吴卫民

教授、博导、TIE副主编


  • 基本情况

姓名:吴卫民        

学位/职称/导师:博士、教授、博导

所在系所:电气工程系

办公电话:021-38282633

联系地址:上海浦东新区海港大道1550号物流楼416

电子邮箱:wmwu@shmtu.edu.cn

  • 教育经历

2001.03-2005.12       浙江大学应用电子系电气工程专业,博士

1998.09-2001.03       上海大学自动化系控制理论与控制工程专业,硕士 

1993.09-1997.06       安徽理工大学电气工程系工业电气自动化专业,学士



  • 工作经历

2014.08 -至今          糖心vlog,糖心vlog电气工程系,教授

2008.08-2014.07       糖心vlog,糖心vlog电气工程系,副教授

2006.07-2008.07       糖心vlog,糖心vlog电气工程系,讲师

2005.07-2006.06       台达能源(上海)有限公司,DPECUPS研发工程师

1997.07-1998.6        广东曲任高级技工学校,教师

2008.09 -2009.03       美国弗吉尼亚理工大学,访问学者/博士后

2011.10 -2014.03       丹麦奥尔堡大学,访问学者/博士后

  • 学术与社会兼职

 Associate Editor of IEEE Transactions on Industrial Electronics

中国电工技术学会电控系统与装置专业委员会委员、中国自动化学会电气自动化专业委员会委员、中国自动化学会新能源与储能系统控制专委会委员。

全国变频调速设备标准化技术委员会(SAC/TC518)委员、全国电力电子系统和设备标准化技术委员会含半导体电力变流器的调速电气传动系统分技术委员会(TC60/SC1)委员。

  • 奖励与荣誉

 20212020“中国高被引学者”(爱思唯尔)

上海市“曙光学者(2014)、浦江学者(2014)、青年科技启明星(2009)”

  • 研究方向:可再生能源发电(光伏发电、波浪发电)、电力电子装置与控制、交直流混合微网、电机设计与控制。

  • 科研成果

上海市自然科学二等奖(排名第一)

 IEEE IES 2017最佳学生期刊论文奖(导师、通信作者)

  • 主持与参与科研项目(纵向、横向)

  1. 上海市前沿科学研究基地上海市“全渗透”深远海离岸能源动力前沿科学研究基地(培育)”2021.01~2025.12

  2. 国家自然科学基金面上项目“具有功率解耦功能的非隔离微型光伏逆变器拓扑原理及应用研究”(No.52177186),2022.01~2025.12

  3. 国家重点研发计划-国际合作重点项目Buck-Boost型高效智能光伏逆变器关键技术研究”No.2017YFGH0011642019.09-2022.12

  4. 国家自然基金面上项目基于非对称LCL滤波器的并网逆变器原理及控制研究”No.518771302019.01-2022.12

  5. 国家自然基金面上项目基于全MOSFET和功率回路电感压降最低的新型混源功率变换器理论及其在分布式光伏并网发电中的应用基No.515771142016.01-2019.12,优秀结题。

  6. 國家自然科學基金委員會及研究資助局聯合科研資助基金基于长电缆线连接的近岸多逆变器并联系统的特性分析与控制研究”No.515611650132016.01-2019.12第三方评价-优秀结题。

  7. 上海市科委重点项目 “船舶波浪补偿电储能功率变换系统” (No.17040501500),2017.07-2020.06

  • 代表性学术成果

      1. W. Wu* and T. Tan. Dual Mode Time-Sharing Cascaded Sinusoidal Inverter”, IEEE Trans. on Energy Conv., vol.22, No. 3, pp: 795-797, Sept. 2007.

