase Three Wire Delta with Direct Voltage Three Phase Three Wire Delta with 2 PTs Three Phase Three Wire Delta with 3 PTs Current Only Measurement Three Phase Current Only Measurement Dual Phase 0 Current Only Measurement Single Phase 00 JO Om P C hn 4 6 IMO2601001E www eaton com Electr
156. mHighValueOutput3 Value Output 3 Source Register High Value 27619 No no units FLOAT 4 No No No Yes mLowValueOutput3 Value Output 3 Source Register Low Value 27621 No no units FLOAT 4 No No No Yes mFormatRegOutput4 Value Output 4 Format Parameter 21623 No no units UINT 2 No No No No uint16 1 int16 2 uint32 4 int32 8 float32 16 C 14 IM02601001E www eaton com Parameter Name mSourceRegOutput4 Value mHighValueOutput4 Value mLowValueOutput4 Value Display Name source Measure for Output 4 Base Address Discrete Units U Da 2 624 Output 4 Source Register High Value 27625 Output 4 Source Register Low Value 27627 No No No no units no units no units Type UINT FLOAT FLOAT Pulse Output Solid State Relay Contacts Digital Input Card Map Parameter Name VendorName Value ModelName Value iDisplayName Value serialNumber Value softwareVersion Value iFieldReplaceableUnit Value mDI1Accum Value mDIZAccum Value www eaton com Display Name Vendor Name Model Name Display Name Serial Number Software Version Field Replaceable Unit Input 1 Accumulator Scaled Input 2 Accumulator Scaled Base Address Discrete 0 based 1032 1064 1096 1276 2108 1605 10000 10002 Units No no units No no units No no units No no units No no units No no units No no units No no units IM02601001E Type STRING STRING STRING STRING STRING UINT UINT UINT Size I 2 Size bytes
157. mand Leading VARs 2011 Demand VAs 2013 Avg Demand Lagging PF 2015 Avg Demand Leading PF 2017 Demand In 2019 Avg Demand Lagging PF Phase A 2051 Avg Demand Lagging PF Phase B 2053 Avg Demand Lagging PF Phase C 2055 Avg Demand Leading PF Phase A 2057 Avg Demand Leading PF Phase B 2059 Avg Demand Leading PF Phase C 2061 THD Van 5999 THD Vbn 6000 THD Ven 6001 THD la 6002 THD Ib 6003 THD Ic 6004 Modbus Register Maps Parameter Name Display Name IHWLimitldent06 Value Limit ID 6 IHWLimitAboveSetpoint06 Value Limit 6 Above Setpoint HWLimitAboveRetHyst06 Value Limit 6 Above Return Hysteresis IHWLimitBelowSetpoint06 Value Limit 6 Below Setpoint HWLimitBelowRetHyst06 Value Limit 6 Below Return Hysteresis C 24 Base Address Discrete U basec 2 045 No 2 046 No 2 048 No 27050 No 2 052 No 1M02601001E Units no units percent percent percent percent ype UINT FLOAT FLOAT FLOAT FLOAT 2 gt a A A gt A Ize s lime Bit wap amp No No No No No OffsetB No No No No No wap Word No No No No No Divider Multiplier Date T www eaton com Alarm On False Writable Possible Values Yes Yes Yes Yes Yes Not Assigned 0 Van 999 Vbn 1001 Ven 1003 Vab 1005 Vbc 1007 Vca 1009 la 1011 1b 1013 Ic 1015 Total Watts 1017 Total VARs 1019 Total VA 1021 Total PF 1023 Frequency 1025 In 1027 Watts Phase A 1029 Watts
158. me Trigger Level for Input 1 Trigger Level for Input 2 Trigger Level for Input 3 Trigger Level for Input 4 Input 1 Accumulator Divisor Input 2 Accumulator Divisor Input 3 Accumulator Divisor Input 4 Accumulator Divisor Base Address Discrete 0 based 10004 No 10006 No 10008 No 10010 No 10012 No 10014 No 10283 No 10284 No 10285 No 10286 No 21100 No 2 116 No 27132 No 27148 No 27164 No 27180 No 27196 No 27212 No 27228 No 27236 No 2 244 No 21252 No 21260 No 21268 No 2 216 No 2 294 No 2 292 No 21293 No 2 294 No 27295 No 27298 No 27299 No 27300 No 27301 No IM02601001E Units no units no units no units no units no units no units no units no units no units no units no units no units no units no units no units no units no units no units no units no units no units no units no units no units no units no units no units no units no units no units no units no units no units no units Type UINT UINT UINT UINT UINT UINT UINT UINT UINT UINT STRING STRING STRING STRING STRING STRING STRING STRING STRING STRING STRING STRING STRING STRING STRING STRING UINT UINT UINT UINT UINT UINT UINT UINT Size bytes stamp OffsetBytes N N NNA A A A HB A gt 0 CO CO CO CO CO CO UU cC c N FA FA NB FA FA MM N 16 Is Time Bit No No No No No No No No No No No No No No No No No No No No No No No No No No No
159. n 7 Pin 0 400 Pluggable Terminal Block AWG 12 26 0 129 3 31 mm2 Fault Withstand Meets IEEE C37 90 1 Reading Programmable Full Scale to any PT Ratio Current Inputs See Accuracy Specifications later in this chapter Class 10 5A Nominal 10A Maximum Class 2 1A Nominal 2A Maximum Burden 0 005VA Per Phase Max at 11 Amps Pickup Current 0 1 of nominal Connections O Lug or U Lug Electrical Connection Diagram 4 1 Pass through Wire 0 177 4 5mm Maximum Diameter Diagram 4 2 Quick Connect 0 25 Male Tab Diagram 4 3 Fault Withstand 100A 10sec 300A 3sec 500A 1sec IMO2601001E www eaton com Overview and Specifications KYZ RS485 Port Specifications RS485 Transceiver meets or exceeds EIA TIA 485 Standard Type Min Input Impedance Max Output Current Wh Pulse Two wire half duplex 96k0 60mA KYZ output contacts and infrared LED light pulses through face plate See Chapter 6 for Kh values Pulse Width Full Scale Frequency Contact type Relay type Peak switching voltage Continuous load current Peak load current On resistance max Leakage current Isolation Reset State Infrared LED 90ms 3 HZ Solid State SPDT NO C NC Solid state DC 350V 120mA 350mA for 10ms 350 1UAM35OV AC 3750V NC C Closed NO C Open Peak Spectral Wavelength 940nm Reset State Internal Schematic De energized State 2 6 Off P Watt Not
160. n Max Reset Energy Accumulators Erase All Trend Data Erase Event Log WWW eaton com The Power Xpert Meter provides a detailed web interface providing information for the following main functional categories Home page a summary of current values and navigation to other pages Meter e Power Quality e Energy e I O Events e Setup Help This chapter is not an exhaustive resource but rather the intent is to provide a general understanding of the information available on each of the meter pages Note Setup information is not provided in this chapter See Setup on the Web Pages in chapter 10 for setup details A General Note About Graphs and Plots When you display a trend plot or other graph on the various meter pages this is a snap shot showing the last values when the graph was displayed plus the historical data To update with more current values re select the value that s displayed in the list of radio buttons along the left of the page Home The Home page provides a quick overview of the key current electrical values from the meter It includes navigational links to each of the pages as well as to frequently used diagrams and graphs Meter The Meter page provides Voltage Current and Frequency values You can view infor mation by measurement type or by phase By right clicking on this or any measurement page a drop down list appears that you can use to reset data accumulation or clear logs
161. nd la 1999 Demand Ib 2001 Demand Ic 2003 Demand Forward Watts 2005 Demand Lagging VARs 2007 Demand Reverse Watts 2009 Demand Leading VARs 2011 Demand VAs 2013 Avg Demand Lagging PF 2015 Avg Demand Leading PF 2017 Demand In 2019 Avg Demand Lagging PF Phase A 2051 Avg Demand Lagging PF Phase B 2053 Avg Demand Lagging PF Phase C 2055 Avg Demand Leading PF Phase A 2057 Avg Demand Leading PF Phase B 2059 Avg Demand Leading PF Phase C 2061 THD Van 5999 THD Vbn 6000 THD Ven 6001 THD la 6002 THD Ib 6003 THD Ic 6004 Modbus Register Maps Parameter Name Display Name iHWLimitldent02 Value Limit ID 42 IHWLimitAboveSetpoint02 Value Limit 2 Above Setpoint IHWLimitAboveRetHyst02 Value Limit 2 Above Return Hysteresis IHWLimitBelowSetpoint02 Value Limit 2 Below Setpoint IHWLimitBelowRetHyst02 Value Limit 2 Below Return Hysteresis C 20 Base Address Discrete J basec 27009 No 27010 No 27012 No 27014 No 27016 No IM02601001E Units no units percent percent percent percent Type UINT FLOAT FLOAT FLOAT FLOAT Size 2 gt a Aa A gt A Is Time Bit amp OffsetB No No No No No No No No No No Word No No No No No www eaton com On False Yes Yes Yes Yes Yes Swap Swap Divider Multiplier Date Alarm Writable Possible Values Not Assigned 0 Van 999 Vbn 1001 Ven 1003 Vab 1005 Vbc 1007 Vca 1009 la 1011 1b 1013 Ic 1015
162. nd not electrical measurements Alarm Triggers Out of Limits You can use the Out of Limits Triggers page to set hi and low cautionary and critical alarms for a wide range of electrical parameters see page 9 12 for a complete list of parameters For a detailed discussion of triggers see page 9 12 Triggers can cause the following actions e An event is added to the event log and can be seen in the Events page The event indicator at the top of each meter page flashes The event information is sent via SNMP as a trap SNMP is a standard protocol used to monitor and manage devices on a network The trap protocol allows a node such as the meter to send a message to SNMP monitoring management software without being queried e The event information is sent as an RSS Atom feed You can subscribe to the me ter s Atom feed by clicking the RSS icon at the top right side of the page In the RSS 10 4 IMO2601001E WWW eaton com RSS Icon WWW eaton com Setup on the Web Server Pages feeds page that appears click the Subscribe to this feed link In the dialog box that appears click the Subscribe button RSS Feeds Page Showing Subscription Dialog Box Power Xpert Meter 2000 Gateway Card device histo You are viewing a feed that cq Internet Explorer y feed it is added to the Common Feed List Updated information Explorer and other programs L p prog Cal ES EE ET fand to the Favorites Center and kept up to date Name
