简介:Chinaisanimportantcountryinironandsteelindustry.Powerelectronicsconvertersarewidelyused.Forthecoldrollingmillsofhighspeed,AC-DC-ACconvertersshouldbeused.Inthepaper,thedesignandthecontrolsystemofthelargepowerthree-levelAC-DC-ACconverterwithIGCTsisinvestigated,andaback-to-backlargepowerthree-levelAC-DC-ACconverterwithIGCTshasbeengot.Withaseriesexperiments,theperformanceoftheconverterisexamined.Theexperimentresultindicatestheconverterreachesthedesignrequirementanditshowsexcellentperformance.Theconvertersystemhasbeenputintousesafely.ItisestimatedthattheAC-DC-ACconvertersystemwillbeusedinthedrivesystemsforrollingmillsinthenearfuture.
简介:Inordertorealizethemodulardesignofthemicrogrid,thispaperproposedanewmodulartopologyfortheAC-DCmixedmicrogrid.Inthattopology,theACmicrogridunitandtheDCmicrogridunitwerepackagedtogetherbytheback-to-backconverter.Thebattery-supercapacitorhybridenergystoragesystemwasconnectedtotheDCbusofback-to-backconverter.Bythereasonabledesignonthebattery-supercapacitorhybridsystem,theenergystoragesystemcouldsupplytherapidpowerandenergysupportforthemicrogridspontaneously.Themathematicalmodelandthecontrolalgorithmofthatmicrogridtopologywerestudied.Bythesimulationanalysis,itcanbeconcludedthatAC-DCmixedmodularmicrogridtopologycouldoperatesteadilyonboththegrid-connectedmodeandtheisolatedmode.Furthermore,wecanconcludebythesimulationthatthedesignedmodularmicrogridcouldoperateuninterruptedwhenthemicrogridtopologyswitchedfromthegrid-connectedmodetotheisolatedmode.Theseamlessswitchingbecamethenaturalpropertyforthemodularmicrogrid.Asaresult,themodularmicrogridtopologycanbeconsideredasausualpower/loadmoduletorealizethefriendlypowerinteractionwiththepowergrid.
简介:摘要:AC/DC功率变换器是关键设备,将交流电转换为直流电,应用广泛。然而,目前存在输入电流谐波、效率和稳定性等问题。本研究旨在通过分析研究AC/DC功率变换器,深入了解其原理和特点,并探索优化设计方法,提高效率和稳定性。通过实验和模拟评估其性能,并讨论其在电力系统中的应用前景。这项研究将为AC/DC功率变换器的研究和应用提供参考,推动其在各领域的广泛应用,并为未来研究提供指导。
简介:Acomparativestudyoftheneedle-to-liquidplasmainthecontinuousmodewithDCandACexcitationsisdetailedinthispaper.Allplasmasstudiedhereareshowntobeglowdischarges.Thisstudyisbasedonmeasurementsofseveralkeyparameters,includingelectricalenergy,opticalemissionintensitiesofactivespecies,rotationalandvibrationaltemperatures,andtemperaturesoftheneedleandliquidelectrodes.ACplasmascanproduce1.2~5timeshigherexcitedstateactivespeciesthanDCplasmasunderthesamedissipatedpower.ACexcitedliquidplasmashavethehighestenergyutilizationefficiencyamongthethreesystems(ACexcitedplasmas,DCexcitedplasmaswithwateranodeandDCexcitedplasmaswithwatercathode);mostoftheenergyisusedtoproduceusefulspeciesratherthantoheattheelectrodesandplasmas.
简介:AdesignofthemainAC/DCconvertersystemforITERisdescribedandthecon-figurationofthemainAC/DCconvertersispresented.Toreducethereactivepowerabsorbedfromtheconverterunits,themainAC/DCconvertersaredesignedtobeseries-connectedandworkinasequentialmode.Thestructureoftheregulatoroftheconvertersystemisdescribed.AsimulationmodelwasbuiltupforthePSCAD/EMTDCcode,andthedesignwasvalidatedaccordingly.Harmonicanalysisandreactivepowercalculationoftheconvertersunitsarepresented.Theresultsrevealtheadvantageofsequentialcontrolinreducingreactivepowerandharmonics.
简介:<正>ChinaSouthernPowerGridisauniqueEHVAC/DChybridtransmissionnetworkthatoperatesinChina.Initsservicearea,thedistributionofenergyresourcesandthedevelopmentofeconomyareextremelyunbalanced,solong-distanceandbulkpowertransmissionareneeded;besides,thegeographyandclimateconditionsareserious,rains,fogs,lightningandtyphoonaswellashightemperaturearecommonalltheyearround.Facingthesechallenges,thepowergridenhancedstabilitycontrol,improvedtheequipmentandstrengthenthenetworkstructure.Inthefuture,thepowergridplanstooptimizethedispositionofpowersourcesandbuilddigitalizedpowersystem.
简介:非隔离型Weinberg变换器(NIWC)具有高功率密度、易于并联等优点,适合作为航天电源系统中的蓄电池放电调节器(BDR)和顺序开关分流最大功率调节器(S3MPR)或顺序开关串联分流最大功率调节器(S4MPR)的后级变换器。本文对该变换器的工作原理进行了分析,推导出其小信号模型,在保证输出电压电流纹波的前提下,设计了主电路参数。应用Matlab对系统传递函数进行分析后,设计了有源超前一滞后补偿网络,以保证系统的快速性和稳定性。仿真和实验结果验证了系统设计的正确性。
简介:摘要:混合集成电路失效分析在提高集成电路的可靠性方面有着至关重要的作用。对混合集成电路进行失效分析可以促进企业纠正设计、实验和生产过程中的问题,实施控制和改进措施,防止和减少同样的失效模式和失效机理重复出现,预防同类失效现象再次发生。本文从测试工艺角度出发,结合多年工作经验,论述了DC/DC电源电路故障的几种有效的分析方法。
简介:Inresponsetothecurrentimbalancephenomenonanditsharmfulness,acurrentsharingcircuitmodelisbuiltup,whichrevealstheunderlyingcausesforthecurrentimbalancethroughaquantitativeanalysis.Then,afeasibleapproachofimprovement,namelyenlargementofthelengthofconnectionbusbars,isproposed.Aftertheamendment,itcanbeseenthatthecurrentsharingcoefficientisalmostunityunderratedorfaultcurrentconditions.