      2. W. Wu*, Y. He, F. Blaabjerg, “An LLCL- Power Filter for Single-phase Grid-tied Inverter,” IEEE Trans. on Power Electron., vol. 27, no. 2, pp. 782-789, Feb. 2012.ESI SCI 引用258次)

      3. W. Wu*, Y. He, T. Tang, and F. Blaabjerg, “A New Design Method for the Passive Damped LCL- and LLCL-Filter Based Single-Phase Grid-tied Inverter”, IEEE Trans. on Ind. Electron., vol. 60, no. 10, pp. 4339-4350, Oct. 2013.ESI, ESI-hot SCI 引用294次)

      4. W. Wu*, Y. Sun, M. Huang, X.Wang, H. Wang, F. Blaabjerg, M. Liserre, and H. S. H. Chung,“A Robust Passive Damping Method for LLCL-Filter-Based Grid-Tied Inverters to Minimize the Effect of Grid Harmonic Voltages”, IEEE Trans. on  Power Electron., vol.29 no.7, pp. 3279 - 3289, July 2014.

      5. W. Wu*, Y. Sun, Z. Lin, Y. He, M. Huang, F. Blaabjerg, and H. S. H. Chung, “A Modified LLCL-filter with the Reduced Conducted EMI Noise”, IEEE Trans. on Power Electron.,vol.29 no.7, pp. 3393 – 3402, July 2014.

      6. W. Wu*, Y. Sun, Z. Lin, T. Tang, F. Blaabjerg and H. S. H. Chung, “A New LCL-filter with In-Series parallel Resonant Circuit for Single-phase Grid-tied inverter”, IEEE Trans. on Ind. Electron., vol.61, no.9, pp. 4640 – 4644, Sept. 2014.

      7. W. Wu*, M. Huang, F. Blaabjerg, “Efficiency comparison between the LLCL-filter and LCL-filter based single-phase grid-tied inverter” Archives of Electrical Engineering, vol.63, no. 1, pp. 63-79, Jan. 2014.

      8.  X. Wang*, F. Blaabjerg, and W. Wu, “Modeling and Analysis of Harmonic Stability in an AC Power-Electronics-Based Power System”, IEEE Trans. on Power Electron., vol.29 no.12, pp. 6421 - 6432, Dec. 2014. ESI, ESI-hot SCI 引用427次)

      9.  K. Lu, and W. Wu, “Electromagnetic lead screw for potential wave energy Application”, IEEE Trans. on Magnet. , vol.50, no.11, pp. 1 - 4, Nov. 2014.

      10.  M. Huang, X. Wang, P. C. Loh, F. Blaabjerg, W. Wu,“Stability Analysis and Active Damping for LLCL-filter Based Grid-Connected Inverters”, IEEJ Trans. on Industry Applications, vol.4, no.3, 187-195, pp. 2015.

      11.  K. Lu and W. Wu, “High Torque Density Transverse Flux Machine Without the Need to Use SMC Material for 3-D Flux Paths”, IEEE Trans. on Magnet., vol.51, no.3, pp. 1 - 4, Mar. 2015.

      12.  J.  Ji, W. Wu*, Y. He, Zhe Lin, F. Blaabjerg, H.S.-H. Chung, A Simple Differential Mode EMI Suppressor for the LLCL -Filter-Based Single-Phase Grid-Tied Transformerless Inverter, IEEE Trans. on Ind. Electron., vol. 62, no.7, pp. 4141 - 4147, Jul. 2015.

      13.  X., Ge, K. Lu, S. D wivedi, R. Riber, W. Wu, “Permanent Magnet Flux Online Estimation Based on Zero Voltage Vector Injection”, IEEE Trans. on Power Electron., vol.30, no.12, pp. 6506 – 6509, Dec. 2015.

      14.  K. Lu, Y. Xia, W. Wu, L. Zhang, “New Helical-shape Magnetic pole Design for Magnetic Lead Screw Enabling Structure Simplification”, IEEE Trans. on Magnet., vol.51, no.11, 8204404, Nov. 2015.

      15. W. Wu*, J. Ji, F. Blaabjerg, “Aalborg Inverter — A new type of “Buck in Buck, Boost in Boost” Grid-tied Inverter”, IEEE Trans. on Power Electron., vol.30, no.9, pp. 4784 – 4793, Sept. 2015.

      16.  Y. He, H.S.-H. Chung, Ho, C., W. Wu, “Use of Boundary Control with Second-Order Switching Surface to Reduce the System Order for Deadbeat Controller in Grid-Connected Inverter”, IEEE Trans. on Power Electron., vol.31, no.3, pp. 2638 – 2653, Mar. 2016.