163. ndicated by E blinking the legend SE REES MENU MENU per row of the originating screen save new SAVE_YES ENTER configuration STOR ALL yes blinking SAVE_CONFIRM STOR ALL MENU RIGHT RIGHT DONE is password correct to the originating EDIT screen 2 sec no oe SAVE_NO M i reboo e to Main Menu 4 menu Hips to previous operating see sheet 1 no blinking ENTER mode screen see sheet 2 www eaton com IM02601001E Notes 1 Initial access is view only View access shows the existing settings At the first attempt to change a setting DOWN or RIGHT pressed password is requested if enabled and access changes to edit Edit access blinks the digit or list choice eligible for change and lights the PRG LED 2 Skip over password edit screen and menu selection if access is view only or if password is disabled 3 Scroll setting may be changed with view or edit access 4 ENTER accepts an edit MENU abandons it first DOWN or RIGHT in view See Note 1 access if password required CFG ENTER PW PASS DOWN asp one blinking increment blinking digit A 5 Navigation Maps A 6 IM02601001E www eaton com www eaton com DIP Switch Description B DIP SWITCH DESCRIPTION The DIP Switch definitions for the Gateway Card are listed in the following table S1 Position Number OFF Position Default Enable previously stored
164. ndow The Ct n screen appears You can either Change the value for the CT numerator Using the PXM 2000 Series Access one of the other CT screens by pressing the Enter button press Enter once to access the Ct d screen twice to access the Ct S screen NOTE The Ct d screen is preset to a 5 amp or 1 amp value at the factory and cannot be changed a To change the value for the CT numerator From the Ct n screen Use the Down button to select the number value for a digit Use the Right button to move to the next digit b To change the value for CT scaling From the Ct S screen Use the Right button or the Down button to choose the scaling you want The Ct S setting can be 1 10 or 100 NOTE If you are prompted to enter a password refer to the instructions earlier in the chapter 2 When the new setting is entered press the Menu button twice 3 The Store ALL YES screen appears Press Enter to save the new CT setting Example CT Settings 200 5 Amps Set the Ct n value for 200 and the Ct S value for 1 800 5 Amps Set the Ct n value for 800 and the Ct S value for 1 2 000 5 Amps Set the Ct n value for 2000 and the Ct S value for 1 10 000 5 Amps Set the Ct n value for 1000 and the Ct S value for 10 NOTES he value for Amps is a product of the Ct n value and the Ct S value Ct n and Ct S are dictated by primary current Ct d is secondary current MENU ene vom ENTER be Pos MENU ENTER PE 000
165. ne Line VLL Average 59 996 Hz O AB 59 994 Hz v 59 992 Hz 59 990 Hz 59 988 Hz 59 986 Hz 59 984 Hz 59 982 Hz 212 341 A 10PM 12AM 4AM 10AM 12PM 7 14 09 59 99 Hz Max Min Avg j Export pan 4 La gt TL Tit samo Present 59 99 Hz Min 0 0 Hz June 04 2009 12 50 45 PM 0000 Max 63 0 Hz June 04 2009 12 50 45 PM 0000 Point Timestamp Avg Hz Min Hz Max Hz July 14 2009 12 30 PM GMT 59 98867 59 98455 59 99210 July 14 2009 12 25 PM GMT 59 98887 59 98413 59 99368 July 14 2009 12 20 PM GMT 59 98951 59 98500 59 99400 July 14 2009 12 15 PM GMT 59 98901 59 98453 59 99549 July 14 2009 12 10 PM GMT 59 98892 59 98451 59 99271 July 14 2009 12 05 PM GMT 59 98877 59 98362 59 99294 July 14 2009 12 00 PM GMT 59 98870 59 98492 59 99304 July 14 2009 11 55 AM GMT 59 98862 59 98321 59 99404 COPS On Se Oo nia Copyright 2003 Eaton Corporation All Rights Reserved The Power page contains information about the present power consumption and power factor The meter calculates the following Apparent Power Factor PF for System Phase A Phase B and Phase C Apparent Power kVA for System Phase A Phase B and Phase C Real Power kW for System Phase A Phase B and Phase C Reactive Power kvar for System Phase A Phase B and Phase C The meter will log the trend for all of the above measurements as well as detect and sa
166. ng a 1 in bit N turns relay N 1 OFF this register is write able only in privileged C ON 2 bBB 275B 10076 10076 Trip Release delay timer for Relay 1 UINT16 0 to 9999 Time to trip or release 2 bC 275 10077 10077 Trip Release delay timer for Relay 2 UINT16 to 9999 2lbF 275F 10080 10080 Input 1 Accumulator Scaled UINT16 0 to 9999 resolution is 1 10 100 Disabled accumulators 1 MUN 1000 10000 or 100000 always read 0 2760 27060 10081 10081 Input 2 Accumulator Scaled UINT16 0 to 9999 oun 2163 2763 10084 10084 Relay 1 Accumulator Scaled UINT16 0 to 9999 resolution is 1 10 100 Disabled accumulators 1000 10000 or 100000 always read 0 2164 2164 10085 10085 Relay 2 Accumulator Scaled UINT16 0 to 9999 O O RN un i Digital 1 0 Pulse Output Card Overlay Note 2757 2151 10072 10072 Digital Input States UINT16 bit mapped dddd cccc bbbb aaaa Nibble dddd for input 4 cccc for input 3 bbbb for input 2 and aaaa for input 1 Within each field rightmost bit is the current state 1 closed open and bits at left are the older states 100ms apart historical States Example XXXX XXXX XXXX 0011 Current state of input 1 is closed before that it was closed too before that it was open and the oldest state known C 44 IM02601001E www eaton com 2158 2 58 10073 10073 Digital Output States UINT16 bit mapped 2159 2 59 10074 10074 Pulse Output Test Select UINT16 bit
167. no screen Cancel the save www eaton com IM02601001E 6 5 Using the PXM 2000 Series Configuring the Scroll Feature When in Auto Scroll mode the meter performs a scrolling display showing each parameter for 7 seconds with a 1 second pause between parameters The parameters that the meter displays are determined by the following conditions e They have been selected through software Refer to Chapter 8 for instructions e Whether your meter model is a PXM 2250 2260 or 2270 MENU ENTER To enable or disable Auto scrolling 1 Press the Enter button when SCrl is in the A window The Scroll YES screen appears B 2 Press either the Right or Down button if you want to access the Scroll no screen To return to the Scoll YES screen press either button E B Y 3 Press the Enter button on either the Scroll YES screen to enable auto scrolling or the Scroll no screen to disable auto scrolling The CT n screen appears this is the next Configuration mode parameter NOTE e To exit the screen without changing scrolling options press the Menu button To return to the Main Menu screen press the Menu button twice Toreturn to the scrolling or non scrolling parameters display press the Menu button three times 6 6 IMO2601001E www eaton com Configuring CT Setting The CT Setting has three parts Ct n numerator Ct d denominator and Ct S scaling 1 Press the Enter button when Ct is in the A wi
168. nt32 8 float32 16 Parameter Name mSourceRegOutput4 Value mHighValueOutput4 Value mLowValueOutput4 Value Display Name source Measure for Output 4 0 based 2 624 Output 4 Source Register High Value 27625 Output 4 Source Register Low Value 27627 4 20 mA Output Card Map Parameter Name VendorName Value ModelName Value DisplayName Value serialNumber Value softwareVersion Value iFieldReplaceableUnit Value mUpdateRate Value mFormatRegOutput1 Value www eaton com Display Name Vendor Name Model Name Display Name Serial Number Software Version Field Replaceable Unit Update Rate Output 1 Format Parameter Base Address Discrete J Dasec 1032 1064 1096 1276 2108 1605 27600 2 605 Base Address Discrete Units No no units No no units No no units Units No no units No no units No no units No no units No no units No no units No millisec onds No no units IM02601001E Type UINT FLOAT FLOAT Type STRING STRING STRING STRING STRING UINT UINT UINT Size Is Time Bit Swap bytes stamp Offset Bytes 2 No No 4 No No 4 No No Size Is Time Bit Swap I amp U Byte 64 No No 64 No No 64 No No 64 No No 48 No No 2 No No 2 No No 2 No No Modbus Register Maps owap Divider Multiplier Date Alarm On Writable Possible Values Words No No No Spec False Yes Yes Yes Not Assigned 0 Van 999 Vbn 1001 Ven 1003 Vab 1005 Vbc 1007
169. o No No No No No No No No No No No No No No No No No Yes No Yes No No Fixed 1 Sliding 2 Sync 3 Unknown 4 a LEE 15 7 b 30 45 60 5 15 30 60 Modbus Register Maps Parameter Name mintDemandLaggingVARs Value mintDemandLeadingVARs Value mlntDemandVAs Value mDemandForwardWatts Value mPeakDemandForwardWatts Value mIimeDatePeakDemandForward Watts Value mDemandReverseWatts Value mPeakDemandReverseWatts Value mIimeDatePeakDemandhReverse Watts Value mDemandLaggingVARs Value mPeakDemandLaggingVARs Value mTimeDatePeakDemandLagging VARs Value mDemandLeadingVARs Value mPeakDemandLeadingVARs Value mTimeDatePeakDemandLeading VARs Value mDemandVAs Value mPeakDemandVAs Value mIimeDatePeakDemandVAs Value mDemandAmpsAvg Value mPeakDemandAmpsAvg Value mTotalVARh Value mTotalEnergy Value mPeakDemandSumWatts Value mPeakDemandNetWatts Value mPeakDemandSumVARs Value mPeakDemandNetVARs Value C 4 Display Name Interval Demand Lagging VARs Interval Demand Leading VARs Interval Demand VAs Demand Forward Watts Peak Demand Forward Watts Peak Demand Forward Watts Time Demand Reverse Watts Peak Demand Reverse Watts Peak Demand Reverse Watts Time Demand Lagging VARs Peak Demand Lagging VARs Peak Demand Lagging VARs Time Demand Leading VARs Peak Demand Leading VARs Peak Demand Leading VARs Time Demand VAs Peak Demand VAs
