SIMOVERT MV Medium-Voltage Drives 660 kVA to 9100 ... - Industry

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SIMOVERT MVEngineering informationDimensioning the power section and driveEngineering the drive systemGeneral notes onengineeringThe following datasheet is forreference when selecting thesuitable output of the maincomponents needed for thedrive. The ambient conditionsat the place of installation mustbe taken into account.For a specified quote, or for ordering,further data is required.Reference lists for this purposeare available on request.6Supply grid at the drive converter terminal (Point of Common Coupling PCC)Rated voltage V N grid ________ kVRated frequency f N grid ________ HzShort-circuit power S Kmax ________ MVA (for calculating short-circuit fault)S Kmin ________ MVA (for calculating harmonics)Driven LoadType (pump, fan, ...?)________________Rated output at the drive shaft P NLoad ________ kWSpeed at rated output n NLoad ________ rpmLoad torque at rated output M NLoad ________ NmOverload factor M max /M NLoad ________Overload duration t ________ sAmbient temperature T ________ °CInstallation altitude H ________ m above sea levelLoad characteristicM(n)M(n)~ n 2= const.other@@@ (characteristic?)Speed range1 : _____Drive motorNew Siemens motor3rd-party or old motor(Data from motor selection tables section 4) only for use with square-load torque!Type / manufacturer ________ ________ / ________Rated output P N mot ________ kW ________ kWRated speed n N mot ________ rpm ________ rpmRated voltage V N mot ________ kV ________ kVPower factor cos j mot ________ ________Efficiency h N mot ________ % ________ %Rated current , N mot ________ A ________ A 1 )Current at rated operating point , mot ________ A 1 )No-load current , 0 ________ A 1 )SIMOVERT MV drive converterP NLoadRequired drive converter power P conv kVAcosj mot¼h Nmot ¼k H¼k T¼k U= kVAwith k T = ________ Current reduction factor with regard to ambient temperature acc. to Fig. 6/3k H = ________ Current reduction factor with regard to installation altitude acc. to Fig. 6/4k U = ________ Voltage reduction factor for installation altitude above 2000 m acc. to Fig. 6/5plus overload, if requiredwithout sine-wave EMC output filter 2 ) with sine-wave EMC output filter(Option Y15) 2 )Selection data on Page: 3/8, 3/12, 3/14 Selection data on Page: 3/10, 3/12, 3/16Type 6SE80_____ - _____ 6SE80_____ - _____ - ZRated output P N conv ˜ P conv ___________ kVA ___________ kVARated voltage V N conv ___________ kV ___________ kVPower factor cos j conv approx. 0.98 approx. 0.98Efficiency h conv ___________ % ___________ %Rated current , N conv ___________ A ___________ ADrive converter supplyvoltageV conv = V N conv · k U = ________ kV1) Data required when ordering for calculating the sine-waveEMC/IHV output filter of the drive converter.2) At 6 / 6.6 kV with IHV output filter.6/2 Siemens DA 63 · 2004
SIMOVERT MVEngineering informationDimensioning the power section and driveDrive converter transformerApproximated required transformer power (min.):S transP Nloadcosj conv ¼h Nmot ¼h conv ¼k trans= kVA = kVAwith k trans = ________reduction factor with regard to ambient temperature and installation altitude (to be clarified with the transformer manufacturer)Type________________ 3-winding for 12-pulse supplyRated output S N trans ˜S trans ________ kVARated voltage primary side V N grid ________ kVRated voltage secondary side V sec =V conv 2 x _____ kVImpedance voltage v k ________ %Insulation voltage secondary 1 ) ________ kVVector group (Dd0 Dy5 recommended)________Design (oil / dry / cast resin)________To help determine the driveconverter output options andthe cabling between drive converterand motor, a selection diagramis shown in Fig. 6/1.Please also refer to the furtherinformation on Page 6/19.Output optionsTransformerDrive converterYesSine-waveEMC filterStandardpowercableNo6.0/6.6 kVmotor3 rd -party/old motor> 100 mOutputreactorEMCcableYesNoCablelength< 100 mEMCcableFig. 6/1Selection of the drive converter output options and the cabling to the motorIHV output filter(integrated into thedrive converter)Standardpowercable6Nominal data and continuous operation of the drive converterThe drive converters are dimensionedaccording to the rated 4.16 kV, 6.0 kV and 6.6 kV arevoltages of 2.3 kV, 3.3 kV,current of Siemens H-compact used as a basis.and H-compact PLUS highvoltagemotors. Rated motor continuous operation withThe drives are designed fortherated output current , N . If therated current , N is used over alonger period of time (> 60 s),corresponding to the 100% valueof Fig. 6/2, then the unitreaches the maximum permissibleoperating temperaturespecified.1) Please also refer to Page 6/17 for further information.Siemens DA 63 · 2004 6/3
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SIMOVERT MVOverview11/2 Application
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SIMOVERT MVOverview 1ApplicationsSI
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SIMOVERT MVOverview 1Examples of or
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SIMOVERT MVSystem descriptionTechni
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SIMOVERT MV6SE80 Drive ConvertersDe
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SIMOVERT MVMotorsRib-cooled H-compa
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SIMOVERT MVDimension drawingsHigh-v
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H-compact PLUS shaft height 630 1RA
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SIMOVERT MVAppendixA/2 Environment,
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SIMOVERT MVAppendixSiemens contacts
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SIMOVERT MVAppendixCustomer Support
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SIMOVERT MVAppendixNotesASiemens DA
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SIMOVERT MV Medium-Voltage Drives 660 kVA to 9100 ... - Industry

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