(1) 国外重要期刊和国际学术会议:
[1] 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..
[2] Fuxin Liu, Yong Yang, Ze Ding, Xuling Chen, Ralph 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.
[3] 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.
[4] F. Liu, W. Zhang, R. Kennel. Dual-frequency-controlled C-TPTL DC−DC converter for high and wide input voltage applications. IET Power Electronics, 2018, 11(15): 2531-2537.
[5] Fuxin Liu, Yong Yang, Dan Jiang, Xinbo Ruan, Xuling 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.
[6] Fuxin Liu, Yue Chen, Xuling 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.
[7] Fuxin Liu, Xinbo Ruan. ZVS combined three-level converter-a topology suitable for high input voltage with wide range applications. IEEE Transactions on Industrial Electronics, 2007, 54(2):1061-1072.
[8] Fuxin Liu, Jiajia Yan, Xinbo Ruan. Zero-voltage and zero-current-switching PWM combined three-level DC/DC converter. IEEE Transactions on Industrial Electronics, 2010, 57(5): 1644-1654.
[9] Fuxin Liu, Gaoping Hu, Xinbo 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.
[10] Fuxin Liu, Zhicheng Wang, Yunyu Mao, Xinbo 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.
[11] Fuxin Liu, Yue Chen, Gaoping Hu, Xinbo 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.
[12] Ke Jin, Xinbo Ruan, Fuxin Liu. An improved ZVS PWM three-level converter. IEEE Transactions on Industrial Electronics, 2007, 54(1): 319-329.
[13] Yan Li, Xinbo Ruan, Dongsheng Yang, Fuxin Liu, Tse C. K. Synthesis of multi-input DC/DC converters. IEEE Transactions on Power Electronics, 2010, 25(9): 2372-2385.
[14] 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 Applied Power Electronics Conference and Exposition, 2019, 3111-3116.
[15] M. Tian, X. Zhang, F. Liu, X. Chen, R. Kennel. Multi-frequency phase-shifted angle control strategy for a two-phase MCR WPT system with multiple loads to achieve targeted power distribution and stable transmission power. Proc. IEEE Applied Power Electronics Conference and Exposition, 2019, 3117-3122.
[16] 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 Applied Power Electronics Conference and Exposition, 2018, 1086-1091.
[17] 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 Applied Power Electronics Conference and Exposition, 2018, 1092-1097.
[18] Yong Yang, Ze Ding, Fuxin Liu, Xuling Chen. A double-frequency superposition methodology for high efficiency and oriented power distribution of MCR WPT system with two receivers. Proc. IEEE ECCE, 2017, 2590-2595.
[19] Xiewei Fu, Fuxin Liu, Xuling 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, 5501-5506.
[20] Weiwei Ye, Lu Chen, Fuxin Liu, Xuling Chen, Xuehua Wang. Analysis and optimization of 3-coil magnetically coupled resonant wireless power transfer system for stable power transmission. Proc. IEEE ECCE, 2017, 2584-2589.
[21] Yong Yang, Fuxin Liu, Xuling 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, 3702-3707.
[22] Xiewei Fu, Fuxin Liu, Xuling. 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, 3708-3713.
[23] Chong Jiang, Fuxin Liu, Xinbo Ruan, Xuling Chen. Transmission characteristics analysis of a three-phase magnetically coupled resonant wireless power transfer system. Proc. IEEE ECCE, 2016, 1-6.
[24] Lu Chen, Fuxin Liu, Xinbo Ruan, Xuling Chen. Modeling and investigation of 4-coil wireless power transfer system with varying spatial scales. Proc. IEEE ECCE, 2016, 1-6.
[25] Dan Jiang, Yong Yang, Fuxin Liu, Xinbo Ruan, Xuling Chen. Optimization of coils for magnetically coupled resonant wireless power transfer system based on maximum output power. Proc. IEEE APEC, 2016, 1788-1794.
[26] Dan Jiang, Yong Yang, Fuxin Liu, Xinbo Ruan, Chenghua Wang. Modeling and investigation of magnetically coupled resonant wireless power transfer system with varying spatial scales. Proc. IEEE ECCE, 2015, 2269-2274.
[27] Lu Chen, Fuxin Liu, Yue Chen, Xinbo Ruan, Chenghua Wang. Three-phase three-level LC-type parallel resonant DC/DC converter with variable frequency control. Proc. IEEE ECCE, 2015, 4271-4276.
