吴新科 - 浙江大学 - 电气工程学院

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吴新科教授博士生导师收藏完善纠错
浙江大学电气工程学院
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个人简介

博士，教授；分别于2000年和2002年在哈尔滨工业大学电气工程学院获学士和硕士学位；2006年12月获浙江大学电气工程学科博士学位；2007年1月至2009年4月在浙江大学电气学院博士后流动站工作；2010年12月晋升为副教授，2013年批准为博士生导师，2015年12月晋升教授。2010年11月至2012年5月在美国弗吉尼亚理工大学的电力电子系统中心工作和访问，合作导师为美国工程院院士Fred C.Lee教授。已负责包括科技部863课题,科技支撑计划课题,国家自然科学基金项目和企(事)业合作研发项目30余项。至今已发表SCI/EI论文150余篇，其中第一作者/通信作者在电力电子学科国际权威期刊(IEEE Trans.Power Electron.，Trans.Ind.Electron.)论文40多篇。已获授权美国发明专利7项，中国发明专利40余项。获中国电源学会科技进步一等奖(2013年，2015年)两次，浙江省科学技术二等奖1次(2013年)。博士学位论文获全国优秀博士学位论文提名奖(2009年)，获国家自然科学优秀青年基金（2015年)，获浙江省杰出青年基金(2017)，获台达科教基金会的中达青年学者奖（2016），中国电源学会青年奖(2017）。课题组指导本科生和研究生多次获得国内外电力电子领域顶级竞赛的奖项，包括多次获得IEEE未来能源挑战赛(IFEC’2013,IFEC’2017)大奖、第五届全国高校电力电子应用设计大赛特等奖（2019），以及浙江大学电气学院的首届十佳学术成果奖等。指导研究生多次获得国际学术会议的最佳论文奖，最佳口头报告奖等。课题组学术氛围浓厚，定期邀请来自行业领军企业的专家同行共同进行学术交流和研讨会，分享各自领域最新研究成果，面向行业未来发展趋势和实际应用需求，聚焦前沿科研方向。毕业学生就业方向较广，涵盖电子、通信、航空航天等众多国内外知名企业、世界500强企业。课题组科研经费充裕，诚邀电气学院、理学院、材料学院的优秀学子前来共同探索功率电子领域的奥秘！工作研究项目新型模组化高频DCX拓扑及其控制方法研究，国家自然科学基金委员会，2015-01-01~2018-12-31 变压器绕组串－并联无级自调整组合变流器研究，国家自然科学基金委员会，2011-01-01~2013-12-31 高可靠LED驱动电源技术开发及可靠性研究，科技部支撑计划，2011-01-01~2013-12-31 碳化硅及硅基IGBT多芯片串联模块研发和测试平台的建立，科技部863高新技术，2011-01-01~2013-12-31 多输出无源自均流大功率LED驱动技术研究，台达电力电子科教发展基金委，2013-07-01~2015-01-01 电源模块相关技术合作开发，企业合作，2013-04-01~2016-03-31 宽负载适应性高功率因数LED驱动器研究，企业合作，，2012-07-01~2013-12-31 可集中调光控制的高输入电压AC/DCLED驱动技术研究，浙江省科技厅公益技术项目，2011-01-03~2012-12-30 远程智能控制的大功率LED驱动系统，企业合作，2010-04-12~2012-04-11 150W高效率可调光AC/DC LED驱动器，企业合作，，2009-11-20~2010-11-20 串并联自调整的标准化开关单元电路研究，教育部其他，2009-01-10~2010-03-10 中小功率DC-DC变流器标准化新策略，教育部其他，2007-07-23~2009-03-15 教学与课程 1、＜数字电源＞本科生课程课程介绍：开关电源的数字控制技术具有控制灵活、开发和设计周期短、对参数的不一致性敏感度低等优点，成为现代开关电源技术的一个重要发展方向。随着数字处理器（DSP）的发展，数字控制的能够达到较高的开关频率，并且可以实现更佳灵活、可靠的控制方式提高开关电源的性能。通过本课程，使学生了解电源中数字控制的基本概念，基本原理，系统基本架构，以及常用的实现方式和分析方法，并具有一定的实验能力。课程性质：《数字电源》是电子信息工程专业的一门选修专业课程。主要论述应用于电力电子变换器中的数字控制的原理、方法和设计规则，是实现智能化和数字化电力电子系统和装置的一种实现技术和方法。教学目标：《数字电源》课程主要介绍数字控制策略应用到电力电子变换器电路的基本原理和方法，是电子信息工程、电气工程及其自动化、工业自动化等专业需要掌握的一门专业技术课。通过本课程的学习，能够使学生掌握应用于电力电子变换器电路的数字控制基本原理和面对的问题及其分析方法，并能够掌握基本数字控制方法的设计方法。课程设有实验环节，能够培养学生的实验操作技能和实践分析能力，为进一步学习后续课程以及从事相关专业技术工作、科学研究工作、管理工作提供必要的理论知识。《数字电源》课程不仅具有很强的理论性、应用性、工程性，还涉及能源环境、自然资源、社会责任等问题，分析和解决电力电子技术的实际问题和复杂工程问题，不仅需要理论和工程知识，还需要了解相关的社会政策、快速变化的技术规范、能源环境的社会新要求，课程培养学生正确认识工程问题对资源环境影响的意识。 