      17.  Y. Liu, W. Wu*, Y. He, Z. lin, F. Blaabjerg, H.S.-H. Chung,” An Efficient and Robust Hybrid Damper for LCL- or LLCL-based Grid-Tied Inverter with Strong Grid-side Harmonic Voltage Effect Rejection”, IEEE Trans. on Ind. Electron., vol.63, no.2, pp. 926 – 936, Feb. 2016.IEEEIES学会最佳学生期刊论文(每年在IEEE Trans. on Ind. Electron.IEEE Trans. on Ind. Inform.IEEEInd. Mag. 三个国际权威期刊中选出唯一一篇获奖论文)

      18.  Z. Liu , H. Wu , Y. Liu, J. Ji, W. Wu*, F. Blaabjerg, “Modelling of the Modified-LLCL-Filter Based Single-Phase Grid-Tied Aalborg Inverter”, IET Power Electron., vol. 10, no. 2, pp. 151 – 155, Feb. 2017.

      19. W. Wu*, Y. Liu, Y.  He,  H. S. h. Chung, M. Liserre, F. Blaabjerg, “Damping Methods of Resonances Caused by LCL-Filter-Based Current-Controlled Grid-tied Power Inverters: an Overview”,  IEEE Trans. on Ind. Electron., vol. 64, no. 9, pp. 7402 - 7413, Sept. 2017.ESI, SCI 引用171次)

      20. W. Wu*, M. Liserre* and H. S. H. Chung*, "New Technique Trends for Power Converters in Distributed Power Generation Systems - Part I," IEEE Trans. on Ind. Electron., vol. 64, no. 9, pp. 7399-7401, Sept. 2017.

      21.  Y. Jiang, W. Wu*, Y. He, H. S. h. Chung, F. Blaabjerg, "A New Passive Filter Design Method for Overvoltage Suppression and Bearing Currents Mitigation in a Long Cable Based PWM Inverter-Fed Motor Drive System," IEEE Trans. on Power Electron., vol. 32, no. 10, pp. 7882 – 7893, Oct. 2017.

      22.  Y. He, H. S. H. Chung, C. N. M. Ho, W. Wu, "Modified Cascaded Boundary-Deadbeat Control for a Virtually-Grounded Three-Phase Grid-Connected Inverter with LCL Filter," IEEE Trans. on Power Electron., vol. 32, no. 10, pp. 8163 – 8180, Oct. 2017.

      23.  Y. He, Y H.S.-H. Chung, Ho, C., W. Wu, “Direct Current Tracking Using Boundary Control with Second-Order Switching Surface for Three-Phase Three-Wire Grid-Connected Inverter”, IEEE Trans. on Power Electron., vol. 32, no. 7, pp. 5723 - 5740, July 2017.

      24. W. Wu*, H. Wang, Y. Liu, M. Huang, F. Blaabjerg, “A  Dual Buck-Boost  AC/DC Converter for DC Nano--Grid with Three Terminal Outputs”, IEEE Trans. on Ind. Electron., vol. 64, no. 1, pp. 295-299, Jan. 2017.

      25. W. Wu*, M. Liserre* and H. S. H. Chung*, "New Technique Trends for Power Converters in Distributed Power Generation Systems: Part II," IEEE Trans. on Ind. Electron., vol. 65, no. 1, pp. 673-675, Jan. 2018.

      26.  X. Mu*, J. Wang*, W. Wu* and F. Blaabjerg*, "A Modified Multifrequency Passivity-Based Control for Shunt Active Power Filter With Model-Parameter-Adaptive Capability," IEEE Trans. on Ind. Electron.,  vol. 65, no. 1, pp. 760-769, Jan. 2018.

      27.  V. S. P. Cheung, S. C. R. YEUNG, H. S. H. Chung, A. W. L. Lo, W. Wu, "A Transformer-less Unified Power Quality Conditioner with Fast Dynamic Control,"  IEEE Trans. on Power Electron.,  vol. 33, no. 5, pp. 3926-3937, May 2018..

