個人簡介

劉福鑫，教授，博士生導師。研究方向：無線電能傳輸，變換器拓撲與控制，電能互聯系統。

發表SCI/EI論文80餘篇，申請和授權中國發明專利10餘項。主持國家自然科學基金2項，國家重點研發計劃子課題1項，江蘇省自然

科學基金1項，台達電力電子科教發展基金2項，光寶電力電子科研基金1項，其它類20餘項。

其博士論文“組合式三電平直流變換器及其軟開關技術”獲得江蘇省優秀博士學位論文，獲教育部高等學校自然科學獎一等獎1項。

IEEE Senior Member，國家自然科學基金通訊評審專家，江蘇省“六大人才高峰”高層次人才，

Journal of Power Electronics (SCIE期刊)副主編，中國電源學會無線電能傳輸技術及裝置專委會委員，

中國機械工業教育協會高等工程教育學科專業教學委員會委員。獲得慕尼黑工業大學“August-Wilhelm Scheer Visiting Professor”

計劃資助，并受聘為慕尼黑工業大學客座教授、高等研究院（TUM Institute for Advanced Study）Honorary Fellow、

2018年“TUM Ambassador”。

學術成果

(1)國際期刊：

[1]M. Zhou, F. Liu, K. Lu, X. Chen. Modular stacked multiport wireless energy interconnection system with virtual AC bus

 and its power flow control strategy. IEEE Transactions on Power Electronics, 2022, 37(12): 15774-15784.

[2]Zhou, F. Liu, S. Li, X. Chen. A 1-kW and 100-cm distance magnetically coupled resonant WPT system achieving 80% 

efficiency. IEEE Transactions on Transportation Electrification, 2022, 8(3): 4001-4013.

[3]X. Zhang, F. Liu, T. Mei. Multifrequency phase-shifted control for multiphase multiload MCR WPT system to achieve 

targeted power distribution and high misalignment tolerance. IEEE Transactions on Power Electronics, 2021, 36(1): 

991-1003.

[4]F. Liu, Z. Ding. Cross interference suppression methodology by printed circuit board type metamaterial in multi

-frequency multi-load magnetically coupled resonant wireless power transfer system. IET Power Electronics, 2021, 

14(1): 169-182.

[5]X. Chen, Z. Han, F. Liu. Selected harmonic elimination-derived multifrequency pulse width modulation control strategy

 for multi-load MCR WPT system with single transmitting coil. IET Power Electronics,2020, 13(17): 3871-3879.

[6]F. Liu, Z. Ding, X. Fu, R. Kennel. Parametric optimization of a three-phase MCR WPT system with cylinder-shaped coils

 oriented by soft-switching range and stable output power. IEEE Transactions on Power Electronics, 2020, 53(1): 1036-

1044.  

[7]F. Liu, Y. Yang, Z. Ding, X. Chen, R. Kennel. A multi-frequency superposition methodology to achieve high efficiency 

and targeted power distribution for multi-load MCR WPT system. IEEE Transactions on Power Electronics, 2018, 33(10): 

9005-9016.

[8]F. Liu, Y. Yang, Z. Ding, X. Chen, R. Kennel. Eliminating cross interference between multiple receivers to achieve 

targeted power distribution for a multi-frequency multi-load MCR WPT system. IET Power Electronics, 2018, 11(8): 

1321-1328.

[9]F. Liu, Y. Yang, D. Jiang, X. Ruan, X. Chen. Modeling and optimization of magnetically coupled resonant wireless 

power transfer system with varying spatial scales. IEEE Transactions on Power Electronics, 2017, 32(4): 3240-3250.

[10]F. Liu, Y. Chen, X. Chen. Comprehensive analysis for three-phase three-level LC-type resonant dc/dc converter with

 variable frequency control-series resonant converter. IEEE Transactions on Power Electronics, 2017, 32(7): 5122-5131.

[11]F. Liu, Z. Wang, Y. Mao, X. Ruan. Asymmetrical half-bridge double-input DC-DC converters adopting pulsating voltage 

source cells for low power applications. IEEE Transactions on Power Electronics, 2014, 29(9): 4741-4751.

[12]F. Liu, G. Hu, X. Ruan. Three-phase three-level DC/DC converter for high input voltage and high power applications-

adopting symmetrical duty cycle control. IEEE Transactions on Power Electronics, 2014,29(1): 56-65.

[13]F. Liu, Y. Chen, G. Hu, X. Ruan. Modified three-phase three-level DC/DC converter with zero-voltage-switching 

characteristic- adopting asymmetrical duty cycle control. IEEE Transactions on Power Electronics, 2014, 29(12):6307-6318.

[14]F. Liu, J. Yan, X. Ruan. Zero-voltage and zero-current-switching PWM combined three-level DC/DC converter. IEEE 

Transactions on Industrial Electronics, 2010, 57(5): 1644-1654.

