SECTION[260913.95.10] [16290]

ELECTRICALPOWERMONITORINGANDCONTROL

PART 1 - GENERAL

1.1SCOPE

A.ThissectiondefineslowvoltagepowermeteringforuseinACsystems,rated600Vorless.

1.2RELATEDDOCUMENTS

A.DrawingsandgeneralprovisionsoftheContract,includingGeneralandSupplementaryConditionsandDivision1SpecificationSections,applytothisSection.

B.[RelatedSections(whereapplicable)includethefollowing:

1.Section[26 24 13] [16441]–Switchboards

2.Section[26 24 19] [16443]–MotorControlCenters ]

1.3SUBMITTALS

A.SubmitshopdrawingsandproductdataforapprovalandfinaldocumentationinthequantitieslistedaccordingtotheConditionsoftheContract. Customername,customerlocationandcustomerordernumbershallidentifyalltransmittals.

B.[FinalDocuments:Recorddocumentationtoincludewiringdiagrams,instruction and installation manuals [andcertifiedtestreports].]

1.4RELATEDSTANDARDS

A.Meetthefollowingrecognizedstandardsforapplicationinhardenedenvironments

1.DevicemustmeetallinternationalstandardsforSafetyConstructionapplicabletothistypeofdevice:

a.UL3111-1

b.CSAC22.2No1010-1

c.IEC1010-1(EN61010-1)

2.DevicemustmeetallinternationalstandardsforElectromagneticImmunityapplicabletothistypeofdevice:

a.IEEEC.37-90.1-1989IEEEStandardSurgeWithstandCapability(SWC)TestsforProtectiveRelaysandRelaySystems(ANSI)(Allinputsexceptforthenetworkcommunicationport)

b.IEC1000-4-2(EN61000-4-2/IEC801-2)ElectrostaticDischarge(B)

c.IEC1000-4-3(EN61000-4-3/IEC801-3)RadiatedEMFieldImmunity(A)

d.IEC1000-4-4(EN61000-4-4/IEC801-4)ElectricFastTransient(B)

e.IEC1000-4-5(EN61000-4-5/IEC801-5)SurgeImmunity(B)

f.IEC1000-4-6(EN61000-4-6/IEC801-6)ConductedImmunity

g.ANSIC62.41SurgeImmunity

h.IEC1000-3-2(EN61000-3-2)Limitsforharmoniccurrentsemissions(equipmentinputcurrent16ampsperphase).

i.IEC1000-3-3(EN61000-3-3)Limitationofvoltagefluctuationsandflickerinlowvoltagesupplysystemsforequipmentwithratedcurrent16amps.

j.ENV51040RadiatedEMFieldImmunity(A)

k.ENV51041ConductedEMFieldImmunity(A)

l.EN50082-2ElectromagneticCompatibility,immunity

3.DevicemustmeetallinternationalstandardsforElectromagneticEmissions

a.FCCPart15SubpartB,ClassAClassADigitalDevice,RadiatedEmissions

b.EN55011(CISPR11)Radiated/ConductedEmissions(Group1,ClassA)

c.EN55022(CISPR22)Radiated/ConductedEmissions(ClassA)

d.EN50081-2ElectromagneticCompatibility,emissions

4.DevicemustcomplywithIEC687S0.2

B.DevicemustprovidemeasurementaccuracythatmeetsorexceedsANSIC12.20CA0.2

1.5QUALITYASSURANCE

A.ManufacturerQualifications:Manufacturerofthisequipmentshallhaveaminimumof5yearsexperienceproducingsimilarelectricalequipment.

1.Complywithrequirementsoflatestrevisionsofapplicableindustrystandards.

1.6DELIVERY,STORAGEANDHANDLING

A.Storeandhandleinstrictcompliancewithmanufacturer’sinstructionsandrecommendations. Protectfrompotentialdamagefromweatherandconstructionoperations. Ifthemetersareinstalledinequipment,storetheequipmentsocondensationwillnotformonorinit. Ifnecessary,applytemporaryheatwhererequiredtoobtainsuitableserviceconditions.