      28.  H. Wang, W. Wu *, H. S. H. CHUNG and F. Blaabjerg, "Coupled-Inductor-Based Aalborg Inverter with Input DC Energy Regulation," IEEE Trans. on Ind. Electron., vol. 65, no. 5, pp. 3826-3836, May 2018.

      29.  Y. He, H. S. H. Chung, J. Lai, X. Zhang, W. Wu, “Active Cancellation of Equivalent Grid Impedance for Improving Stability and Injected Power Quality of Grid Connected Inverter under Variable Grid Condition”,  IEEE Trans. on Power Electron., vol. 33, no. 11, pp. 9387-9398, Nov. 2018.

      30.  H. Wang, W. Wu*, Y. Li and F. Blaabjerg, "A Coupled-Inductor-Based Buck-Boost AC/DC Converter with Balanced DC Output Voltages," IEEE Trans. on Power Electron., vol. 34, no. 1, pp. 151-159, Jan. 2019.

      31.  Z. Zhang, W. Wu*, et al., "Principle and Robust Impedance-Based Design of Grid-tied Inverter with LLCL-Filter under Wide Variation of Grid-Reactance," IEEE Trans. on Power Electron., vol. 34, no. 5, pp. 4362-4374, May 2019.

      32.  L. Zhu*W. Wu, et al., "An Improved Anisotropic Vector Preisach Hysteresis Model Taking Account of   Rotating Magnetic Fields," IEEE Trans. on Magnetics, vol. 55, no. 6, pp. 1-4, June 2019, Art no. 7300404.

      33.  H. Wang, W. Wu*, N. Gao, Y. He, H. S. Chung and F. Blaabjerg, "Modified dual buck–boost AC/DC converter with self-balanced DC output voltages," IET Power Electronics, vol. 12, no. 5, pp. 1170-1178, 1 5 2019

      34.  X. Chen, W. Wu*, N. Gao, J. Liu, H. Chung, F. Blaabjerg,” Finite control set model predictive control for an LCL-filtered grid-tied inverter with full status estimations under unbalanced grid voltage”, Energies 12 (14), 2691, 2019

      35.  M. Huang, H. Li, W. Wu, F .Blaabjerg,” Observer-Based Sliding Mode Control to Improve Stability of Three-Phase LCL-Filtered Grid-Connected VSIs”, Energies 12 (8), 1421, 2019

      36.  A. Zhao, W. Wu*, Z. Sun, L. Zhu, K. Lu, H. Chung, F. Blaabjerg,” A Flower Pollination Method Based Global Maximum Power Point Tracking Strategy for Point-Absorbing Type Wave Energy Converters”, Energies 12 (7), 1343,2019

      37.  H. Wang, W. Wu*, S. Zhang, Y. He, H. S. Chung and F. Blaabjerg, "A modified Aalborg inverter extracting maximum power from one PV array source," CPSS Transactions on Power Electronics and Applications, vol. 4, no. 2, pp. 109-118, June 2019.

      38.  Z. Shuai, Y. Li, W. Wu, C. Tu, A. Luo and Z. J. Shen, "Divided DQ Small-Signal Model: A New Perspective for the Stability Analysis of Three-Phase Grid-Tied Inverters," IEEE Trans. on Ind. Electron., vol. 66, no. 8, pp. 6493-6504, Aug. 2019.

      39.  X. Li, W. Wu*, H. Wang, N. Gao, H.S.H. Chung, F. Blaabjerg, “A New Buck-Boost AC/DC Converter with Two-Terminal Output Voltage for DC Nano-Grid”, Energies, vol.12, no.20, 3808, 2019.

      40.  J. Liu, W. Wu*, H. S. Chung and F. Blaabjerg, "Disturbance Observer-Based Adaptive Current Control With Self-Learning Ability to Improve the Grid-Injected Current for LCL-Filtered Grid-Connected Inverter," IEEE Access, vol. 7, pp. 105376-105390, 2019.