(2)國際會議：

[1]P. Luo, F. Liu, X. Chen. Multi-port full-duplex simultaneous wireless information/power transfer method based on 

4PAM modulation scheme with 1.25Mbps data rate. Proc. IEEE PEDG, 2023.

[2]Z. Ning, F. Liu, S. Yu, X. Chen. Comprehensive analysis on the current imbalance in modular IPOP WPT systems with 

LCC compensated sub-modules. Proc. IEEE PEDG, 2023.

[3]M. Zhou, F. Liu, K. Lei, X. Chen. A modular stacked architecture with virtual AC bus for multi-port wireless energy 

interconnection system. Proc. IEEE IECON, 2021.

[4]S. Yu, F. Liu, M. Zhou, X. Chen. Comprehensive analysis on the imbalance of voltage and current in multi-module 

series-parallel WPT systems. Proc. IEEE IECON, 2021.

[5]H. Shen, F. Liu, C. Yan, X. Chen. Analysis and optimization of high-power MCR bidirectional WPT system with high 

distance- diameter ratio. Proc. IEEE IECON, 2021.

[6]C. Yan, F. Liu, H. Shen, X. Chen. Three-port magnetically coupled resonant wireless energy router with dual sources 

and dual loads and its power management strategy. Proc. IEEE IECON, 2021.

[7]Z. Ding, F. Liu. A metamaterial design for suppression of cross interference in multi-frequency multi-load MCR WPT 

system. Proc. IPEMC-ECCE Asia, 2020.

[8]Z. Han, F. Liu, X. Chen. Multi-frequency pulse width modulation control strategy for multi-Load MCR WPT system with 

single transmitting coil. Proc. IPEMC-ECCE Asia, 2020.

[9]X. Zhang, F. Liu, K. Lei, S. Yu, C. Yan. Three-port magnetically coupling resonant wireless energy router and its 

zero-power-flow control scheme. Proc. IEEE IECON, 2020.

[10]M. Zhou, S. Li, X. Chen, F. Liu. A parameter design methodology based on voltage/current stress optimization for 

LCCL-LC compensated MCR WPT systems. Proc. IEEE PELS Workshop on Emerging Technologies: Wireless Power Transfer(WoW), 

2020.

[11]S. Li, M. Zhou, X. Chen, F. Liu. Parameters optimization for zero-voltage-switching realization in LCCL-LC 

compensated MCR WPT systems. Proc. IEEE PELS Workshop on Emerging Technologies: Wireless Power Transfer (WoW), 2020.

[12]Z. Ding, F. Liu, Y. Yang, X. Chen, R. Kennel. High-efficiency design and close-loop power distribution control for 

double-frequency double-load magnetically coupled resonant wireless power transfer system. Proc. IEEE APEC, 2019.

[13]W. Ye, F. Liu, T. Mei, X. Chen, R. Kennel. Transmission characteristics analysis of a double-cheeked MCR WPT system

 with two receivers under varying spatial scales. Proc. IEEE APEC, 2018.

[14]T. Mei, F. Liu, C. Jiang, X. Chen, R. Kennel. Magnetic-field-model based analysis of two-phase magnetically coupled 

resonant wireless power transfer system. Proc. IEEE APEC, 2018.

[15]X. Fu, F. Liu, X. Chen. Optimization of coils and control strategy for a three-phase magnetically coupled resonant 

wireless power transfer system oriented by the optimal output power characteristics. Proc. IEEE ECCE, 2017.

[16]Y. Yang, Z. Ding, F. Liu, X. Chen. A double-frequency superposition methodology for high efficiency and oriented 

power distribution of MCR WPT system with two receivers. Proc. IEEE ECCE, 2017.

[17]W. Ye, L. Chen, F. Liu, X. Chen, X. Wang. Analysis and optimization of 3-coil magnetically coupled resonant wireless 

power transfer system for stable power transmission. Proc. IEEE ECCE, 2017.

[18]Y. Yang, F. Liu, X. Chen. A maximum power point tracking control scheme for magnetically coupled resonant wireless 

power transfer system by cascading SEPIC converter at the receiving side. Proc. IEEE APEC, 2017.

[19]X. Fu, F. Liu, X. Chen. Optimization of coils for a three-phase magnetically coupled resonant coupled wireless power 

transfer system oriented by the zero-voltage-switching range. Proc. IEEE APEC, 2017.

[20]C. Jiang, F. Liu, X. Ruan, X. Chen. Transmission characteristics analysis of a three-phase magnetically coupled 

resonant wireless power transfer system. Proc. IEEE ECCE, 2016.

[21]L. Chen, F. Liu, X. Ruan, X. Chen. Modeling and investigation of 4-coil wireless power transfer system with varying 

spatial scales. Proc. IEEE ECCE, 2016.

[22]D. Jiang, Y. Yang, F. Liu, X. Ruan, X. Chen. Optimization of coils for magnetically coupled resonant wireless power 

transfer system based on maximum output power. Proc. IEEE APEC, 2016.