170. o No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No Spec False ymd HMS ymd HMS ymd HMS ymd HMS ymd HMS www eaton com No No No No No No No No No No No No No No No No No No No No No No No No No No Modbus Register Maps Parameter Name Display Name Base Address Discrete Units Type Size Is Time Bit Swap Swap Divider Multiplier Date Alarm On Writable Possible Values 0 based bytes stamp Offset Bytes Words Spec False mTimePeakDemandNetVARs Value Time Peak Demand Net VARs 7700 No no units DATE 6 No No No ymd No HMS mintDemandSumWatts Value Interval Demand Sum Watts 1107 No watts FLOAT 4 No No No No mintDemandSumVARs Value Interval Demand Sum VARs 7709 No volt FLOAT 4 No No No No amperes reactive mPFatPeakDemandForwardWatts Power Factor at Peak Demand 7831 No power FLOAT 4 No No No No Value Forward Watts factor mPFatPeakDemandReverseWatts Power Factor at Peak Demand 7841 No power FLOAT 4 No No No No Value Reverse Watts factor mPFatPeakDemandVA Value Power Factor at Peak Demand VA 7849 No power FLOAT 4 No No No No factor mPFatPeakDemandLeadingVars Power Factor at Peak Demand 7851 No power FLOAT 4 No No No No Value Leading Vars factor mPFatPeakDemandLaggingVars Power Factor at Peak Demand Lag 7853 No power FLOAT 4 No No No No Value ging Vars factor mint
171. ofile Fixed Window Demand mode records the average demand for time intervals that you define usually 5 15 or 30 minutes Sliding Window Demand mode functions like multiple overlapping Fixed Window Demands You define the subintervals at which an average of demand is calculated An example of Sliding Window Demand mode would be a 15 minute Demand block using 5 minute subintervals thus providing a new demand reading every 5 minutes based on the last 15 minutes Utility Demand Features can be used to calculate Watt VAR VA and PF readings Voltage provides an Instantaneous Max and Min reading which displays the highest surge and lowest sag seen by the meter All other parameters offer Max and Min capability averaged over the demand period meter or true Min and Max Gateway Card Specifications Power Supply Range 1 Option Universal 90 265 VAC 050 60 Hz or 100 370 VDC 4 Option 18 60 VDC Power Consumption 5 to 10 VA 3 5 to 7 W depending on the meter s hardware configuration Voltage Inputs Measurement Category III See Accuracy Specifications later in this chapter Range Universal Auto ranging Phase to Reference Va Vb Vc to Vref 20 to 576 VAC Phase to Phase Va to Vb Vb to Vc Vc to Va 0 to 721 VAC Supported hookups 3 Element Wye 2 5 Element Wye 2 Element Delta 4 Wire Delta Input Impedance 1M Ohm Phase Burden 0 36VA Phase Max at 600 Volts 0 014VA at 120 Volts Pickup Voltage 20VAC Connectio
172. ofile is the magnitude and duration of loads applied in a prescribed time sequence including the transient and steady state characteristics of the individual loads The Power Xpert Meter logs demand profile data from the following sources e kWh kW Forward Reverse Net Sum e kVAh kVA kKVARh KVAR Received Delivered Net Sum Total Current in Amperes Phase Currents You can set the interval in lengths of 5 to 60 minutes sub interval used if Sliding is se lected and the demand type Fixed or Sliding in the Demand page under Setup The interval duration for the monthly profile is 15 minutes it is not user programmable For the Demand Profile you can select a date from the drop down list and then click Show Profile to change the graph to reflect data from a different day IM02601001E 9 9 Functions on the Web Server Pages Demand Profile 2 56 PM EDT Oct 02 2009 Event O amp Power Xpert 2270 Meter kVAh KVA kVARh KVAR Received 10PM 12AM 2AM 4AM 6AM 8AM 10AM 12PM No value E Peak R E Export O Sum Pan EN Lil d Print Data O Delivered Display Demand in Amps Date110 02 2009 Fri E Show Profile Phase A li Timestamp Value W October 02 2009 12 10 AM EDT 0 00000 October 02 2009 12 25 AM EDT 0 00000 October 02 2009 12 40 AM EDT 0 00000 October 02 2009 12 55 AM EDT 0 00000 October 02 2009 01 10 AM EDT 0 00000 October 0
173. ons see Chapter 3 Weight 2 1 2 pounds 0 9kg ships in a 6 152 4mm cube container Without Option Card IMO2601001E www eaton com Overview and Specifications Compliance UL Listing USL CNL E185559 e CE EN61326 1 FCC Part 15 Subpart B Class A e IEC 687 0 2 Accuracy e ANSI C12 20 0 2 Accuracy e ANSI C62 41 Burst e IEC 1000 4 2 ESD Accuracy See full Range specifications earlier in this chapter For 23 C 3 Phase balanced Wye or Delta load at 50 or 60 Hz as per order 5A Class 10 nominal unit Parameter Accuracy Input Range Voltage L N V 0 196 of reading 69 to 480 V Voltage L L V 120 to 600 V Current Phase A 0 15 to 5 A A Current Neutral calculated 2 of Full Scale 0 15 to 5 A Active Power Total W 0 2 of reading 1 2 0 15 to 5 Active Energy Total Wh 0 2 of reading 1 2 0 15 to 5 69 to 480 V 0 5 to 1 lag lead PF Reactive Power Total VAR 0 296 of reading 1 2 0 15 to 5 69 to 480 V 0 to 0 8 lag lead PF 45 to 65 Hz 69 to 480 V 0 5 to 1 lag lead PF Apparent Power Total VA 0 2 of reading 1 2 0 15 to 5 i Apparent Energy Total VAh 0 15 to 5 69 to 480 V 0 5 to 1 lag lead PF Power Factor 0 15 to 5 A 69 to 480 V 0 5 to 1 lag lead PF Frequency Hz 0 03 Hz 1 For 2 5 element programmed units degrade accuracy by an additional 0 5 of reading For 1A Class 2 Nominal degrade acc
174. ons as well as setup configuration Other information such as wave forms trending graphs harmonic tables and phasors are also available The Functions on the Web Server Pages chapter provides more detailed information about the functions features and options available on each page in the meter s web interface Accessing the Web Pages WWW eaton com You can access the Power Xpert Meter s built in web site from Microsoft Internet Explorer version 6 or 7 On your client machine you ll also need the Java J2SE Java Runtime Environment JRE version 6 or newer The web pages use a Java applet and you must have a local copy of Java for this to work To access the meter s web site simply enter the meter s IP address as the URL You should see something similar to the following page Loading Page Power Xpe rt Meters Loading applet please wait 3222222 If you have difficulty loading the Power Xpert Java Applet General gt Settings gt Uncheck Keep temporary files on my computer option IM02601001E 8 1 Introduction to Web Server Pages If you see a blank white or blue page and you don t see a site unavailable message the likely cause is that you either don t have Java installed or that it isn t active Check the Java console in the Windows Control Panel Home Page Default The Home page displays an overview of the most pertinent current meter readings From this page you can navigate to the Meter
175. ontacts Digital Input Card Map C 15 Digital Output Relay Contact Digital Input Card Map C 18 AU A A A A C 28 TOC 2 IM02601001E www eaton com Introduction 1 INTRODUCTION About This Manual This document is the user manual for the installation operation and maintenance of the Eaton Power Xpert Meter 2000 Series It is intended for authorized and qualified personnel who use the PXM 2250 2260 2270 meters Please refer to the specific WARNINGS and CAUTIONS in this section before proceeding For Technical Support and after hour emergencies contact our Power Quality Technical Support team at 1 800 809 2772 option 4 sub option 1 or by email at PASUPPORTOEATON COM For those outside the United States and Canada call 414 449 7100 option 4 sub option 1 You can also visit us on the web at http www eaton com and follow the Products link Warranty and Liability Information NO WARRANTIES EXPRESSED OR IMPLIED INCLUDING WARRANTIES OF FITNESS FOR A PARTICULAR PURPOSE OF MERCHANTABILITY OR WARRANTIES ARISING FROM COURSE OR DEALING OR USAGE OF TRADE ARE MADE REGARDING THE INFORMATION RECOMMENDATIONS AND DESCRIPTIONS CONTAINED HEREIN In no event will Eaton be responsible to the purchaser or user in contract in tort including negligence strict liability or otherwise for any special indirect incidental or consequential damage or loss of use of equipment plant or power system cost of capital loss of power additional e