PART 2 - PRODUCTS

2.1MANUFACTURERS

A.[Thelowvoltagepowermetershallbetype9510bySiemensIndustry Inc.or pre-approved equal. Approved manufacturersare as follows:

1.Siemens (ACCESS)

1..]

2.2COMPONENTS

A.PowerQualityMeterwithAdvanced Power QualityMeasurementAccuracy

1.Provideahighaccuracypowermetermeetingtherequirementssetforthinthisspecification. Noteanyexceptionstakenwithadetaileddescription.

a.MetershallbeSiemensType9510PowerMeterwithoptionsandfeaturesdescribedinthissection.

2.BasichardwarerequirementsofthePowerQualitymeterareasfollows:

a.Voltageinputs:Thedeviceshallhavefivevoltageinputs(V1,V2,V3,V4,andVref). Thevoltageinputsshallbecapableofmeasuringfrom0to347Vrms(line-to-neutral)orfrom0to600Vrms(line-to-line). Thedeviceshallhaveprovisionsfordirectconnection(requirenoPTs)forWye(Star)systemsupto347VAC(line-to-neutral)or600VAC(line-to-line).ThedeviceshallalsohaveprovisionsfordirectconnectiontoDeltasystems(withallowanceofaccuracydegradationof0.15%)upto277VAC(line-to-neutral)or480VAC(line-to-line). Allvoltageinputsshallprovide:

1.)Dielectricwithstandof3250VACrms,60Hzfor1minute

2.)Overloadprotectionof1500VACrmscontinuous

3.)Faultcaptureto1400Vpeakatthedeviceterminals

b.Currentinputs:Thedeviceshallhavefivecurrentinputs(I1,I2,I3,I4,andI5). Thecurrentinputsshallbecapableofmeasuringupto20Arms(600Vrmsmaximumvoltage). Allcurrentinputsshallprovide:

1.)Dielectricwithstandof3250VACrms,60Hzfor1minute

2.)500Armsfor1second,non-recurring

3.)Faultcaptureto50Armsor70Apeakatthedeviceterminals

c.Powersupply:Thedeviceshallacceptpowerfrom85-240VAC(+/-10%),47to63Hzor110-330VDC(+/-10%)withoutexternalconvertersorseparateorderingoptions. Maximumburdenshallbe20VA. Ride-throughshallbeaminimumof100ms(6cycles@60Hz)for96VAC,or200ms(12cycles@60Hz)for120VACor800ms(48cycles@60Hz)for240VAC. Dielectricwithstandshallbe2300VACrms,60Hzfor1minute.

d.On-boardI/O:Thedevicesuppliedshallhavethefollowingbuilt-inI/Oforthisproject.

1.)Three(3)FormCdrycontactrelaysratedforswitchingof2500VAresistive

2.)Four(4)FormAsolidstateoutputs

3.)8Digitalinputs(S1toS8,SCOM),self-exciteddrycontactsensing,noexternalvoltagerequired,+30VDCdifferentialbetweenSCOMandS1throughS8inputs

4.)ThefollowingadditionalI/OmaybeaddedthroughtheapplicationofoneofthefollowingI/Ocards.Metermustbeabletofieldretrofittoupgradetoincludethesecards.

a.)Four0to1mAanaloginputsand8digitalinputs

b.)Four0to20mAanaloginputsand8digitalinputs

c.)Four-1to1mAanalogoutputsand8digitalinputs

d.)Four0to20mAanalogoutputsand8digitalinputs

e.)Four0to20mAanaloginputs,four0to20mAanalogoutputsand8digitalinputs

f.)Four0to1mAanaloginputs,four-1to1mAanalogoutputsand8digitalinputs ]

e.Communications

1.)Providethefollowingbuilt-inportsinthepurchasedconfiguration. Allcommunicationportsshallbestandardtechnology,asdefinedbytheIEEE. NocommunicationinterfacesnotdefinedbytheIEEEshallbeaccepted.

a.)Standardcommunicationscard:includesRS-232/RS-485(COM1),RS-485(COM2),programmableforbaudratesfrom1200to115200bitspersecond.

b.)AnIrDAopticalportatthefaceofthemeterdisplayforquickdownloadingofmeterinformationwiththeIrDAportonalaptop.

