个人简介
钟文兴,博士,浙江大学“百人计划”研究员,博士生导师。
学术成就:
已在电力电子国际顶级期刊《IEEE Transactions on Power Electronics》和《IEEE Transactions on Industrial Electronics》发表论文16篇(第一作者11篇),其中两篇获IEEE电力电子期刊论文一等奖,三篇入选ESI高被引论文。SCI他引400余次。已获授权美国发明专利2项。
职业经历:
2017.05至今研究员浙江大学
2016.03至2017.05研究助理教授香港大学
2014.01至2016.03博士后香港大学
2012.08至2013.12副研究员香港大学
教育背景:
2008.09至2012.07博士香港城市大学(导师:Prof.Ron Hui,英国皇家工程院院士)
2003.09至2007.07学士清华大学,电机系
博士后、研究生培养及招生:
课题组现招收动手能力强、有创意的博士后、博士生、硕士生和研究助理。欢迎对电力电子器件感兴趣及有相关背景的同学加入,有意者请将个人简历发至
专利成果
[1]Wenxing Zhong,Sinan Li,Wu Chen,and Shu Yuen Ron Hui,“Current balancing circuit and method,”US Patent 8,829,884,issued September 9,2014.
[2]Shu Yuen Ron Hui,Wenxing Zhong,and Ho Wing Choi,“Self-driven AC-DC synchronous rectifier for power applications”,U.S.Patent 8,913,409,issued December 16,2014.
[3]Wenxing Zhong and Shu Yuen Ron Hui,“Auxiliary Circuits for Selection and Enhancement of Multi-Frequency Wireless Power Transfer to Multiple Loads”,US Patent,9787102B2,issued October 10,2017.
[4]钟文兴,徐德鸿,“一种电动汽车无线充电无源被动式对准装置”,中国发明专利,授权,201710795635.9,授权公告日:2019-07-02
[5]钟文兴,李豪,徐德鸿,“仅通过原边移相控制实现PFC的方法”,中国发明专利,授权,201910452132.0,授权公告日:2020-10-02
研究与成功
两次获IEEE电力电子期刊论文一等奖
提出了无线充电系统的“最高效率运行”概念与相关的技术方案
提出数项无线能量传输的创新技术
提出可抑制原边电路损耗的三线圈结构
提高双频双接收端无线能量传输系统输电能力的辅助电路
通过检测原边线圈电流可实现闭环控制与优化的“充电时间控制”
可改变系统最优负载阻抗值,从而在更大负载阻抗范围实现高效率的可变线圈与补偿电路结构
在研和近期完成项目:
1、新型光伏中压电力电子装置拓扑结构、电磁兼容及建模仿真技术
2、符合人体安全标准的大功率模块化无线充电系统的研究
3、新型电动汽车无线充电平台研发与示范
4、电动汽车无线充电线圈的准确建模及优化
近期论文
查看导师新发文章
(温馨提示:请注意重名现象,建议点开原文通过作者单位确认)
[1]W.Zhong and S.Y.R.Hui,'Reconfigurable Wireless Power Transfer Systems with High Energy Efficiency Over Wide Load Range,'IEEE Transactions on Power Electronics,vol.33,no.7,pp.6379–6390,July 2017.
[2]W.Zhong and S.Y.R.Hui,'Maximum Energy Efficiency Operation of Series-Series Resonant Wireless Power Transfer Systems Using On-Off Keying Modulation,'IEEE Transactions on Power Electronics,early access,DOI:10.1109/TPEL.2017.2709341
[3]W.X.Zhong and S.Y.R.Hui,“Charging time control of wireless power transfer systems without using mutual coupling information and wireless communication system,”IEEE Transactions on Industrial Electronics,vol.64,no.1,pp.228-235,Jan.2017.
[4]Wenxing Zhong and S.Y.R.Hui,“Auxiliary circuits for power flow control in multi-frequency wireless power transfer systems with multiple receivers,”IEEE Transactions on Power Electronics,vol.30,no.10,pp.5902–5910,Oct.2015.