176. or output 1 If a bit is set the output is closed other NISE opened Writing 1 in bit N sets Pulse Output N 1 in test mode Writing 0 oth erwise reestablished the output in normal operation only while in privileged session When Reading this reports which Pulse Output is under test according to the bits set or cleared 1 under test normal This register is Write able in privileged session only Simulates constant Power for the Pulse Out put under test Format is same as Kt settings for Pulse Output V is raw value in Wh pulse from 0 to 9999 dd decimal point position 00 0 XXXX 012X XXX 102XX XX 112 X XXX SEL resolution is 1 10 100 1000 10000 or 100000 Disabled accumulators always read 0 08 O O O O ee ee un www eaton com IM02601001E C 49 Modbus Register Maps Flag fields c calibration not good f configuration error 2B3F 2B3F 11072 11072 otatus of card UINT16 bit mapped 2B40 2B78 11073 11129 Reserved UINT16 NEED 2EDF 2EEO 12000 12001 Option Card 1 Input 1 Accumulator UINT32 0 to 999999999 These are unscaled E counts See option 2EE1 2EEB 12002 12007 Option Card 1 Inputs 2 4 Accumulators UINT32 0 to 999999999 card section e sealed 2EE7 2EE8 12008 12009 Option Card 1 Output or Relay 1 Accumula UINT32 0 to 999999999 versions Q Input accumulators 2EE9 2EEE 12010 12015 Option Card 1 Output or Relays 2 4 Ac UI
177. point for the above 11 12 754D 754D 30030 30030 Limit 1 In High Threshold SINT16 200 0 to 200 0 0 1 of full scale Threshold at which above limit clears www eaton com 1M02601001E C 53 normally less than or equal to the above setpoint see notes 11 12 lt O O O c Un ER D 09 Un et D lt CU O Un 754E 754E 30031 30031 Limit 1 Out Low Setpoint SINT16 200 0 to 200 0 0 1 of full scale Setpoint for the below limit LM2 see notes 11 12 SINT16 200 0 to 200 0 0 1 of full scale Same as Limit Z1 754F 794F 30032 30032 Limit 1 In Low Threshold Threshold at which below limit clears normally greater than or equal to the below setpoint see notes 11 12 same as Limit Z1 Limit 2 Limit Z3 Limit 4 Limit 5 Limit 6 Limit 7 Limit 8 Reserved SINT16 SINT16 SINT16 SINT16 SINT16 SINT16 SINT16 Same as Limit 1 7550 7 594 ZA 7599 755A 759E 7595F Jobe 7564 7 568 7569 756D JODB 73 2 75 3 7582 1583 7502 1909 75ED 75E6 75E6 30033 30037 30038 30042 30043 30047 30048 30052 30053 30057 30008 30062 30063 30067 30068 30083 30084 30147 30148 30182 30183 30183 NENNEN NEN S OS INS IO UINT16 0 65535 Increments each time programmable settings are changed occurs when new checksum is ss NEE KE Reserved Reserved P rogrammable Settings Update Counter
178. r identity and contains information used to protect data or to establish secure network connections 4 certificate store is the system area where certificates are kept To continue click Net Click the Next button The store dialog box appears WWW eaton com IM02601001E 11 3 Root Certificate Authority Installation Certificate Import Wizard store dialog Pra o ra RES x rl Lertimcate np ort Wizard Certificate Store Certificate stores are system areas where certificates are kept 4 k xj Windows can automatically select a certificate store or you can specify a location for Automatically select the certificate store based on the type of certificate Place all certificates in the following store Certificate store 5 Select Place all certificates in the following store and then click Browse 6 Select Trusted Root Certificate Authorities and then click OK Select Certificate Store E Intermediate Certification Authorities m Active Directory User Object LU Troeted Biiblichere amp Il A 5how physical stores mw T Click Next 11 4 IM02601001E WWW eaton com Security Warning Windows cannot validate that Ehe certificate is actually From Powerxpert 00 20 85 00 FF FE You should confirm its origin by contacting Powerxpert 00 20 85 00 FF FE The Following number will assist you in this process Thumbprint shal B724E399 DO4FDA60 34097499
179. ratio from the device that is being input into the meter For example if you have a KYZ module that is outputting a pulse every 1 8 kWh you would set the Accumulator Kt to be the value of the KYZ in this case either 1 8 or a ratio of that number Pulse Output Setup Edit Login Pulse Output Setup Edit 3 Quick Setup C Alarm Triggers Pulse Output 1 C Meter Setup amp Commissioni Tm SY 7 Security CI Metering Closed State Name Closed 3 Communications e 7 Option Cards Open State Name Open 3 Digital Inputs Accumulator Enabled 5 Pulse Outputs 3 Save Restore Settings Phase Source e System esch T Accumulator Kt 1 8 IM02601001E 10 15 Setup on the Web Server Pages Set Limit Channel Dialog Box 4 Set Limit Channel Option Cards 0 1 mA Analog Output Card and 4 20 mA Output Card The 0 1mA Output Option Card is an analog communication card which transmits a standard bi directional 0 1 milliamp signal Bi derectional is useful when you want the output 1 to 1 V to reflect the sign of a measure that goes negative like VAR Although you can configure offset from zero limits normally you should set the high and low limits to have the same absolute value to keep it symmetrical The 4 20 mA card transmits a standard uni directional 4 20 milliamp signal An example use of either card is in enabling the meter to communicate with an RTU Remote Terminal Unit Setup for the cards
180. reOutput2 Value Pulse Output 2 Source Measure 27469 No no units UINT 2 No No No Yes None 0 Wh 1 Wh 2 Wh 3 VARh 4 VARh 5 VARh 6 VAh 7 RecdWh 8 DlvrdWh 9 Indct Ha LM 0 CapctvVARh 11 iSourceMeasureOutput3 Value Pulse Output 3 Source Measure 27470 No no units UINT 2 No No No Yes None 0 Wh 1 Wh 2 Wh 3 VARh 4 VARh 5 VARh 6 VAh 7 RecdWh 8 DlvrdWh 9 Indct WOON 0 CapctvVARh 11 iSourceMeasureOutput4 Value Pulse Output 4 Source Measure 27471 No no units UINT 2 No No No Yes None 0 Wh 1 Wh 2 Wh 3 VARh 4 VARh 5 VARh 6 VAh 7 RecdWh 8 DlvrdWh 9 Indct lU Capctv ei 1 Outputl AccumDivisor Value Pulse Output 1 Accumulator Divisor 27472 No no units UINT 2 No No No Yes by1 0 AL y1000 3 b yl EE by100000 5 Accumulato r Disable iOutput2AccumDivisor Value Pulse Output 2 Accumulator Divisor 27473 No no units UINT 2 No No No Yes by110 by UN by100 2 by1000 3 b y10000 4 by100000 5 Accumulato r Disabled iOutput3AccumDivisor Value Pulse Output 3 Accumulator Divisor 27474 No no units UINT 2 No No No Yes by110 MIN by100 2 by1000 3 b yl Se by100000 5 Accumulato r Disable Output4AccumDivisor Value Pulse Output 4 Accumulator Divisor 27475 No no units UINT 2 No No No Yes by110 by DI hoy10012 by1000 3 b y10000 4 by100000 5 Accumulato l r Disabled 15 mKtFactorOutput1 Value Pulse Output 1 Kt Wh pulse Factor 27476 No no units UINT 2 No No No Yes mKtFactorOutput2 Value Pu
181. rom 0 to 7E22 JEZZ 32291 32291 Input 4 Accumulator Kt UINT16 bit mapped ddVVVVVV VVVVVVVV 9999 dd zdecimal point position 00 0 XXXX 012X XXX NI N N NI N N 10 XX XX 11 X XXX Block Size 512 C 58 IM02601001E www eaton com Modbus Register Maps 7D3F 7D3F 32064 32064 Update rate UINT16 0 to 65535 milliseconds Set to 0 7D40 7D40 32065 32065 Channel direction 1mA Card only UINT16 bit mapped DA1 7D 32066 32066 Format parameter for output 1 UINT16 bit mapped D 7 D42 7022 32067 32067 Source register for Output 1 UINT16 0 to 65535 This re 1 programmed with the address of the register whose value is to be used for current output In different words the current level output of analog board will change with the value of the register pointed 7043 7D44 32068 32069 High value of source register for output 1 Depends on the format parameter Value read from the source register at which High nominal current will be output Ex ample for the 4 20mA card if this register is programmed with 750 then the current output will be 20mA when the value read from the a reniste 0 7D45 7D46 32070 32071 Low value of source register for output 1 Depends on the format parameter Value read from the source register at which Low nominal current will be output Ex ample for the 4 20mA card if this register is programmed with 0 then the current output will be 4mA when
182. rov 1 0 events sewn Alarm on Value Setup Edit g Cf Quick Setup E 3 Meter 3 Network Category Measure Alarm 5 Alarm Triggers Measure Modbus RTU Device Communication Failure 3 Out Of Limits Limit Value Active v 3 Alarm on Value o CI Meter Setup amp Commissionin o 7 System o C Diagnostics Level Critical Limit v Alarm Message Modbus RTU Device Communication Failure Enable Alarm r Auto Closing Meter Setup 8 Commissioning Security Setup The PXM 2000 meter has two built in accounts and an additional password for access to data deletion functions from the meter front panel You cannot change the name of any of the accounts but you may change the password The meter account provides access to configuration settings and resets from the meter front panel This can be configured only from this page This must be a four digit password The default is 5555 which disables the need for a password to change configuration settings or resets Access to this password is only available with admin privileges The user account is for access to the meter web pages only Someone logged in as user cannot change any settings The default password is user Use the admin account to change settings or delete data The default password is admin Passwords Page 8 06 AM EDT Jul 31 2009 Event Power Xpert 2260 Meter1 L Login Users S