2.)Metermustbeabletofieldretrofittoupgradetothefollowingbuilt-inportoptions

a.)10/100baseTEthernetconnection– with dual master functionality.

b.)100baseFXEthernetoption– with dual master functionality.

c.)33.6kbpsModem

3.)Allcommunicationportsinthissectionmustsupportallofthefollowingcommunicationcapabilities,independentlyconfigurable.

a.)SEAbus/IONprotocol

b.)ModbusRTUprotocol

c.)DNP3.0protocol –serial and Ethernet

d.)XML

e.)Independentcommunicationsfromeachportsimultaneouslywithnonoticeableinterruptionofcommunicationsfromanyoftheothercommunicationports

f.)Protocolsmustbefieldconfigurablefromthefrontdisplayorviacommunicationsports. Thismustbecapableofbeingaccomplishedwithoutresettingthemeter,orinterruptingitsoperationsinanyway.

g.)ModemandEthernetportoptionsmustsupportsimultaneouscommunicationtothemeterinquestionandgatewaycapabilitytootherRS485devicesonthenetworkviathemeter'sRS485ports.

h.)Supportupgradeoftheinstrumentationfirmware.

i.)Supporttimesynchronizationbroadcastmessagesfromahostcomputersystem

j.)SupporttimesynchronizationtoGPStimesignal

f.1/4VGA,brightgraphicaldisplay(320x240pixelresolution)

1.)Abilitytodisplaymeterdatainmultipleintuitiveformatsatthemeterdisplay,withaminimumofthefollowingtypesofscreens.

a.)3linesof1/2"charactersforeasyviewingofcriticalpowerinformation

b.)20realtimevaluesononedisplayforsummaryoverviewofcurrentsandvoltagesorpowerreadings.

c.)Displaygraphicalvectorrepresentationofall3phasevoltagesandcurrents,updatedinrealtimeatthemeterdisplay,forquickdeterminationofimproperwiringandunusualsystemconditionswithouttheneedofacomputer.

d.)Displaygraphicalchartsofallharmonics(uptothe63rdharmonic)foreachphasevoltageandcurrent.

g.Thedeviceshallinclude5MB(optional10MB)ofmemory(NVRAM)tostorethefollowing:

1.)Allsetupdata.

2.)Atime-stampedeventlogsupportingatleast500eventswith1msresolutionshallrecordthefollowinginformationabouteachevent:

a.)Timeofevent

b.)Causeofevent

c.)Effectofevent

d.)Deviceoutputreactions

e.)Priorityofevent

3.)Fifty(50)DataRecorderModulesthatcaneachstoreupto16channelsofhistoricaltrenddatawiththefollowingfeatures:

a.)Eachdatarecordershallbeabletorecordanyhighspeed(½-cycle)orhighaccuracy(1-second)parameter,eithermeasuredorderived.

b.)Eachdatarecordershallbeenabledandtriggeredmanuallyorthroughinternaloperatingconditions,includingperiodictimerorsetpointactivity.

c.)Thenumberofrecords(depth)ofeachdatarecorderandtheoverflowconditions(stop-when-fullorcircular)shallbeprogrammable.

4.)Min/Maxdataforallmonitoredparameters

5.)Waveformrecordingsasdescribedinthepowerqualityparagraphbelow.