2、＜现代电气传动及其应用＞研究生课程课程介绍：本课程主要介绍电力传动应用的变流器及其控制技术的基础知识和最新发展情况。包括：经典和新型电力电子器件及其特性、多相整流技术及其应用、两电平电压型逆变器及其调制策略、串联H桥多电平技术、二极管箝位型多电平技术、其他多电平变流技术等。内容涵盖了整流和逆变用变流器常用拓扑和调制技术等，并辅以最新文献检索和阅读作业以保持学生对传动领域的传动变流器的控制技术发展趋势的跟踪。最后采用课堂幻灯片展示和讨论的方式培养学生研读文献、展示自己所掌握的电气传动技术相关知识的综合能力。教学目标：通过本课程学习，电气工程方向研究生熟悉和了解电力驱动控制的基本拓扑和相应的控制方法，并培养电力驱动控制器设计的工程素养和创新思维，包括： 1：掌握电力电子大功率变流领域的基础知识，包括大功率器件物理和电气特性、大功率变流电路拓扑、大功率变流控制方法等。 2：介绍大功率变流技术的最新发展，让学生及时更新知识和了解本领域的国际研究动态，加深对本学科的认知。 3：结合本人的研究方向和课程内容，传授科研的基本素养、基本规范和创新体会，实现师生互动、教学相长。 4：结合工业界需求，进行课后项目设计，增加对大功率变流的感性认识，搭建理论知识与工业应用的桥梁。科研吴新科教授课题组主要研究方向为高密度电力电子变换技术，针对的主要应用领域包括数据中心嵌入式集成电源系统，新能源汽车车载电力电子集成系统等对效率和尺寸要求极其苛刻的电能变换领域，探索突破现有功率密度理论极限的新方法。主要承担国家自然科学基金面上／青年项目4项，科技部863，支撑计划，重点研发计划任务和课题多项。研究与成果对高性能电力电子变流技术进行了持续而深入的研究，结合多种AC-DC和DC-DC变流系统要求，围绕高效率转换这一主题，在新型软开关变流器拓扑及其推演方法、高效率高可靠的新型同步整流驱动方法、多输出无源自均流方法、高频高效率谐振变换方法等方面取得了系列创新性成果，相关研究成果成功应用到大功率LED驱动电源产品和大功率交流适配电源产品中，大幅提高产品的效率和性能，已取得超过1亿人民币的销售额，取得很好的经济和社会效益。取得的主要创新性成果包括： 1、提出了最小循环能量的有源箝位单元及构建新型有源箝位软开关DC-DC拓扑的系列方法,有效吸收了输出二极管的反向恢复能量，大幅降低了元器件的电气应力和循环损耗。 2、提出了基于互感器磁链抵消原理的原边采样同步整流驱动方法，解决了高频多谐振DC-DC变流器同步整流的可靠驱动问题。 3、提出了利用电容电荷平衡原理实现多输出精确均流的方法，解决了传统多输出均流方式效率低、成本高的问题。 4、提出了基于Buck功率因数校正拓扑的临界导通软开关控制策略及其优化方法，实现开关管的零电压开通，消除二极管反向恢复损耗，提高效率。基于上述创新成果，迄今已发表SCI/EI论文130多篇，其中SCI期刊论文30余篇。以第一/通讯作者在IEEE电力电子学科权威期刊(IEEE Trans.Power Electron.)和IEEE工业电子学会刊(IEEE Trans.Ind.Electron.)发表论文20余篇。SCI论文被IEEE/IET等多种国际知名SCI期刊他引530余次。已获授权美国专利7项、中国发明专利20余项。主持/承担国家自然科学基金项目3项，主持完成多项国家高新技术项目(863)子课题和国家支撑计划项目子课题，以及多项高效率变流技术相关的企事业单位合作项目。研究成果获2015年国家自然科学优秀青年基金，获2009年全国优秀博士学位论文提名奖，获中国电源学会科学技术奖一等奖2项，浙江省科学技术二等奖1项，中国电源学会三等奖1项。2012年受聘杭州市钱江特聘专家，2013年入选浙江省151人才工程，获IEEE电力电子应用会议(PEAC’2014)优秀论文奖。研究成果主要的研究方向为电力电子系统集成理论和方法，对系统集成理论中AC-DC和DC-DC变流器的软开关技术及变流器拓扑优化方面进行了较深入的研究，多项研究成果发表在IEEE学报上。 1：提出了一种实现零电压软开关的方法，通过少量的辅助器件，实现主电路的软开关。归纳出多类软开关电路的推演方法，按照这种方法，找出了多簇实现零电压软开关的电路。所提出的多种软开关电路能够提高变流器效率和开关频率，尤其是其中一类零电压软开关电路具有相当的工程应用价值。研究成果发表在IEEE Transactions Power Electronics和Industrial Electronics上。 2：提出了多种针对移相全桥零电压软开关电路的优化方法。对扩展零电压移相全桥的软开关范围和如何优化移相全桥的效率优化进行了分析，并提出实现软开关的最佳设计方法。对零电压零电流的移相全桥的软开关进行了优化，研究成果分别发表在IEEE Transactions Power Electronics。 3：提出了一种高频PWM控制下，变压器绕组串、并联无级调整的组合拓扑和控制策略，能够拓宽变变流器的输入和输出电压范围，便于变流器模块的统一和标准化。多项研究成果发表在IEEE会议上，并获得国家自然科学基金资助。 4：对变流器的磁集成技术的应用进行了研究，并将磁集成技术应用于多种变流器。专利成果吴新科,孟培培,钱照明，一种磁集成的零电压零电流软开关全桥电路，ZL200810120460.2. 吴新科,胡晨,张军明，输出能量直流侧回馈的电源测试系统，. 