[23]D. Jiang, Y. Yang, F. Liu, X. Ruan, C. Wang. Modeling and investigation of magnetically coupled resonant wireless 

power transfer system with varying spatial scales. Proc. IEEE ECCE, 2015.

[24]L. Chen, F. Liu, Y. Chen, X. Ruan, C. Wang. Three-phase three-level LC-type parallel resonant DC/DC converter with 

variable frequency control. Proc. IEEE ECCE, 2015.

[25]Y. Chen, F. Liu, G. Hu, X. Ruan. Modified three-phase three-level DC/DC converter -adopting asymmetrical duty cycle 

control. Proc. IEEE IPEC, 2014.

[26]Y. Jiang, F. Liu, X. Ruan, L. Wang. Optimal idling control strategy for three-port full-bridge converter. Proc. 

IEEE IPEC, 2014.

[27]F. Jin, F. Liu, X. Ruan, X. Meng. Multi-phase multi-level LLC resonant converter with low voltage stress on the 

primary-side switches. Proc. IEEE ECCE, 2014.

[28]Y. Chen, F. Liu, X. Ruan, X. Meng. Three-phase three-level LC-type series resonant DC/DC converter with variable 

frequency control. Proc. IEEE ECCE, 2014.

(3)國内期刊：

[1]周明華,劉福鑫,陳旭玲,等.虛拟母線式多端無線能量互聯系統混合式多線圈結構設計與效率優化.中國電機工程學報, 2024.

[2]沈豪傑,劉福鑫,陳旭玲,等.基于三級式可擴展多模塊并聯架構的低壓大電流高距徑比無線電能傳輸系統.中國電機工程學報, 2024.

[3]雷珂林, 劉福鑫. 基于頻分複用的多端全雙工無線能量-信息同步傳輸方法. 中國電機工程學報, 2022.

[4]金峰, 劉福鑫, 阮新波. 采用模塊化結構的多相多電平LLC諧振變換器. 中國電機工程學報, 2015.

[5]劉福鑫, 陳悅, 胡高平, 阮新波. 采用不對稱控制方式的三相三電平直流變換器. 中國電機工程學報，2014.

[6]劉福鑫, 潘子周, 阮新波. 一種boost型雙向橋式直流變換器的軟開關分析. 中國電機工程學報，2013.

[7]劉福鑫, 阮潔, 阮新波, 楊東升, 李豔. 采用交變脈沖電源單元的隔離型多輸入直流變換器. 電工技術學報，2012.

[8]劉福鑫, 毛韻雨, 王志成, 阮新波. 采用脈沖電壓源單元的不對稱型雙輸入直流變換器. 中國電機工程學報，2012.

[9]劉福鑫, 楊朔, 阮新波. 新型對稱控制方式三相三電平直流變換器. 中國電機工程學報，2012.

[10]劉福鑫, 阮潔, 阮新波. 一種多端口直流變換器的系統生成方法-采用單極性脈沖電源單元. 中國電機工程學報，2012.

[11]劉福鑫, 熊小玲, 阮新波. 軟開關PWM組合式三電平變換器的磁集成策略. 中國電機工程學報, 2010.

(4)國家發明專利:

[1]劉福鑫, 阮新波. 零電壓開關PWM組合型三電平直流變換器. 專利号：ZL200610098274.4

[2]劉福鑫, 阮新波. 零電壓零電流開關PWM組合型三電平直流變換器. 專利号：ZL200610098273.X

[3]劉福鑫, 楊朔, 阮新波. 對稱控制型三相三電平直流變換器及其對稱控制方法. 專利号：ZL201010598995.8

[4]劉福鑫，陳悅，胡高平，阮新波. 一種簡化型三相三電平直流變換器的不對稱控制方法. 專利号：ZL201310405692.3

[5]劉福鑫，張吾楊，阮新波. 一種雙頻控制型三相三電平直流變換器及其控制方法. 專利号：ZL201310549320.8

[6]周明華，劉福鑫. 虛拟母線式模塊化多端無線能量互聯系統及其控制方法. 專利号：CN202111121547.3

[7]周明華，劉福鑫，李帥旗. 一種适用于中程千瓦級磁諧振式無線供電系統的優化設計方法及系統. 專利号：CN202011416756.6

[8]沈豪傑, 劉福鑫, 陳旭玲. 低壓大電流三級式可拓展無線電能傳輸電路及控制方法. 專利申請号：CN202310001392.2

[9]陸孔軍, 劉福鑫, 陳旭玲. 一種雙模一體化複合型多端無線電能路由器及其控制方法. 專利申請号：CN202310511097.1

(5)獲獎情況:

[1]教育部高等學校自然科學獎一等獎；

[2]江蘇省優秀博士學位論文；

[3]指導本科生獲得全國大學生電子設計競賽全國一等獎、江蘇省賽區一等獎；

[4]指導本科畢業設計獲得江蘇省優秀畢業設計論文一等獎兩項，二等獎兩項；

[5]南航伟德 官网 “教育碩果獎”一等獎；

[6]南航伟德 官网“十一五”期間教書育人三等獎。

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