183. s View Limit States Figure 6 2 Meter s Face Plate with Buttons www eaton com IM02601001E 6 1 Using the PXM 2000 Series Using the Front Panel You can access four modes using the meter s front panel buttons Operating Mode Default Reset Mode Configuration Mode Information Mode Information Mode displays a sequence of screens that show model information such as Frequency and Amps Use the Menu Enter Down and Right buttons to navigate through each mode and its related screens NOTES e Appendix A contains the complete Navigation Map for the front panel display modes and their screens The meter can also be configured from the web pages see Chapter 8 for instructions Understanding Startup and Default Displays Upon Power Up the meter displays a sequence of screens Lamp Test Screen where all LEDs are lit Lamp Test Screen where all digits are lit Firmware Screen showing build number Error Screen if an error exists After startup if auto scrolling is enabled the meter scrolls the parameter readings on the right side of the front panel The Kilo or Mega LED lights showing the scale for the Wh VARh and VAh readings Figure 6 3 shows an example of a Wh reading The meter continues to provide scrolling readings until one of the buttons on the front panel is pressed causing the meter to enter one of the other Modes Figure 6 3 Wh Reading 6 2 IMO2601001E www eaton com Using the PXM
184. s Control Energy Decimal Places 3 v Ed Metering 5 Demand PR Unitsjunit 3 Communications Power Sc hieft 5 Com 2 Setup Y E mail Setup SNMP Setup Cd Option Cards Y Analog Outputs 5 SaveiRestore Settings lv Invert PF Sign Quick Setup Network The Ethernet LAN Setup Edit page provides all of the TCP IP communications settings You have two choices for configuring the meter Fixed static IP address e DHCP which resolves to a fixed IP address Eaton does not recommend using a DHCP setup that can randomly assign an IP address from a pool of possible addresses Rather if you use DHCP you should use a scheme wherein the router or layer 3 switch assigns a fixed IP based on the MAC address of the meter Thus at every reboot or power up the meter will always be granted the same IP address This method is sometimes called static DHCP Eaton recommends using a method that assigns a fixed IP address for two reasons e Software that may connect to and monitor the meter such as Power Xpert Software accesses the meter via its IP address and therefore if the meter losses power and receives a new IP address on power up the connection from the software to the meter will be broken Users will also generally navigate to the meter s web pages via the meter s IP ad dress If the meter is assigned a different IP on power up or reboot via DHCP users won t know the new address and won t be able to access the
185. slide 2 DIN Mounting Brackets into grooves in top and bottom of meter housing Snap into place 3 Secure meter to panel with lock washer and a 8 screw through each of the 2 mounting brackets Tighten with a Z2 Phillips screwdriver Do not overtighten The maximum installation torque is 0 4 Newton Meter 3 4 IM02601001E WWW eaton com Mechanical Installation PXM 2000 Series Transducer Installation The PXM 2000 Series Transducer model is installed using DIN Rail Mounting opecs for DIN Rail Mounting International Standards DIN 46277 3 DIN Rail Slotted Dimensions 0 297244 x 1 377953 x 3 inches 7 59mm x 35mm x 76 2mm millimeters Figure 3 9 DIN Rail Mounting Procedure Release Clip 1 Slide top groove of meter onto the DIN Rail 2 Press gently until the meter clicks into place NOTES e To remove the meter from the DIN Rail pull down on the Release Clip to detach the unit from the rail e f mounting with the DIN Rail provided use the Black Rubber Stoppers also provided See figure on the right NOTE ON DIN RAILS DIN Rails are commonly used as a mounting channel for most terminal blocks control devices circuit protection devices and PLCs DIN Rails are made of cold rolled steel electrolitically plated and are also available in aluminum PVC stainless steel and copper WWW eaton com IM02601001E 3 5 Mechanical Installation 3 6 IM02601001E WWW eaton com Electrical Installation
186. stamp 31Dec2099 2117 2119 04 2 8474 Negative Watts Phase A Min Avg Dmd TSTAMP 1Jan2000 1 sec Timestamp 31Dec2099 211A 2110 8475 8477 Negative Watts Phase B Min Avg Dmd TSTAMP 1Jan2000 1 sec Timestamp 31Dec2099 24D 211F 04 8 8480 Negative Watts Phase C Min Avg Dmd TSTAMP 1Jan2000 1 sec Timestamp 31Dec2099 2120 2122 0481 8483 Negative VARs Phase A Min Avg Dmd TSTAMP 1Jan2000 1 sec Timestamp 31Dec2099 2123 2125 0404 8486 Negative VARs Phase B Min Avg Dmd TSTAMP 1Jan2000 1 sec 3 Timestamp 31Dec2099 2126 2128 8487 8489 Negative VARs Phase C Min Avg Dmd TSTAMP 1Jan2000 1 sec 3 Timestamp 31Dec2099 2129 2128 0490 8492 VAs Phase A Min Avg Dmd Timestamp STAMP 1Jan2000 d R 1Dec2099 2120 212E 0493 8495 VAs Phase B Min Avg Dmd Timestamp TSTAMP 1Jan2000 sec 3 L NN un 212F 2131 0496 8498 VAs Phase C Min Avg Dmd Timestamp STAMP 1Jan2000 CN A A 1Dec2099 2132 2134 0499 8501 Positive PF Phase A Min Avg Dmd TSTAMP 1Jan2000 1 sec 3 Timestamp 31Dec2099 2135 2137 0500 8504 Positive PF Phase B Min Avg Dmd TSTAMP 1Jan2000 sec 3 Timestamp 31Dec2099 2138 213A 8505 8507 Positive PF Phase C Min Avg Dmd TSTAMP 1Jan2000 sec 3 Timestamp 31Dec2099 213B 213D 0508 8510 Negative PF Phase A Min Avg Dmd TSTAMP 1Jan2000 sec 3 Timestamp 31Dec2099 213E 2140 8511 8513 Negative PF Phase B Min Avg Dmd TSTAMP 1Jan2000 sec 3 Timestamp 31Dec2099
187. t 0608 060C 048 1549 VAR hours Negative Phase A SINT32 H 99999999 VARh per energy format 0600 060E 900 155 VAR hours Negative Phase B SINT32 H 99999999 VARh per energy format 060r 610 1552 755 VAR hours Negative Phase C SINT32 pto 99999999 Wan per energy format ba 594 1555 VAR hours Net Phase A p 99999999 VARh per energy format 06 0614 956 1557 VAR hours Net Phase B wd VARh per energy format 0615 0616 558 155 VAR hours Net Phase VARh per energy format 0617 0618 960 156 VAR hours lotal Phase A SINT32 0 VARh per energy format 0619 PETA 962 156 VAR hours lotal Phase B SINTS2 E VARh per energy format 06 TB 06 964 1505 VAR hours lotal Phase SINT32 E VARh per energy format 061D 061E 560 1967 VA hours Phase A SINTS2 E 99999999 VAh per energy format Der 0620 1588 1580 VAchours PhaseB SINT32 1099999999 IVAN per energy formal 0821 0622 1570 157 Woon PhaseC SINTS2 p1099999999 IVA per energy format Block Size H 07CF 07D0 2000 2001 Amps A Average FLOAT 0 to 9999 M A mp 0702 2002 2003 Amps B Average FLOAT 0 to 9999 M ams id 0 D3 0 DA 2004 2005 Amps C Average FLOAT 0 to 9999 M gamps 2 0 Db 0 D6 2000 2007 Positive Watts 3 Ph Average FLOAT 9999 M to 9999 mls M 07D7 0 D8 2008 2009 Positive VARs 3 Ph Average FLOAT 9999 M to 9999 DS M 07D9 O DA 2010 2011 Negative Watts 3 Ph Average FLOAT 9999 M to 999
188. t Explorer 7 To install a certificate using Microsoft Internet Explorer 7 1 Open the browser type the IP address of the meter in the address bar and select Go For example https 192 168 1 1 ca html 2 You may see the following alert page If so click Continue to this website Security certificate problem page y There is a problem with this website s security certificate The security certificate presented by this website was not issued by a trusted certificate authority security certificate problems may indicate an attempt to fool you or intercept any data you send to the server We recommend that you close this webpage and do not continue to this website Click here to close this webpage Continue to this website not recommended More information 3 If the security certificate problem page appears you ll next see the following security warning dialog box Click Yes Warning Security dialog box Warning Security The web site s certificate cannot be verified Do you want to continue 4 The install CA certificate page appears Click the Root CA Certificate link 11 6 IMO2601001E www eaton com Root Certificate Authority Installation Install CA certificate page Eaton Power Xpert Meter Windows Internet Explorer ole Oc 5 E http 192 1681 Af hd Zell File Edit View Favorites Tools Help S Snagit Ej E p EE UE Estan Power Apert Meter m v f Page Of Tools
189. t UINT16 Same as Output 1 80ED 80EE 33006 33007 Output 3 Assignment and Kt UINT16 Same as Output 1 80EF 80F0 33008 33009 Output 4 Assignment and Kt UINT16 Same as Output 1 80F1 80F1 33010 33010 Input Accumulators Scaling UINT16 bit mapped 44443333 22221111 See Relay Card above 80F2 80F2 33011 33011 Output Accumulators Scaling UINT16 bit mapped 44443333 22221111 63 ll ll Lo 7 8127 8127 33064 33064 Update rate UINTIG 0to65535 0128 8128 33065 33065 Channel direction 1mA Card only UINT16 bit mapped 4321 Full range output for 0 1mA card only A bit set 1 means full range 1mA to 1mA a bit cleared 0 means source 0 UmA to A 8129 8129 33066 33066 Format parameter for output 1 UINT16 bit mapped Format of the polled register f float 32 s signed 32 bit int u unsigned 32 bit int w signed 16 bit int b unsigned 16 bit in C 62 IM02601001E www eaton com 012A 812A 3306 3306 812B 812C 33068 33069 812D 812E 33070 33071 ee E 2F 8134 33072 33077 8135 813A 33078 33083 813B 8140 33084 33089 8141 8326 33090 33975 ource register for Output 1 High value of source register for output 1 i o Depends on the format parameter Low value of source register for output 1 SCH output 2 format register max amp mom as Analog output 3 format register max amp min s output 4 format register max amp PReseved Depends on the format parameter
