麦瑞坤 教授

博士生导师

硕士生导师

个人信息Personal Information


主要任职:西南交通大学国有资产与实验室管理处副处长、国家轨道交通电气化与自动化工程技术研究中心副主任、磁浮技术与磁浮列车教育部重点实验室副主任

学科:控制理论与控制工程. 能源动力. 轨道交通电气化与信息技术. 电力电子与电力传动. 电气工程. 电力系统及其自动化. 电工理论与新技术

所在单位:电气工程学院

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当前位置: 麦瑞坤中文主页 >> 科学研究
  • 主持科研项目 

    [1] 国家自然科学基金委联合项目:川藏铁路深埋传感器无线供电基础问题与关键技术研究, 2023-2026255

    [2] 国家自然科学基金面上项目:轨道交通无线牵引供电系统功率波动机理及其抑制方法研究,,2020-2023, 60万

    [3] 国家重点研发计划轨道交通专项课题子任务:非接触供电系统功率提升技术、定制化设计与集成技术研究, 2017-2020, 200万

    [4] 国家自然科学基金面上项目:非接触牵引供电系统能量耗散机理与效率提升方法研究, 2017-2020, 59万

    [5] 国家自然科学基金青年基金:计及大规模电网时变参数的低频振荡多重扰动源定位研究,2014-2016, 24万

    [6] 铁路总公司重点项目:大功率非接触供电系统不确定性鲁棒控制技术研究, 2014-2016, 30万

    [7] 河北省自然科学基金面上项目:超导高速磁浮集电系统基础理论与关键技术研究,2022-2024, 10万

    [8] 四川省青年科技创新研究团队:轨道交通无线供电技术基础理论与关键技术研究, 2020-2022, 30万

    [9] 四川省青年科技基金:功率非接触牵引供电系统关键技术研究, 2016-2019, 10万

    [10] 新型DC-DC高效光伏充电桩关键技术研究及样机的设计开发, 2023-2025, 302万

    [11] 车载动态信号采集支持服务合同, 2023-2024, 51.5万

    [12] 基于高分子膜的大型充油设备油溶气体分离与高准确感知量测技术研究及应用, 2022-2024, 70万

    [13] 250KW双向离并网变流器产品技术, 2021-2023, 83.85万

    [14] 内河港口岸电系统安全防护及故障预警技术研究与应用, 2021-2022, 50万

    [15] 高变比功率变换技术合作项目, 2021-2022, 80.34万

    [16] 感应供电技术研究项目, 2021-2022, 252.5202万

    [17] 高频逆变电源及监控系统研制, 2021-2022, 285万

    [18] 无线充电技术项目, 2019-2020,100万

    [19] 非接触牵引供电轨道交通模拟系统, 2019-2019,169万

    [20] 非接触供电系统(IPS)测试技术研究及测试系统研制, 2018-2019,148万



    主研科研项目

    [1] 国家自然科学基金委:频繁冲击负荷下动态无线供电系统高效率保持方法研究,2020-2022,24万

    [2] 国家各部委项目:我国超高速磁浮技术发展战略研究,2018-2019,55万

    [3] 国家重点研发计划轨道交通专项课题:轨道交通非接触式供电技术,2017-2020,558万

    [4] 国家重点研发计划轨道交通专项课题:高速磁浮交通系统关键技术研究课题,2016-2020,142万

    [5] 国家各部委项目:国内外高速磁浮交通技术发展研究,2015-2016,60万

    [6] 国家各部委项目:中低速磁浮交通与系统发展战略研究,2013-2014,65万

    [7] 铁路总公司重点项目:高速铁路供变电系统服役性能研究,2013-2014,150万

    [8] 省、直辖市、自治区科技项目:智能化牵引供电四川省青年科技创新研究团队,2013-2014,65万

    [9] 四川省国际科技创新合作/港澳台科技创新合作项目:基于光储联合发电的电动汽车无线供电系统关键技术研究,2021-2024, 30万

    [10] 四川省科技厅:电动汽车动态无线供电系统高效稳定运行关键技术研究,2020-2022,30万


  • 授权发明专利

    [1] 麦瑞坤 符玲, 徐海波, 何思模. 一种电力系统相量频率测量方法,中国,发明专利: ZL201110416897.22013.09.04.

    [2] 麦瑞坤,陆立文,李勇,李砚玲,何正友.一种无线电能传输设备发送端动态调谐装置及其调谐方法,中国,发明专利:ZL201410134184.02016.02.03.

    [3] 麦瑞坤 李勇, 何正友, 林圣. 磁感应式无线电能传输设备中的补偿装置及其补偿方法,中国, 发明专利: ZL201310559923.62016.03.02.