3.ThedevicesthatareequippedwithanEthernetportareInternetenabledandshallinclude:

a.MeterM@il®:Automaticallye-mailalarmnotificationsorscheduledsystemstatusupdates. E-mailmessagessentbythedevicescanbereceivedlikeanyordinarye-mailmessage. Datalogscanalsobesentonanevent-drivenorscheduledbasis.

b.WebMeter™:Standard builtinwebpagesinthedeviceenableaccesstoreal-timevaluesandbasicpowerqualityinformationusingastandardwebbrowser. Basicconfigurationofthedevicecanalsobeperformedthroughthebrowser.Web pages must be configurable to allow custom HTML pages to be created. Devicemustalsosupportdisplayofdownstreamdevicesfromthewebbrowser,i.e.feedersandtripunitsoncustomizablewebpageswithinthemeter.

c.XMLcompatible:Supportseasyintegrationwithcustomreporting,spreadsheet,databaseandotherapplications

4.ThedeviceshallaccommodatehighspeedModbusTCPcommunicationswhenconnectedtoEthernetPort502.

5.ThedeviceshallsupportModbusMasterCapabilitytorequestdatafromModbusRTU compatibleslavedevices,andmakethedataavailablefordisplayonthefrontpanel,logging,alarming,forcalculations and on the meters internal HTML web pages.

6.ThedeviceshallprovidetechnologyandfunctionalitytoprovidehighendPowerQualitymonitoringasfollows:

a.Continuouslysampleat256samplespercycleonallvoltageandcurrentinputstosupporthigh-endpowerqualityrequirements.

b.High-speedsag/swelldetectionofvoltagedisturbancesshallbeavailableonacycle-by-cyclebasis,providingthedurationofthedisturbanceandtheminimum,maximumandaveragevalueofthevoltageforeachphaseduringthedisturbance.Disturbanceslessthanonecycleindurationshallbedetected.

c.High-speedvoltagetransientdetection,captureandrecording:ITIC(CBEMA),IEEE

d.Nine(9)programmableoscillographicwaveformrecorderswiththefollowingfeatures:

1.)Eachwaveformrecordershallbeabletorecordadigitizedrepresentationofanyphasevoltageorcurrentsignal.

2.)Eachwaveformrecordershallbeenabledandtriggeredmanuallyorthroughinternaloperatingconditions,includingperiodictimerorsetpointactivity.

3.)Highspeedtriggeringshallbesupported.

4.)Thenumberofrecords(depth)ofeachdatarecorderandtheoverflowconditions(stop-when-fullorcircular)shallbeprogrammable.

5.)Thenumberofcyclesandthesamplingfrequencyforthewaveformshallbeprogrammable.Thefollowingdigitizedsignalrepresentationsshallbeavailable(at50Hzor60Hz):

a.)[256samplespercyclex 7cycles

b.)128samplespercyclex14cycles

c.)64samplespercyclex14cycles

d.)64samplespercyclex28cycles

e.)32samplespercyclex12cycles

f.)32samplespercyclex26cycles

g.)32samplespercyclex40cycles

h.)32samplespercyclex54cycles

i.)16samplespercyclex22cycles

j.)16samplespercyclex48cycles

k.)16samplespercyclex72cycles

l.)16samplespercyclex96cycles ]

e.HarmonicsMonitoring

1.)On-boardcalculationofindividualharmonicsforallphasecurrentsandphasetoneutralorphase-to-phasevoltages,uptothe63rdharmonic.

2.)On-boardcalculationoftotalharmonicdistortion(uptothe63rdharmonic)forallphasecurrentsandphasetoneutralorphase-to-phasevoltages.

3.)Softwareindividualandtotalharmonicdistortionuptothe127th

4.)On-boardcalculationofk-factorsforallphasecurrents

7.ThedeviceshallprovideaUserInterfacewithfeaturesasfollows:

a.Thedeviceshallbecapableofcalculatingthefollowinginformationforanyreadingat1-secondintervals:

1.)Thermaldemandcalculationsforanyparameter,withuser-programmablelengthofdemandperiodtomatchlocalutilitybillingmethod.

2.)Slidingwindowdemandsforanyparameterwithuser-programmablelengthofdemandperiodandnumberofsub-periodstomatchlocalutilitybillingmethod.