190. t n value is 3450 Pt d value is 115 Pt S value is 100 345 000 69 Volts Pt n value is 345 Pt d value is 69 Pt S value is 1000 NOTE Pt n and Pt S are dictated by primary voltage Pt d is secondary voltage MENU ENTER MENU ENTER MENU ENTER Ui P Y Use buttons to set Pt n value Use buttons to set Pt d value Use buttons to select scaling 6 8 IMO2601001E www eaton com Using the PXM 2000 Series Configuring Connection Setting 1 Press the Enter button when Cnct is in the A window The Cnct screen appears A 2 Press the Right button or Down button to select a configuration The choices are re 3 EL Je e 2 5 Element Wye 2 5EL WYE 2 CT Delta 2 Ct dEL NOTE If you are prompted to enter a password refer to the instructions earlier in this chapter V 3 When you have made your selection press the Menu button twice C 4 The STOR ALL YES screen appears Press Enter to save the setting Use buttons to select configuration Configuring Communication Port Setting Port configuration consists of Address a three digit number Baud Rate 9600 19200 38400 or 57600 and Protocol DNP 3 0 Modbus RTU or Modbus ASCII 1 Press the Enter button when POrt is in the A window The Adr address screen appears You can either Enter the address Access one of the other Port screens by pressing the Enter button press Enter once to access the bAUd screen Baud Rate press Enter twi
191. tablish point to point configurations for each device on a RS485 bus connect terminals to terminals connect terminals to terminals You may connect up to 31 meters on a single bus using RS485 Before assembling the bus each meter must have a unique address refer to Chapter 8 for instructions Protect cables from sources of electrical noise Avoid both Star and Tee connections see Figure 5 4 No more than two cables should be connected at any one point on an RS485 network whether the connections are for devices converters or terminal strips Include all segments when calculating the total cable length of a network If you are not using an RS485 repeater the maximum length for cable connecting all devices is 4000 feet 1219 20 meters Connect shield to RS485 Master and individual devices as shown in Figure 5 3 You may also connect the shield to earth ground at one point Termination Resistors RT may be needed on both ends for longer length transmission lines However since the meter has some level of termination internally Termination Resistors may not be needed When they are used the value of the Termination Resistors is determined by the electrical parameters of the cable Figure 5 3 shows a representation of an RS485 Daisy Chain connection 5 2 Master device Last Slave device N Rr Rr Gd Slave deyice 1 Slave device 2 SH Ab B SH A B SH Ab B SH Al B At an Twisted p
192. ter The PXM 2000 Series meter provides additional capabilities including standard RS485 Ethernet capability Modbus and DNP 3 0 Protocols and Option cards that can be added at any time Features of the PXM 2000 Series include 0 2 Class revenue certifiable energy and demand metering e Meets ANSI C12 20 0 2 and IEC 687 0 2 classes e Multifunction measurement including voltage current power frequency energy power factor etc Power quality measurements THD and Alarm Limits Percentage of Load Bar for analog meter reading e Easy to use faceplate programming e Standard RS485 communication e Standard Ethernet communication e Optional I O Cards field upgradeable without removing installed meter In addition to the PXM 2000 Series meter with integral display transducer configuration a transducer only without a display configuration is available The PXM 2000 Series Transducer provides RS485 communication via Modbus RTU Modbus ASCII or DNP 3 0 protocols as well as standard Ethernet communication IMO2601001E WWW eaton com Overview and Specifications Voltage and Current Inputs 2 2 Universal Voltage Inputs Voltage Inputs allow measurement up to 576VAC Phase to Reference and 721VAC Phase to Phase This insures proper meter safety when wiring directly to high voltage systems One unit will perform to specification on 69 Volt 120 Volt 230 Volt 277 Volt and 347 Volt power systems NOTE Higher voltag
193. the wrong side of the setpoint Limits are specified as of full scale where full scale is automatically set appropriately for the entity being monitored current FS 2 CT numerator CT multiplier voltage FS 2 PT numerator PT multiplier 3phase FS CT numerator CT multiplier PT power numerator PT multiplier 3 SORT 3 for delta hookup single FS 2 CT numerator CT multiplier PT phase numerator PT multiplier SORT 3 for power delta hookup frequency FS 60 or 50 power FS 1 0 factor percentage FS 100 0 angle FS 180 0 C 66 IM02601001E www eaton com 14 15 16 www eaton com Modbus Register Maps THD not available shows 10000 in all THD and harmonic magnitude and phase registers for the channel THD may be unavailable due to low V or amplitude delta hookup V only or Model Option Card Identification and Configuration Block is an image of the EEPROM on the card A block of data and control registers is allocated for each option slot Interpretation of the register data depends on what card is in the slot Measurement states Off occurs during programmable settings updates Run is the normal measuring state Limp indicates that an essentail non volatile memory block is corrupted and Warmup occurs briefly approximately 4 seconds at startup while the readings stabilize Run state is required for measurement historical logging demand interval processing limit alarm evaluation min max comparisons
194. the value read from the ource register is 0 Full range output for 0 1mA card only A bit set 1 means full range 1mA to 1mA a bit cleared 0 means source only OmA to Format of the p register f float 32 s signed 32 bit int u unsigned 32 bit int w signed 16 bit int 1D47 7D4C 32072 32077 Analog output 2 format register max amp Same as analog output 1 EM min 7D4D D52 32078 32083 Analog output 3 format register max amp Same as analog output 1 EB min 1D53 7D58 320804 32089 Analog output 4 format register max amp Same as analog output 1 BEES min www eaton com IM02601001E C 59 Modbus Register Maps 80E7 90E7 33000 33000 Class ID of the Option Card 2 Settings UINT16 bit mapped cccctttt Which class cccc and type tttt of card the Op tion SEN b Card 2 e 19 olli 0126 33063 SE for Option Card 2 First Overlay Register assignments depend on which type of card is in the slot Set GE lo see below Malal 2 8326 Della 33575 a for Option Card 2 Second Overlay Register assignments depend on which type of card is in the slot See overlays below see below AAA un E 80E8 80E8 33001 33001 olave address UINT16 1 247 for Modbus none olave address of the 1 65534 for DNP unit The communica tion capable card is always a master oet to 0 when an analog 80E9 80E9 33002 33002 speed and format UINT16 bit mapped abcde fghijklm Bps
195. tings e 7 System Accumulator Enabled o 7 Diagnostics Pulse Output Solid State Relay Contacts Digital Input Card This option card has Four pulse outputs via solid state contacts Four wet dry contact sensing digital inputs Accumulators in the software count the pulses of the Inputs and Outputs the accumula tors are shown on the l O page Typically this card is used in a sub metering application where a pulse output is needed The Input Accumulators which perform the same func tion as the inputs on the relay card allow you to count the pulses from another device for example a KYZ module or another meter The Output Accumulators allow you to count the pulses being output by the card For inputs you can configure up to four inputs for your card and assign a Label Open State Label and Closed State Label for each You can also set labels and other in formation for Accumulators for the Inputs Triggers can be set as Disabled Open to Close Close to Open or on Any Transition Accumulators have both a compression factor and a device output ration setting The divisor is a compression factor for the accumulator and you can select 1 10 100 1000 10000 and 100000 For example if you choose a Divisor of 10 each time 10 state changes occur the accumulator count will increment by 1 The Accumulator Kt is the output ratio from the device that is being input into the meter For example if you have a KYZ module that
196. to it on the right face of the meter 2 Press the Right button to view additional readings for that parameter The table below shows possible readings for Operating Mode Sheet 2 in Appendix A shows the Operating Mode Navigation Map NOTE Readings or groups of readings are skipped if not applicable to the meter type or hookup or if they are disabled in the programmable settings OPERATING MODE PARAMETER READINGS POSSIBLE READINGS emere EI py LN MAX LN MIN e S NN NN MAX MIN NEUTRAL MAX NENNEN NENNEN VOLTS _ LN THD AMPS THD AMPS AMPS VA Hz VA FREQ VA FREQ VA FREQ MAX MIN E TOT KWH REC KWH DEL KWH NET KWH TO VARh KVARH KVARH _ KVARH_ KVARH POS NEG NET TOT KVAH PE e 6 10 IMO2601001E www eaton com Using the PXM 2000 Series Understanding the of Load Bar The 10 segment LED bar graph at the bottom left of the meter s front panel provides a graphic representation of Amps The segments light according to the load as shown in the Load Segment Table below When the Load is over 120 of Full Load all segments flash On 1 5 secs and Off 0 5 secs of Load Segment Table lO Segments kad gt FullLoad www eaton com 1M02601001E 6 11 Using the PXM 2000 Series Performing Watt Hour Accuracy Testing Verification To be certified for revenue metering power providers and utility companies must verify that the billing energy meter performs to the stated accuracy To confirm the met