吴新科,张国兴，一种隔离型整流电路及其应用，. 吴新科，赵晨.一种具有输出电流纹波抵消作用的对称整流电路，. 吴新科，陈越.以双功率变压器实现整流管电压箝位的整流电路，. 吴新科，一种电流控制型同步整流驱动电路，. 吴新科，宽输出电压范围的高效率AC/DC组合变流器，. 吴新科，模块化的多路恒流输出的变流器，. 吴新科，以双功率变压器实现整流管电压箝位的整流电路，. 吴新科，级联型Buck-boost高功率因数AC-DC变流器及变流方法，. 吴新科，降压型功率因数校正器的控制电路，. 吴新科，一种输出能量直流侧回馈的电源测试，. 奖励荣誉研究成果获2015年国家自然科学优秀青年基金，获2009年全国优秀博士学位论文提名奖，获中国电源学会科学技术奖一等奖2项，浙江省科学技术二等奖1项，中国电源学会三等奖1项。2012年受聘杭州市钱江特聘专家，2013年入选浙江省151人才工程，获IEEE电力电子应用会议(PEAC’2014)优秀论文奖。自2016年起担任国际电力电子权威期刊的副主编(Associate Editor)和中国电源学会英文会刊的副主编(Associate Editor)。指导本科生和研究生多次获得国内外电力电子领域顶级竞赛的奖项，包括多次获得IEEE未来能源挑战赛(IFEC’2013,IFEC’2017)大奖、第五届全国高校电力电子应用设计大赛特等奖（2019），以及浙江大学电气学院的首届十佳学术成果奖等。指导研究生多次获得国际学术会议的最佳论文奖，最佳口头报告奖等。实验室介绍课题组学术氛围浓厚，定期邀请来自行业领军企业的专家同行共同进行学术交流和研讨会，分享各自领域最新研究成果，面向行业未来发展趋势和实际应用需求，聚焦前沿科研方向。毕业学生就业方向较广，涵盖电子、通信、航空航天等众多国内外知名企业、世界500强企业。

研究领域

软开关高频高密度变换方法大功率芯片化电力电子技术新能源车载电力电子系统小型化高效率信息电源系统高性能LED驱动电源技术

近期论文

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SCI期刊论文： 1)*Wu,X.K(吴新科);Zhang,J.M.;Ye,X.;Qian,Z.M,“Analysis and derivations for a family ZVS converter based on a new active clamp ZVS cell”IEEE Trans.Ind.Electron.,vol.55,No.2,pp 773-781,Feb.2008 2)*Wu,X.K(吴新科);Xie,X.G;Zhao,C.;Qian,Z.M.“Low voltage and current stress ZVZCS full bridge dc-dc converter using center tapped rectifier reset”IEEE Trans.Ind.Electron.,Vol.55,no.3,pp 1470-1477,Mar.2008 3)*Wu,X.K(吴新科);Xie,X.G;Zhang,J.M;Zhao,R.;Qian,Z.M,“Soft switched full bridge DC-DC converter with reduced circulating loss and filter requirement”IEEE Trans.On Power Electron.,Vol.22,no.5,pp 1949-1955,Sept.2007 4)*Wu,X.K(吴新科);Hua,G.C;Zhang,J.M;Qian,Z.M,“A New Current-Driven Synchronous Rectifier for Series-Parallel Resonant(LLC)DC-DC Converter”IEEE Trans.Ind.Electron.,Vol.58,no.1,pp 289-297,Jan.2011 5)*Wu,X.K.(吴新科);Zhang,J.M.;Qian,Z.M“A Simple Two-Channel LED Driver With Automatic Precise Current Sharing”IEEE Trans.Ind.Electron.,Vol.58,no.10,pp 4783-4788,Oct.2011 6)*Wu,X.K(吴新科);Zhang,J.M;Xie,X.G;Qian,Z.M,“Analysis and optimal design considerations for an improved full bridge ZVS DC-DC converter with high efficiency”IEEE Trans.on Power Electron.,Vol.21,no.5,pp 1225-1234,Sept.2006 7)*Wu,X.K(吴新科);Zhang,J.M;Ye,X.;Qian,Z.M,“Analysis and design for a new ZVS DC-DC converter with active clamping”IEEE Trans.on Power Electron.,Vol.21,pp 1572-1579,Nov.2006 8)*Wu,X.K(吴新科);Yang,J.;Zhang,J.M.;Xu,M.