3.)PredictedDemandcalculationsofslidingwindowdemandparameters,withuser-programmablepredictiveresponsecharacteristics.

4.)Minimumvalueforanymeasuredparameter.

5.)Maximumvalueforanymeasuredparameter.

6.)Derivedvaluesforanycombinationofmeasuredorcalculatedparameter,usingthefollowingarithmetic,trigonometricandlogicfunctions(equivalentPLCcapabilities):

a.)Arithmeticfunctions:division,multiplication,addition,subtraction,power,absolutevalue,squareroot,average,max,min,RMS,sum,sum-of-squares,unaryminus,integerceiling,integerfloor,modulus,exponent,PI

b.)Trigonometricfunctions:COS,SIN,TAN,ARCCOS,ARCSIN,ARCTAN,LN,LOG10

c.)Logicfunctions:=,=>,<=,>,<,and,OR,NOT,IF

d.)Thermocouplelinearizationfunctions:TypeJ,TypeK,TypeR,TypeRTD,TypeT

e.)Temperatureconversionfunctions:CtoF,FtoC

b.Thedeviceshallsupportdirectdisplayofallparametersonthefrontpanelinuserprogrammablegroups,usingplainlanguagelabels.Simultaneousaccesstoallparametersshallbeavailablethroughanycommunicationport.

c.Thedeviceshallbefieldprogrammableasfollows:

1.)Basicparameters:Voltageinputscale,voltagemode(wye,delta,andsinglephase),currentinputscale,auxiliaryinputandoutputscalesandcommunicationssetupparametersareprogrammablefromthefrontpanel.

2.)Allbasicparametersdescribedabove,plusadditionalsetpoint/relayanddatalogsetupparametersmaybeprogrammedviathecommunicationsportusingaportableorremotelylocatedcomputerterminal.

3.)Thepriorityofsetpointeventsshallbeprogrammable.

4.)UsingIONmodules,supportcustomizedconfigurationsofalloperatingparameters.

5.)ProvisionsshallbemadetoensurethatprogrammingthroughacomputercanbesecuredbyuserIDandpassword.

6.)Provisionsshallbemadetoensurethatprogrammingthroughthefrontpanelissecuredbypassword.

d.Thedeviceshallhaveprovisionsforcreatingperiodicoraperiodicschedulesforuptotwo(2)years. Theseschedulesmaybeusedtoperformthefollowingfunctions:

1.)TimeofUse(TOU)

a.)ThedeviceshallprovideextensiveTimeofUse(TOU)functionalitytostoreandmonitorupto20yearsofseasonalrateschedules. TheTOUfeatureshallallowfourseasons,four-daytypes(eachonecapableofatleasteightswitchtimes,witharesolutionofoneminute). TheTOUfeatureshallsupportfourratetariffsandatleasttwelveholidaysperyearandshallallowperiodicself-readcapability.

2.)DemandControl

3.)LoadScheduling

4.)Logging

5.)PeriodicResetting

8.Alarmingandsetpointoperationsshallbesupported. Thefollowingfeaturesaretheminimumrequirementsforthisfunction:

a.Thedeviceshallprovidesetpointcontrolofinternalrecordingmechanismsandalldigitaloutputrelaysasfollows:

1.)24programmablesetpointsshallbeprovided,eachofwhichcanrespondtoout-of-rangeandalarmconditionsforanymeasuredparameter.

a.)Eachsetpointshallhave1-secondminimumresponsetimeforhighaccuracyoperationand½cycletypicalresponsetimeforhigh-speedoperation.

b.)Eachsetpointshallhaveprogrammablepick-upanddropoutlevels(highandlowlimits)andtimedelaysonoperateandrelease.

c.)Activityofeachsetpointshallgenerateaneventofaprogrammablepriority.Prioritylevelsshallsupportupto256levelsofalarmseverity.

d.)Anysetpointshallbeprogrammabletoanyoperatingconditionandanynumberofavailablesetpointsshallbeconcurrentlyprogrammabletooperateonaparticularconditiontosupportmultiplethresholdconditions.