197. ts Reserved Note All configuration edit abilities discussed in the following sections require you to login with the admin account IM02601001E 10 1 Setup on the Web Server Pages Login The Login page provides information about the number of logged in users web clients and MODBUS TCP clients Users are identified by name security level IP address and hostname You can also either logout from this page or log in as a different user Login Page 2 29 PM EDT Sep 10 2009 Power Xpert Event O 3h Ki Power Xpert 2260 Meter re Es 3 Login Current Login Info o 3 Quick Setup o 3 Alarm Triggers Number of Logged On Users 1 User logged on oe J Meter Setup amp Commissioni e CC Security o CI Metering C Communications Number of Web Clients 1 Web client e J Option Cards D Hardware Limits 3 Digital Inputs D Relay Outputs Number of MODBUS TCP Clients 10 MODBUS TCP clients D Save Restore Settings CJ System 9 J Hardware D Faceplate Display Ge IN Realtime Clock D System Firmware oe J Diagnostics D System Log D System Hardware Logged On Users List UserName Security Level IP Address Hostname Current Login admin Logout Quick Setup Meter The Quick Setup Meter page provides quick access to the most common configuration settings The Quick Setup Meter page provides access to The Wiring Configuration selection Potential Transformer PT Ratio and the Current Transformer
198. ts Type Size Is Time Bit Swap Swap Divider Multiplier Date Alarm On Writable Possible Values D based byte amp OffsetBytes Word nec False mSourceRegOutput2 Value source Measure for Output 2 21612 No no units UINT 2 No No No Yes Not Assigned 0 Van 999 Vbn 1001 Vcn 1003 Vab 1005 Vbc 1007 Vca 1009 la 1011 1b 1013 Ic 1015 Total Watts 1017 Total VARs 1019 Total VA 1021 Total PF 1023J Frequency 1025 In 1027 Watts Phase A 1029 Watts Phase B 1031 Watts Phase C 1033 VARs Phase A 1035 VARs Phase B 1037 VARs Phase C 1039 VA Phase A 1041 VA Phase B 1043J VA Phase C 1045 PF Phase A 1047 PF Phase B 1049 PF Phase C 1051 Demand la 1999 Demand Ib 2001 Demand Ic 2003 Demand Forward Watts 2005 Demand Lag ging VARs 2007 Demand Reverse Watts 2009 Demand Leading VARs 2011 Demand VAs 2013 Avg Demand Lagging PF 2015 Avg Demand Leading PF 2017 Demand In 2019 Avg Demand Lagging PF Phase A 2051 Avg Demand Lag ging PF Phase B 2053 Avg Demand Lagging PF Phase C 2055 Avg Demand Leading PF Phase A 2057 Avg Demand Leading PF Phase B 2059 Avg Demand Leading PF Phase C 2061 THD Van 5999 THD Vbn 6000 THD Vcn 6001 THD la 6002 THD Ib 6003 THD Ic 6004 mHighValue0utput2 Value Output 2 Source Register High Value 27613 No no units FLOAT 4 No No No Yes mLowValueOutput2 Value Output 2 Source Register Low Value 27615 No no units FLOAT 4 No No No Yes mFormatRegOutput3 Value Output
199. uiaveededeesuanedens 3 5 4 Electrical Installation Me EE 4 1 Considerations When Installing scc Dm mm 4 1 CT Leads Pass Through No Meter Termmapon A 4 3 Voltage and Power Supply Connections simismimrsapn in arreen eneee 4 5 Era o A oC 4 5 O PP o 4 5 5 Serial Communication Installation EE 5 1 PXM 2000 Series ee li e te 5 1 PROS OO I KYZ Output COM 2 rollito load 5 1 PXM 2000 Series Transducer Communication Information 5 4 6 Using the PU ECTS c rra 6 1 inge AR E E A 6 1 Understanding Meter Face Elements mesmesrorsasiontarorrnioierasion donan rag ekew emu n d Resa 2a bectianennocsicheusansiswsetouvennesupscnianesaunevacusanekesaeuss beets 6 1 Understanding Meter en 6 1 Jang ine Front Pane EE 6 2 Understanding Startup and Default Re 6 2 Using the Main Menu E 6 3 Mi AS E EO 6 3 S E ct e e D 6 4 BE Le Een tte ee 6 5 Configuring the Scroll Feature nennen nennen nennen nennen nnn nina ri R RR RR RR RR sa rnnRRnnnnnrnrnnnnnnrennranennanenns 6 6 Sac eri so ME uu T 6 7 sa elle nell SEUNG ss I Umm mE 6 8 C nnguing Connection SENG eege 6 9 Configuring Communication Port Seltlrng iuuat DERNEEEEEEESNEEEEEENEENEENEEENEEZESEEEEEEEENESSEEENEERESE ENER PESOS SR Ee Cd E essa a T LEO aaa UE 6 9 Using Operaning e Le RETE T Ec
200. uracy by an additional 0 5 of reading e For 1A Class 2 Nominal the input current range for accuracy specification is 20 of the values listed in the table 2 For unbalanced voltage inputs where at least one crosses the 150V autoscale threshold for example 120V 120V 208V system degrade the accuracy to 0 496 of reading 3 With reference voltage applied VA VB or VC Otherwise degrade accuracy to 0 296 See hookup diagrams 8 9 and 10 in Chapter 4 4 Atleast one voltage input minimum 20 Vac must be connected for THD measurement on current channels 69 to 480 V 0 5 to 1 lag lead PF AO AO JAAO AO AO AO 2 8 IMO2601001E WWW eaton com Mechanical Installation 3 MECHANICAL INSTALLATION Introduction The PXM 2000 Series can be installed using a standard ANSI C39 1 4 Round or an IEC 92mm DIN Square form In new installations simply use DIN or ANSI punches For existing panels pull out old analog meters and replace them with the PXM Series meter The various models use the same installation See Chapter 4 for wiring diagrams NOTE The drawings shown below and on the next page give you the meter dimensions in inches and millimeters mm shown in brackets Tolerance is 0 1 2 54 mm a 0 06 1 59 Gasket 4 85 123 19 4 85 123 19 5 02 127 51 0 95 24 04 3 25 82 55 _ 0 77 19 55 0 95 2 Figure 3 1 Meter Fa
201. ust like configuring an email application such as Outlook Express or Thunderbird If you are unsure as to how to do this ask your information technologies group or the person in charge of your mail server for assistance You can configure e The SMTP server including the server and account information You ll need the follow ing information from your system administrator to enter under Global email configura tion The meter cannot communicate using the Microsoft exchange email protocol e Avalid email account user name and password e The address of the SMTP mail server e The email address of the account Each meter can be assigned a separate email account This allows you to easily determine which meter sent the email through its address Email triggers The meter will send emails in response to any event trigger that has been enabled for email and this set includes a core set of hardware and communica tions failure triggers that you can also select The contents of this list are dependent on the option card installed in the meter Recipient specific settings for up to 10 email recipients This includes settings for sending emails when an event occurs and or clears and for sending periodic status emails You can configure the email address for each recipient by selecting a recipi ent through the Recipient drop down list and then configuring the recipient s address information by clicking the Edit button The following example is
202. ut 1 Accumulator Kt 21302 No no units UINT 2 No No No Yes mKtFactorlnput2 Value Input 2 Accumulator Kt 27303 No no units UINT 2 No No No Yes mKtFactorlnput3 Value Input 3 Accumulator Kt 27304 No no units UINT 2 No No No Yes mKtFactorlnput4 Value Input 4 Accumulator Kt 27305 No no units UINT 2 No No No Yes mOutput1Label Value Output 1 Label 27400 No no units STRING 32 No No No Yes mOutput2Label Value Output 2 Label 27416 No no units STRING 32 No No No Yes mOutput3Label Value Output 3 Label 27432 No no units STRING 32 No No No Yes mOutput4Label Value Output 4 Label 27448 No no units STRING 32 No No No Yes iSourcePhaseOutput1 Value Pulse Output 1 Source Phase 27464 No no units UINT 2 No No No Yes None 0 Phase A 1 Phase SE C 3 All Phases 4 End of Interva iSourcePhaseOutput2 Value Pulse Output 2 Source Phase 27465 No no units UINT 2 No No No Yes None 0 hase A 1 Phase B 2 Phase C 3 All Phases 4 End of d Stad iSourcePhaseOutput3 Value Pulse Output 3 Source Phase 27466 No no units UINT 2 No No No Yes None 0 Phase A 1 Phase SE C 3 All Phases 4 End of Inter iSourcePhaseOutput4 Value Pulse Output 4 Source Phase 27467 No no units UINT 2 No No No Yes None 0 GC ase A 1 Phase B 2 Phase C 3 All Phases 4 End of Interval 5 isourceMeasureOutput1 Value Pulse Output 1 Source Measure 27468 No no units UINT 2 No No No Yes NE TEEN Wh 3 VARh 4 VARh 5 VARh 6 VAh 7 RecdWh 8 DlvraWh 9 Indct l WO 0 CapctvVARh 11 isourceMeasu