“Design Considerations of Soft-Switched Buck PFC Converter With Constant On-Time(COT)Control”IEEE Trans.on Power Electron.,Vol.26,no.11,pp 3144-3152,Nov.2011 9)*Wu,X.K(吴新科);Yang,J.;Zhang,J.;Qian,Z.“Variable On-Time(VOT)-Controlled Critical Conduction Mode Buck PFC'Converter for High-Input AC/DC HB-LED Lighting Applications”IEEE Trans.on Power Electron.,Vol.27,no.11,pp 4530-4539,Nov.2012 10)*Wu,X.K（吴新科）;Wang,Z.H;Zhang,J.M“Design Considerations for Dual-Output Quasi-Resonant Flyback LED Driver With Current-Sharing Transformer”IEEE Trans.on Power Electron.,Vol.28,no.10,pp 4820-4830,Oct.2013 11)*Wu,X.K(吴新科);Chen,H.“Two-Phase Hybrid Forward Convertor with Series-Parallel Auto-Regulated Transformer Windings and a Common Output Inductor”IEEE Journal of Power Electronics,Vol.13,no.5,pp 757-765,Sept.2013 12)*Wu,X.K.(吴新科);Hu,C.;zhang,J;Zhao,C.“Series–Parallel Autoregulated Charge-Balancing Rectifier for Multioutput Light-Emitting Diode Driver”IEEE Trans.Ind.Electron.,Vol.61,no.3,pp 1262-1268,Mar.2014 13)Wu,X.K（吴新科）;Chen,S.;Xiao,Q.;Sheng,K.“A 3600 V/80 A Series–Parallel-Connected Silicon Carbide MOSFETs Module With a Single External Gate Driver”IEEE Trans.on Power Electron.,Vol.29,no.5,pp 2296-2306,May.2014 14)Wu,X.K（吴新科）;Hu,C;Zhang,J;Qian,Z.'Analysis and Design Considerations of LLCC Resonant Multi-output DC/DC LED Driver With Charge Balancing and Exchanging of Secondary Series Resonant Capacitors'IEEE Trans.on Power Electron.,Vol.30,no.2,pp780-789,Feb.2015 15)Zhao,C.;Wu,X.K(吴新科);Meng,P.;Qian,Z.“Optimum Design Consideration and Implementation of a Novel Synchronous Rectified Soft-Switched Phase-Shift Full-Bridge Converter for Low-Output-Voltage High-Output-Current Applications”IEEE Trans.on Power Electron.,Vol.24,pp 388-397,Feb.2009 16)Zhang,J.M.;Xie,X.G;Wu,X.K(吴新科);Wu,G.L.;Qian,ZM.“A novel zero-current-transition full bridge DC/DC converter”IEEE Trans.on Power Electron.,Vol.21,pp 354-360,Mar.2006 17)Zhang,J.M;Huang,X.C;Wu,X.K(吴新科);Qian,ZM“A High Efficiency Flyback Converter With New Active Clamp Technique”IEEE Trans.on Power Electron.,Vol.25,no.7,pp 1775-1785,Jul.2010 18)Zhao,C.;Chen,M.;Zhang,G;Wu,XK(吴新科);Qian,Z.