      41. X. Mu*, G. Chen, X. Wang J. Zhao, W. Wu* and F. Blaabjerg, “Multi-Frequency Single Loop Passivity-Based Control for LC-Filtered Stand-Alone Voltage Source Inverter,” Energies, vol.12, no.23, 4548, 2019.

      42. W. Wu*, J. Liu, Y. Li and F. Blaabjerg, "Individual Channel Design-Based Precise Analysis and Design for Three-Phase Grid-Tied Inverter with LCL-Filter under Unbalanced Grid Impedance," IEEE Trans. on Power Electron. , vol. 35, No.5pp. 5381-5396, May 2020.

      43.  X. Ding, Y. Liu, D. Zhao, W. Wu, “Generalized Cockcroft-Walton Multiplier Voltage Z-Source   Inverters,” IEEE Trans. on Power Electron. , vol. 35, no. 7, pp. 7175-7190, July 2020.

      44.  F. Zheng, W. Wu*, B. Chen and E. Koutroulis, "An Optimized Parameter Design Method for Passivity-Based Control in a LCL-Filtered Grid-Connected Inverter," IEEE Access, vol. 8, pp. 189878-189890, 2020.

      45.  J. Zhao, W. Wu, Z. Shuai, A. Luo, H. S. -h. Chung and F. Blaabjerg, "Robust Control Parameters Design of PBC Controller for LCL-Filtered Grid-Tied Inverter," IEEE Transactions on Power Electronics, vol. 35, no. 8, pp. 8102-8115, Aug. 2020.

      46.  A. Zhao , W. Wu*, J. Jiang, L. Zhu, K. Lu, F. Blaabjerg, “Design and experiment of a magnetic lead screw for the point-absorbing wave energy conversion system”, IET Electric Power Appl. vol.14, no. 11, pp. 2146-2153, Nov. 2020.

      47.  H. Li, W. Wu*, M. Huang, H. Chung, M. Liserre, and F. Blaabjerg, “Design of PWM-SMC Controller Using Linearized Model for Grid-Connected Inverter with LCL Filter”, IEEE Trans. on Power Electron. , vol. 35, no. 12, pp. 12773-12786, Dec. 2020.

      48.   Chen, W. Wu*, N. Gao, M. Liserre, H. S. Chung and F. Blaabjerg, "Finite Control Set Model Predictive Control for LCL-Filtered Grid-Tied Inverter with Minimum Sensors," IEEE Trans. on Ind. Electron. , vol. 67, no. 12, pp. 9980-9990, Dec. 2020.

      49.  S. Luo, W. Wu*, E. G. Koutroulis, H. S. H. Chung and F. Blaabjerg, “A New Virtual Oscillator Control without Third-Harmonics Injection for DC/AC Inverter”, IEEE Trans. on Power Electron. vol. 36, no. 9, pp. 10879-10888, Sept. 2021.

      50.  X. Ding, Y. Hao, K. Li, H. Li, Z. Wei and W. Wu, "Extensible Z-Source Inverter Architecture: Modular Construction and Analysis," IEEE Trans. on Power Electron. vol. 36, no. 2, pp. 1742-1763, Feb. 2021.

      51.  H. Wang, W. Wu*, J. Zhu, E. Koutroulis, H. S. -H. Chung and F. Blaabjerg, "A Novel Dual Buck and Boost Transformer-Less Single-Phase Grid-Tied Inverter," IEEE Trans. on Power Electron., vol. 37, no. 4, pp. 4211-4224, April 2022.

      52. W. Wu*, Z. Zhao, E. Koutroulis, H. S. -H. Chung and F. Blaabjerg, "Auto identification Method of the “Trouble Maker(s)” for Internal Instability in Multi-paralleled Inverters System," IEEE Trans. on Ind. Electron., vol. 69, no. 1, pp. 18-28, Jan. 2022.

      53.  N. Gao, Z. Jin, W. Wu*, et al., "MOSFET-Switch-Based Transformerless Single-Phase Grid-tied Inverter for PV Systems," IEEE Journal of Emerging and Selected Topics in Power Electron. Accepted, 2022.