203. utput range 24mA load step of 2000 20mA 300n A C AC 2500V system to outputs 28Vdc max 3 4VDC 24mA 12mA The general specifications are as follows Operating temperature Storage temperature Relative air humidity EMC Immunity interference Weight Dimensions inch W x H x L External connection Default Configuration 20 to 70 C 40 to 80 C Maximum 95 non condensing EN61000 4 2 1 60Z 0 72 x 2 68 x 3 26 AWG 12 26 0 129 3 31 mm2 5 pin 0 200 pluggable terminal block The meter automatically recognizes the installed option card during Power Up If you have not programmed a configuration for the card the unit will default to the following outputs Channel 1 Watts 1800 Watts gt 20mA Watts 1800 Watts gt 4mA O Watts gt 12mA Channel 2 VARs 1800 VARs gt 20mA VARs 1800 VARs gt 4mA O VARs gt 12mA Channel 3Phase A Voltage WYE 300 Volts gt 20mA O Volts gt 4 mA Phase A Voltage Delta 600 Volts gt 20mA Channel 4Phase A Current 10 Amps gt 20mA O Phase A Current O Amps gt 4 mA www eaton com IM02601001E 7 9 7 10 Using the I O Option Cards Wiring Diagram Analog Outputs 4 20 mA Channel Outputs 1 2 3 4 lout VLoop Common C Fig 7 6 4 Channel 4 20mA Output Card IM02601001E www eaton com Using the I O Option Cards Network Communications with the Power Xpert 2000 Series 5 The Power Xp
204. ve Minimum and Maximum values with date and time stamps for all of the above parameters IM02601001E 9 5 Functions on the Web Server Pages Quality 9 6 Locating Power Information From the Power page click one of the radio buttons on the left side of the page that rep resents the type of power measurement you want to view The page will update to display a graph with minimum maximum and average values as per the selection Power Factor Apparent 6 18 PM GMT Aug 11 2009 Event O amp Power Xpert 2270 Meter Power Factor Apparent System Apparent Power Factor a System 0 89 Lag Phase A 0 95 Lag Phase B 0 57 Lag Phase C 0 59 Lead Apparent Power 8PM 4AM Max wn E Avg Pan al Cd d 2 Tel me v Show in Lead Lag 98 var Present 0 89 Lag 70 var 27 var 2 var 8 11 08 Reactive Power Min Lag 1 0 Lag August 04 2009 02 15 00 PM 0000 Max Lag 0 0 Lag June 15 2009 01 37 30 PM 0000 Min Lead 0 3 Lead June 25 2009 09 00 00 PM 0000 Max Lead 1 0 Lag August 04 2009 02 15 00 PM 0000 Point Timestamp Min Max August 11 2009 06 10 PM GMT 0 89085 0 87121 0 91830 August 11 2009 05 55 PM GMT 0 86778 0 63913 0 92221 August 11 2009 05 40 PM GMT 0 84717 0 81496 0 88752 August 11 2009 05 25 PM GMT 0 84230 0 80827 0 88218 August 11 2009 05 10 PM GMT 0 83670 0 80634 0 90035 August 11 2009 04 55 PM GMT 0 88470 0 86916 0 90653 August 11 2009 04 40 PM GMT 0 88489 0 8669
205. w WWW eaton com This section provides information about setup including the settings that are currently ac tive and how to change settings in specific categories Setup Page When the Setup page opens a collapsed tree structure is displayed on the left side of the page Clicking topics within the structure will expand the list to include all the pages available for viewing or configuration Click one of the options to view detailed information about the selection as displayed below The information will be displayed in the midsec tion of the page Typical Setup Page 8 29 PM GMT Jul 19 2009 Power Xpert AG Event Power Xpert 2270 Meter sew El Leos El Quick Setup e E Quick Setup 3 Meter 3 Network LC Alarm Triggers Wiring Configuration 3 Phase 4 Wire Y 3CT 3 Out Of Limits 3 Alarm on Value PT Primary 600 600 oe C Meter Setup amp Commissionin 9 7 Security 3 Passwords Energy Format 8 2 Y Access Control e 7 Metering Energy Units kilo k 3 Demand Power Scale Autoranging oe C Communications 3 Com 2 Setup TN E mail Setup Power Direction View As Load CT Primary 5000 5 Meter Name Power Xpert 2270 Meter 3 SNMP Setup Invert PF Sign Not Inverted 3 Option Cards 3 Save Restore Settings oe 5 System e J Hardware 3 Faceplate Display Set 3 Real time Clock D System Firmware oe c Diagnostics R System Log 3 System Hardware Copyright 2003 Eaton Corporation All Righ
206. xpenses in the use of existing power facilities or claims against the purchaser or user by its customers resulting from the use of the information and descriptions contained herein Eaton disclaims liability for any modifications or interfaces with other equipment that are not in conformity with the specifications and information contained within this manual Any unauthorized action of this kind can jeopardize operation safety or reliability The information contained in this document is believed to be accurate at the time of publication however Eaton assumes no responsibility for any errors which may appear here and reserves the right to make changes without notice www eaton com IM02601001E 1 1 Introduction Safety Precautions All safety codes safety standards and or regulations must be strictly observed in the installation operation and maintenance of this device MN WARNINGS refer to instructions that if not followed can result in death or injury T CAUTIONS refer to instructions that if not followed can result in equipment damage JAN WARNINGS SHOCK HAZARDS IMPROPER INSTALLATION CAN CAUSE DEATH INJURY AND OR EQUIPMENT DAMAGE Follow all Warnings and Cautions Completely read and understood the information in this document before attempting to install or operate the equipment Improper wiring could cause death injury or equipment damage Only qualified personnel are to service the PXM 2000 Series TROUBLESHOOTI
207. y Powerxpert 00 20 85 00 FF FE Valid from 1 1 2008 to 1 30 2037 Install Certificate Issuer Statement 2 Select the Certification Path tab On the tab select the line with PowerXpert fol lowed by a series of hexadecimal digits Certificate General Details Certification Path Certification path Powerxpert 00 20 85 00 FF FE f 10 222 50 94 View Certificate Certificate status This CA Root certificate is not trusted mE it is not in Ehe Trusted Root Certification Authorities store 3 Click the View Certificate button The Certificate dialog box appears 11 2 IMO2601001E www eaton com Certificate General Details Certification Path Root Certificate Authority Installation Certificate Information This certificate is intended for the following purpose s Ensures the identity of a remote computer Issued to 10 222 50 94 Issued by Powerxpert 00 20 85 00 FF FE Yalid from 1 1 2008 to 1 30 2037 Install Certificate Issuer Statement 4 Click the Install Certificate button The Certificate Import Wizard appears Certificate Import Wizard Certificate Import Wizard Welcome to the Certificate Import Wizard This wizard helps vou copy certificates certificate trust lists and certificate revacatian lists From your disk Eo a certificate store 4 certificate which is issued by a certification authority is a confirmation of you
208. you press the Enter button again the Main Menu appears Ser EN camen with the next mode in the A window The Down button does not affect this screen S e f you press the Right button the Reset Demand YES or eet d EnEr e Reset Energy YES screen appears Press Enter to perform a reset LIC C NOTE If Password Protection is enabled for Reset you must E ur C C LJ C enter the four digit Password before you can reset the meter See Chapter 8 for information on Password Protection Y p Y gt To enter a password follow the instructions on the next page CAUTION Reset Demand YES resets all Max and Min values Once you have performed a reset the screen displays either rSt dMd dont or rSt EnEr dont and then resumes auto scrolling parameters www eaton com IM02601001E 6 3 Using the PXM 2000 Series Entering a Password If Password Protection has been enabled from the web pages for Reset and or Configuration see Chapter 8 for information a screen appears requesting a Password when you try to reset the meter and or configure settings through the front panel PASS appears in the A window and 4 dashes appear in the B window The leftmost dash is flashing 1 Press the Down button to scroll numbers from 0 to 9 for the flashing dash When the correct number appears for that dash use the the Right button to move to the next dash Example The left screen below shows four dashes The right screen shows the
209. ystem Setup page is divided into two sections Hardware and System Firmware Hardware Setup Faceplate Setup You can configure the meter s faceplate display Options include e Phases Displayed A A and B A B and C This field determines which phases display on the faceplate For example if you select A and B only those two phases will be displayed on the faceplate Auto Scroll This field enables or disables the scrolling of selected readings on the faceplate If enabled the readings scroll every 5 seconds Measurements to Display Check the boxes of the readings you want displayed on the faceplate of the meter You must select at least one reading Faceplate Display Setup Page gem Faceplate Display Setup Edit oe 7 Quick Setup SES Phases soe 3 Network Enable Auto Scroll v oe E Alarm Triggers Out Of Limits Measurements to Display D Alarm on Value oe C Meter Setup amp Commissionin oe J Security D Passwords D Access Control oe CC Metering D Demand oe 3 Communications D Com 2 Setup D E mail Setup 3 SNMP Setup oe Eq Option Cards D Analog Outputs D Save Restore Settings oe 5 System Eq Hardware 5 Faceplate Display Set D Real time Clock v Volts L N v Volts L L Amps w WivariPF VA Hz v Wh varh i VAh E El El Hardware Real Time Clock The Power Xpert Meter uses a real time clock for time keeping The meter can be config ured to ad
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