“A Novel Symmetrical Rectifier Configuration With Low Voltage Stress and Ultralow Output-Current Ripple”IEEE Trans.on Power Electron.,Vol.25,no.7,pp 1820-1831,Jul.2010 19)*Zhang,J;Zeng,H;Wu,XK(吴新科)“An Adaptive Blanking Time Control Scheme for an Audible Noise-Free Quasi-Resonant Flyback Converter”IEEE Trans.on Power Electron.,Vol.26,no.10,pp 2735-2742,Oct.2011 20)*Zhang,J.;Xu,L.;Wu,XK(吴新科);Qian,Z.“A 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11)*Wang,JF.;Zhang,J.M;Wu,X.K(吴新科);Shi,Ya.;Qian,ZM,“A Novel High Efficiency and Low-Cost Current Balancing Method for Multi-LED Driver”,IEEE Energy Conversion Congress and Exposition(ECCE),pp 2296-2301,Phoenix,AR,2011/9/17 12)Wu,H;Ji,S;Lee,Fred.C;Wu,X.K(吴新科),“Multi-channel constant current(MC3)LLC resonant LED driver”,Energy Conversion Congress and Exposition(ECCE),2011 IEEE,pp 2568-2575,2011/9/10 13)*Yang,J.;Wu,XK(吴新科);Zhang,JM;Qian,ZM,“Variable On-Time Controlled ZVS Buck PFC Converter for HB-LED Application”,26th Annual IEEE Applied Power Electronics Conference and Exposition(APEC),pp 65-70,Ft Worth,TX,2011/3/6 14)Meng,P.P;Wu,X.K(吴新科);Yang,J.;Chen,H.L;Qian,Z.M,“Analysis and Design Considerations for EMI and Losses of RCD Snubber in Flyback Converter”,25th Annual IEEE Applied Power Electronics Conference and Exposition,pp 642-647,Palm Springs,CA,2010 15)*Yang,J.;Wu,X.K(吴新科);Zhang,Junming;Qian,Zhaoming,“Design Considerations of a high efficiency ZVS Buck AC-DC Converter with Constant 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Front-end Dc/Dc Converter with the Capacitive Output Filter”,6th IEEE International Power Electronics and Motion Control Conference,pp 810-815,Wuhan,PEOPLES R CHINA,2009 20)Zhao,C.;Wu,X.K(吴新科);Zhang,G.;Qian,Z.M,“Variable Frequency PWM Controlled Soft Switched FB-PESI Dc/Dc Converter”,6th IEEE International Power Electronics and Motion Control Conference,pp 1378-1383,Wuhan,PEOPLES R CHINA,2009 21)Meng,P.;Wu,X.K(吴新科);Zhao,C.;Qian,Z.M,“Integrated Magnetics ZVS Full-Bridge Converter with Phase-Shift control”,24th Annual IEEE Applied Power Electronics Conference and Exposition,pp 1434-1439,Washington,DC,2009 22)Zhang,G.;Zhang,J.M;Zhao,C.;Wu,X.K(吴新科);Qian,.Z.M,“LLC Resonant DC/DC Converter with Current-Driven Synchronized Voltage-Doubler Rectifier”,IEEE Energy Conversion Congress and Exposition,pp 744-749,San Jose,CA,2009 23)Zhang,G.;Wu,X.K(吴新科);Yuan,W.;Zhang,J.;Qian,Z.M,“A New Interleaved Active-Clamp Forward Converter with