      54. W. Wu*, Y. Zhang, H. S. H. Chung and F. Blaabjerg, "A New Type of Three-phase Asymmetric-LCL Power filter for Grid-Tied Voltage Source Inverter with Step-up Transformer," IEEE Trans. on Ind. Electron.Accepted, 2022.

      55.  S. Luo, W. Wu*, E. Koutroulis, H. S. -H. Chung and F. Blaabjerg, "A New Kalman-Filter-Based Harmonic Current Suppression Method for the Virtual Oscillator Controlled Grid-tied Inverter," IEEE Journal on Emerging and Selected Topics in Circuits and SystemsAccepted, 2022.

      56.  H. Wang, W. Wu*, L. Cui, Y. Wu, L. Zhu, E. Koutroulis, F. Blaabjerg, " A New Wave Energy Converter for Marine Data Buoy," IEEE Trans. on Ind. Electron.Accepted, 2022.



      1. 慕小斌, 王久和, 孙凯, 吴卫民, 吴学智, 统一电能质量调节器串联变流器多频级联无源控制研究, 中国电机工程学报 37 (16), 4769-4779,2017.

      2. 吴卫民*,何远彬,耿攀,钱照明,汪槱生, 直流微网研究中的关键技术,电工技术学报,27(1), pp:98-106,2012. (知网引用648次,“直流微网研究”领域排名第一,全文被收录于国家级本科教材)

      3. 耿攀, 吴卫民*,叶银忠,刘以建,两级式三相自然软开关DC/AC 逆变器,中国电机工程学报,31(30),pp:39-44, 2011.

      4. 耿攀, 吴卫民*,叶银忠,刘以建,基于重复控制的单相分时复合级联光伏逆变器控制,电工技术学报,26(3),pp:116-122, 2011.

      5. 吴卫民*,耿后来,耿攀,单相分时复合并网逆变器新型间接电流控制方法,中国电机工程学报,30(36),pp:65-70, 2010.

      6. 吴卫民*, 耿攀, 王晓丽, 汤天浩, 新型级联式分时复合高频DC/AC 逆变器,电工技术学报,24(4),pp:157-160+174, 2009.

      7. 吴卫民*, 钱照明,彭方正.两电平自然软开关AC-DC-AC 变流器,电工技术学报, 23(3), pp: 47-51,2008.

      8. 吴卫民*, 汤天浩,彭青松等. 组合式正弦波高频链逆变器的研究,电工技术学报, 23(2), pp: 56-60,2008.

      9. 吴卫民*,钱照明,彭方正. 两电平可升压自然软开关DC/AC变流器工作模式分析和参数设计,电工技术学报,21(7), pp: 20-25,2006

      10. 吴卫民*,钱照明,彭方正. 两电平可升压自然软开关DC/AC变流器电压特性分析,电工技术学报, 21(2), pp: 57-62,2006

      11. 吴卫民*, 顾斌,钱照明,彭方正. 可升压自然软开关变流器,中国电机工程学报, 25(12), pp:62-66, 2005

      12. 吴卫民*, 童立青,钱照明,彭方正. 新型串联混合有源电力滤波器控制技术的研究,中国电机工程学报, 25(3), pp:40-45,2005

      13. 吴卫民*, 童立青,钱照明,彭方正. 一种高性能串联混合有源滤波器拓扑的研究,中国电机工程学报,24(12), pp: 108-112,2004



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  • 主要讲授的课程:

现代电力电子技术(研究生课程) 

电力电子技术、电工、电子实践、DSP原理与应用(本科生课程)

  

  • 学生(人才)培养成绩

培养研究生中获得上海市优秀毕业生、国家奖学金获得者二十余人。



  • 博士硕士招生专业和要求

博士生:电气工程,欢迎硕士所学专业为电气工程、控制理论与工程、应用数学或力学(倾向于水动力)的学生报考,要求有学术论文发表经验。

硕士生:电气工程(学硕和专硕),欢迎本科成绩优异者和有科创实践经验者报考;在确定导师前,本人将亲自面试,面试内容为本科专业知识及毕业设计内容。




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