e.)Setpointsshallbeprogrammabletooperateonanyoverorunderconditionfor:

(1.)Anyvoltageorcurrentinputoraverage,

(2.)Voltageorcurrentimbalance,

(3.)Neutral/groundcurrent,

(4.)kWorkVARforwardorreverse,

(5.)kVA,

(6.)Powerfactorlagorlead,

(7.)Frequency,

(8.)kWorcurrentdemandonanyphaseortotaloraverage,

(9.)Individualharmonicdistortiononanyphaseinput,

(10.)Totalharmonicdistortiononanyphaseinput,

(11.)Totalevenoroddharmonicdistortiononanyphaseinput,

(12.)Anymaximumorminimumvalue,

(13.)Multipleenergyaccumulationconditions,

(14.)Phasereversal,

(15.)Pulsecountslevels,

(16.)Anydigitalinputconditions

(17.)Anyinternallyderivedvalue

2.)AnysetpointconditionshallbeabletocontrolanynumberofdigitaloutputrelaysinanANDoranORconfiguration,usingpulsemodeorlatchmodeoperation,forcontrolandalarmpurposes.Digitaloutputsshallalsobeoperableremotelyviaanycommunicationsport.

3.)Anysetpointconditionshallbeabletoprovidebreakertriprelayoperation.

4.)Anysetpointconditionshallbeabletotriggeraninternaldataorwaveformrecorder.

5.)Consecutivehigh-speedalarmconditionsandtriggersshallbesupportedonacycle-by-cyclebasiswithno“dead”timebetweenevents(i.e.thereshallbenoneedforarearmingdelaytimebetweenevents).

6.)Itshallbepossibletouseanylogicalcombinationofanynumberofavailablesetpointconditionstocontrolanyinternalorexternalfunctionorevent.

7.)DigitaloutputsshallsupportpulseoutputrelayoperationforkWhtotal,kWhimported,kWhexported,kVARhtotal,kVARhimported,kVARhexportedandkVAhvalues.

PART 3 - EXECUTION

3.1INSTALLATION

A.Themetershallbeinstalledatthefactorybyamanufacturer’strainedemployee.

B.Additionalconnectionstometeringsystems,whereapplicable,shallbedoneinthefieldby[themanufacturer’sstart-upservicegroup][theinstallingcontractor].

3.2ADJUSTINGANDCLEANING

A.Themetersshallbeadjustedsothataccuratereadingsappearonthefrontofthemeterandthatthereadingsarewithinthemetersaccuracyrange.

B.Cleanexposedsurfacesusingmanufacturerrecommendedmaterialsandmethods.

3.3TESTING

A.PerformfactoryandinstallationtestsinaccordancewithapplicableNEC,NEMAandULrequirements.

3.4WARRANTY

A.Equipmentmanufacturerwarrantsthatallgoodssuppliedarefreeofnon-conformitiesinworkmanshipandmaterialsforoneyearfromdateofinitialoperation,butnotmorethaneighteenmonthsfromdateofshipment.

3.5[STARTUPSERVICES]

A.[Engageafactory-authorizedservicerepresentativetoperformstartupservice.]

B.[TrainOwner'smaintenancepersonnelonproceduresandschedulesforenergizingandde-energizing,troubleshooting,servicingandmaintainingequipmentandschedules.]

C.[Verifythatthe [meter is] [meters are]installedandconnectedaccordingtotheContractDocuments.]

D.[Verifythatelectricalcontrolwiringinstallationcomplieswithmanufacturer'ssubmittalbymeansofpoint-to-pointcontinuitytesting. VerifythatwiringinstallationcomplieswithrequirementsinDivision[26] [16]Sections.]

E.[Completeinstallationandstartupchecksaccordingtomanufacturer'swritteninstructions.]

ENDOFSECTION

October 5, 2018[Project Name]

Power Monitoring & Control[26 09 13.95.10] [16290]-1