[5]W.X.Zhong and S.Y.R.Hui,“Maximum energy efficiency tracking for wireless power transfer systems,”IEEE Transactions on Power Electronics,vol.30,no.7,pp.4025–4034,Jul.2015.[2016 Transactions First Prize Paper Award]
[6]W.X.Zhong,C.Zhang,Xun Liu and S.Y.Ron Hui,“A methodology for making a 3-coil wireless power transfer system more energy efficient than a 2-coil counterpart for extended transmission distance,”IEEE Transactions on Power Electronics,vol.30,no.2,pp.933–942,Feb.2015.
[7]S.Y.R.Hui,Wenxing Zhong and C.K.Lee,“A critical review of recent progress in mid-range wireless power transfer,”IEEE Transactions on Power Electronics,vol.29,no.9,pp.4500–4511,Sep.2014.[2015 Transactions First Prize Paper Award;ESI Highly Cited Paper]
[8]Wenxing Zhong,Chi Kwan Lee and S.Y.Ron Hui,“General analysis on the use of Tesla’s resonators in domino forms for wireless power transfer,”IEEE Transactions on Industrial Electronics,vol.60,no.1,pp.261–270,Jan.2013.[ESI Highly Cited Paper]
[9]W.X.Zhong,Chi Kwan Lee and S.Y.Hui,“Wireless power domino-resonator systems with non-coaxial axes and circular structures,”IEEE Transactions on Power Electronics,vol.27,no.11,pp.4750–4762,Nov.2012.
[10]Chi Kwan Lee,W.X.Zhong and S.Y.R.Hui,“Effects of magnetic coupling of non-adjacent resonators on wireless power domino-resonator systems,”IEEE Transactions on Power Electronics,vol.27,no.4,pp.1905–1916,Apr.2012.[ESI Highly Cited Paper]
[11]W.X.Zhong,S.Y.Hui,W.C.Ho,Xun Liu,“Using self-driven AC–DC synchronous rectifier as a direct replacement for traditional power diode rectifier,”IEEE Transactions on Industrial Electronics,vol.59,no.1,pp.392–401,Jan.2012.
[12]W.X.Zhong,Xun Liu and S.Y.Ron Hui,“A novel single-layer winding array and receiver coil structure for contactless battery charging systems with free-positioning and localized charging features,”IEEE Transactions on Industrial Electronics,vol.58,no.9,pp.4136–4144,Sep.2011.
[13]W.X.Zhong,W.P.Choi,Wing W.C.Ho and S.Y.Hui,“Generalized self-driven AC-DC synchronous rectification techniques for single-and multiphase systems,”IEEE Transactions on Industrial Electronics,vol.58,no.8,pp.3287–3297,Aug.2011.
[14]Jie Ma,Wenxing Zhong,Pingping Chen,Yenan Chen,Dehong Xu,'An Optimization Design of Output Filter in a Grid Connected Inverter with Flexible Multilayer Foil Technique,'IEEE Transactions on Energy Conversion,vol.34,no.1,pp.221-231,Mar.2019.
[15]Minxin Wu,Wenxing Zhong,Siew-Chong Tan and S.Y.R.Hui,“A comparative study on slim 3-D receiver coil structures for omnidirectional wireless power transfer applications,”Wireless Power Transfer.vol.6,no.2,pp.85-96,Nov.2019.
Conference Papers
[1]W.X.Zhong,X.Liu and S.Y.R.Hui,“Analysis on a single-layer winding array structure for contactless battery charging systems with free-positioning and localized charging features”,in Proc.IEEE ECCE,2010,pp.658-665.
[2]W.X.Zhong,W.C.Ho and S.Y.R.Hui,“Generalized self-driven AC-DC synchronous rectification techniques for single-&multiphase systems”,in Proc.IEEE IPEC,2010,pp.2098-2105.
[3]W.X.Zhong,W.C.Ho,X.Liu and S.Y.R.Hui,“Self-driven AC-DC synchronous rectifier for power applications:A direct energy-efficient replacement for traditional diode rectifier”,in Proc.IEEE APEC,2010,pp.994-1001.