Parallel Input and Series-Parallel Output”,24th Annual IEEE Applied Power Electronics Conference and Exposition,pp 40-44,Washington,DC,2009 24)Wu,X.K(吴新科);Li,B.H;Qian,Z.M.;Zhao,R.,“Current Driven Synchronous Rectifier with Primary Current Sensing for LLC Converter”,IEEE Energy Conversion Congress and Exposition,pp 738-743,San Jose,CA,2009 25)Zhao,C.;Wu,X.K(吴新科);Qian,Z.M,“The Analysis and Evaluation for the Leakage Inductance Effects of Two Front-end Dc/Dc Converters with Capacitive Output Filter”,30th International Telecommunications Energy Conference,pp 42-46,San Diego,CA,2008 26)Zhao,C.;Wu,X.K(吴新科);Yao,W.;Qian,Z.M,“Synchronous rectified Soft-switched Phase-Shift Full-Bridge converter with primary energy storage inductor”,23rd Annual IEEE Applied Power Electronics Conference(APEC 2008),pp 581-586,Austin,TX,2008 27)Zhao,C.;Wu,X.K(吴新科);Qian,Z.M,“Optimum Design Considerations for Soft-Switched Phase-shift Full-bridge Converter with Primary-side Energy Storage Inductor”,39th IEEE Power Electronic Specialists Conference(PESC 08),pp 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modes over current protection for LLC converter”,28th International Telecommunications Energy Conference,pp 231-235,Providence,RI,2006 33)Lu,W.;Wu,X.K(吴新科);Lu,Z.;Qian,Z.M,“Wide input voltage isolated Dc-Dc converter with interleaving control”,12th International Power Electronics and Motion Control Conference,pp 94-99,Portoroz,SLOVENIA,2006 34)Wu,X.K(吴新科);Zhang,JM;Wu,GL;Qian,ZM,“High efficiency phase-shift controlled hybrid full bridge DC bus converter”,21st Annual IEEE Applied Power Electronics Conference(APEC 2006),pp 1333-1338,Dallas,TX,2006 35)Zhang,J.M.;Wu,X.K.(吴新科);Zhao,C.;Ma,Y.;Qian,Z.M,“Three-level half-bridge DC/DC converter based on two-level full bridge DC/DC converter”,37th IEEE Power Electronics Specialist Conference(PESC 2006),pp 729-733,Cheju Isl,SOUTH KOREA,2006 36)Wu,X.K(吴新科);Zhang,JM;Ye,X;Qian,ZM,“A family of non-isolated ZVS DC-DC converter based on a new active clamp cell”,31st Annual Conference of the IEEE-Industrial-Electronics-Society,pp 592-597,Raleigh,NC,2005 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自2016年起担任IEEE Trans. Power Electron.的副主编(Associate Editor)和中国电源学会英文会刊副主编(Associate Editor）。

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