[28] Yue Chen, Fuxin Liu, Gaoping Hu, Xinbo Ruan. Modified three-phase three-level DC/DC converte -adopting asymmetrical duty cycle control. Proc. IEEE IPEC, 2014, 2768-2774.
[29] Yongjie Jiang, Fuxin Liu, Xinbo Ruan, Lipeng Wang. Optimal idling control strategy for three-port full-bridge converter. Proc. IEEE IPEC, 2014, 458-464.
[30] Feng Jin, Fuxin Liu, Xinbo Ruan, Xiaoli Meng. Multi-phase multi-level LLC resonant converter with low voltage stress on the primary-side switches. Proc. IEEE ECCE, 2014, 4704-4710.
[31] Yue Chen, Fuxin Liu, Xinbo Ruan, Xiaoli Meng. Three-phase three-level LC-type series resonant DC/DC converter with variable frequency control. Proc. IEEE ECCE, 2014, 4711-4717.
(2) 国内重要核心期刊:
[1] 刘福鑫, 阮新波. 一种新颖的零电压开关PWM组合式三电平变换器. 中国电机工程学报, 2005, 25(22): 45-50.
[2] 刘福鑫, 阮新波. 零电压开关PWM组合式三电平变换器的箝位策略. 中国电机工程学报, 2006, 26(17): 44-50.
[3] 刘福鑫, 颜佳佳, 阮新波. 零电压零电流开关PWM组合式三电平变换器. 中国电机工程学报, 2007, 27(4): 96-102.
[4] 刘福鑫, 阮新波. 零电压开关PWM组合式三电平变换器的优化策略. 中国电机工程学报, 2007, 27(33): 75-81.
[5] 刘福鑫, 熊小玲, 阮新波. 软开关PWM组合式三电平变换器的磁集成策略. 中国电机工程学报, 2010, 30(30): 38-46.
[6] 刘福鑫, 阮洁, 阮新波. 一种多端口直流变换器的系统生成方法-采用单极性脉冲电源单元. 中国电机工程学报,2012, 32(6): 72-80.
[7] 刘福鑫, 杨朔, 阮新波. 新型对称控制方式三相三电平直流变换器. 中国电机工程学报,2012, 32(9): 72-78.
[8] 刘福鑫, 毛韵雨, 王志成, 阮新波. 采用脉冲电压源单元的不对称型双输入直流变换器. 中国电机工程学报,2012, 32(21): 15-22.
[9] 刘福鑫, 阮洁, 阮新波, 杨东升, 李艳. 采用交变脉冲电源单元的隔离型多输入直流变换器. 电工技术学报,2012, 27(7): 174-183.
[10] 刘福鑫, 潘子周, 阮新波. 一种boost型双向桥式直流变换器的软开关分析. 中国电机工程学报,2013, 33(3): 44-51.
[11] 刘福鑫, 陈悦, 胡高平, 阮新波. 采用不对称控制方式的三相三电平直流变换器. 中国电机工程学报,2014, 34(24): 4007-4014.
(3)国家发明专利:
[1] 刘福鑫, 阮新波. 零电压开关PWM组合型三电平直流变换器. 专利号:ZL200610098274.4
[2] 刘福鑫, 阮新波. 零电压零电流开关PWM组合型三电平直流变换器. 专利号:ZL200610098273.X
[3] 刘福鑫, 杨朔, 阮新波. 对称控制型三相三电平直流变换器及其对称控制方法. 专利号:ZL201010598995.8
[4] 刘福鑫,陈悦,胡高平,阮新波. 一种简化型三相三电平直流变换器的不对称控制方法. 专利号:ZL201310405692.3
[5] 刘福鑫,张吾杨,阮新波. 一种双频控制型三相三电平直流变换器及其控制方法. 专利号:ZL201310549320.8
(4) 获奖情况:
[1] 教育部高等学校自然科学奖一等奖;
[2] 江苏省优秀博士学位论文;
[3] 指导本科生获得全国大学生电子设计竞赛全国一等奖、江苏省赛区一等奖;
[4] 指导本科毕业设计获得江苏省优秀毕业设计论文一等奖一项,二等奖两项;
[5] 南航自动化学院2012年度“教育硕果奖”一等奖;
[6] 南航自动化学院“十一五”期间教书育人三等奖。
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