[4]Hongzhi Cui,Wenxing Zhong,Hao Li,Fengchun He,Min Chen,Dehong Xu,“A Study on the Shielding for Wireless Charging Systems of Electric Vehicles”,in Proc.IEEE APEC,2018,pp.2470-6647.
[5]Jie Ma,Yenan Chen,PingPing Chen,Wenxing Zhong,Dehong Xu,“An Integrating Structure of Output Filter for Grid Connected Inverter Based on FMLF Technique”,in Proc.IPEC-Niigata 2018-ECCE Asia,2018,pp.1118-1124.
[6]Yaguang Liu,Wenxing Zhong,Haoyuan Weng,Zheqing Li,Min Chen,Changsheng Hu,Dehong Xu,“V2G bi-directional battery charger with flexible AC/DC converter”,in Proc.IEEE ECCE,2017,pp.1439-1445.
[7]Junxiong Wu,Yuying Wu,Ning He,Wenxing Zhong,Seiki Igarashi,Tatsuhiko Fujihira,Dehong Xu,“Impact of SiC MOSFET on PV Inverter”,in Proc.IEEE ECCE,2018,pp.1853-1860.
[8]Wenxing Zhong,Hao Li,Hongzhi Cui,S.Y.R.Hui,Dehong Xu,“Maximum-Efficiency Operation of a 3.7 kW Inductive Wireless Charging System by Using On-Off Keying Modulation”,in Proc.IEEE ECCE,2018,pp.921-927.
[9]Wenxing Zhong,Dehong Xu,“Wireless EV Charging System without Air-Gap and Misalignment”,in Proc.IEEE IPEC-Niigata 2018-ECCE Asia,2018,pp.2569-2575.
[10]Wenxing Zhong,H.Cui,H.Li,A.U.Ibrahim and D.Xu,'Study on the Effect of Ferrite Layers in a Wireless Charging System with Automotive Chassis,'2018 IEEE International Power Electronics and Application Conference and Exposition(PEAC),Shenzhen,2018,pp.1-6.
[11]A.U.Ibrahim,Wenxing Zhong,H.Cui and D.Xu,'Reducing Extended Magnetic Stray Field in Wireless Charging Systems of Electric Vehicles,'2018 IEEE International Power Electronics and Application Conference and Exposition(PEAC),Shenzhen,2018,pp.1-6.
[12]Jie Ma,Changsheng Hu,Wenxing Zhong,and Dehong Xu,“An Integrated Structure for Transformer and Output Filter of a Micro-inverter with Flexible Multilayer Foil Technique,”2019 IEEE 10th International Symposium on Power Electronics for Distributed Generation Systems(PEDG),Xi'an,China,2019,pp.547-553.
[13]A.U.Ibrahim,W.Zhong,H.Cui,H.Li and D.Xu,'Magnetic Stray Field Attenuation in High-Power WPT Systems based on Modular Concept,'2019 IEEE Energy Conversion Congress and Exposition(ECCE),Baltimore,MD,USA,2019,pp.4575-4579.
[14]X.Liu,W.Zhong,H.Cui,P.Lin and D.Xu,'Precise General Modeling of Windings for Wireless Power Transfer,'2019 IEEE Energy Conversion Congress and Exposition(ECCE),Baltimore,MD,USA,2019,pp.5337-5343.
[15]C.Wang,M.Chen,H.Cui,X.Liu,W.Zhong and F.Shi,'A Novel Soft-Switching Dual-Side Phase Shift Circuit for Wireless Power Transfer,'2019 IEEE Energy Conversion Congress and Exposition(ECCE),Baltimore,MD,USA,2019,pp.5344-5351.
[16]Wenxing Zhong,Siyuan Zhang,and Dehong Xu,“A Reconfigurable Resonant Topology of Wireless Power Transfer Systems with Large Coupling Ranges,”2020 IEEE ECCE Asia,Nanjing,Accepted.