    [4] 麦瑞坤,陆立文,李勇,何正友,李砚玲. 一种无线电能传输设备接收端动态调谐装置及其调谐方法,中国,发明专利:ZL201410133925.32016.03.02.

    [5] 麦瑞坤 符玲, 徐海波, 周凡, 杨志钦. 一种漏水检测定位系统以及装置,中国, 发明专利: ZL201210481598.12016.06.15.

    [6] 麦瑞坤 李勇, 陆立文, 何正友, 高仕斌. 无线传能系统的谐波消除与功率调节方法,中国, 发明专利: ZL201410460756.4 2016.10.12. 

    [7] 麦瑞坤,李勇,陈阳,何正友. 双线圈并绕的无线电能传输系统的输出功率分配方法,中国,发明专利:ZL201510130015.42017.03.01. 

    [8] 麦瑞坤,李勇,陈阳,何正友. 双线圈并绕的无线电能传输系统的输出功率分配方法,中国,发明专利:ZL201510130015.42017.03.01.

    [9] 麦瑞坤 罗博, 罗颖. 一种双CLC结构电场式无线传输系统及其优化方法,中国, 发明专利: 201711036615.X2018.03.06.

    [10] 麦瑞坤,马晓晴,陆立文,李勇,何正友. 采用测量线圈技术的感应电能传输系统调谐装置及其调谐方法,中国, 发明专利: 201610305258.12018.05.01.

    [11] 麦瑞坤,林天仁,李勇,何正友. 感应电能传输系统的无功功率抑制及恒压控制方法,中国, 发明专利: ZL201610143079.22018.05.18.

    [12] 麦瑞坤,马林森,李砚玲,何正友. 能补偿互感的多接收装置并联的无线电能传输系统的补偿方法,中国, 发明专利: ZL201610290623.62018.08.17.

    [13] 麦瑞坤 徐丹露, 杨鸣凯, 李砚玲, 何正友. 一种无线电能传输设备发送端频率跟踪的动态调谐方法,中国, 发明专利: ZL201610206080.52018.10.23.

    [14] 麦瑞坤 林天仁, 李勇, 李宏超, 何正友. 一种轨道交通列车非接触式动态供电系统线圈,中国, 发明专利: ZL201611145732.52018.11.20.

    [15] 麦瑞坤 陈阳, 刘野然, 李勇, 何正友. 既能输出恒流也能输出恒压的感应式无线电能传输系统.,中国, 发明专利: ZL201610318334.22019.01.15.

    [16] 麦瑞坤 林天仁, 陈彦初, 李勇, 何正友, 谢伟. 能自动谐振补偿的多初级线圈的感应电能传输系统.,中国, 发明专利: ZL201610639975.82019.01.15.

    [17] 麦瑞坤 陈阳, 张友源, 何正友. 一种恒流恒压感应式无线充电系统,中国, 发明专利: ZL201610814224.52019.01.18.

    [18] 麦瑞坤 刘野然, 何正友. 一种无线电能传输系统及其等效阻抗的控制方法,中国, 发明专利: ZL201611024778.1 2019.01.18.

    [19] 麦瑞坤 陈阳, 张友源, 何正友. 基于变初级参数的恒流恒压感应式无线充电系统,中国, 发明专利: ZL201610814192.92019.01.18.

    [20] 麦瑞坤 张友源, 陈阳, 何正友. 一种变次级结构的感应式无线充电系统,中国, 发明专利: ZL201710217501.92019.05.31.

    [21] 麦瑞坤 陈阳, 陈熙, 李绍辉, 徐海波, 何思模. 抗偏移恒压输出无线电能传输系统,中国, 发明专利: CN201710681310.82019.09.17. 

    [22] 麦瑞坤 岳鹏飞, 易小龙, 何正友. 基于双DC-DC变换器的发送端动态调谐装置及方法,中国, 发明专利: ZL201711004435.32019.11.05.

    [23] 麦瑞坤 任洁, 刘野然, 何正友. 一种有轨电车动态无线供电系统及其效率优化控制方法,中国, 发明专利: CN201710661130.32019.12.13.

    [24] 麦瑞坤 岳鹏飞, 刘野然, 何正友, 麦健聪. 一种无线电能传输设备接收端动态调谐装置及其调谐方法,中国, 发明专利: ZL201710789016.92020.01.03.

    [25] 麦瑞坤,陈阳,张友源,何正友. 一种次级变参数和变结构的感应式无线充电系统,中国, 发明专利: ZL201710217941.42020-02-18.

    [26] 麦瑞坤 陈阳, 寇志豪, 何正友. 一种三线圈结构的恒流恒压感应式无线充电系统,中国, 发明专利: ZL201710814692.72020.02.21.

    [27] 麦瑞坤,陈阳,杨斌,符玲,何正友. 一种可提高抗偏移能力的恒流输出无线电能传输系统,中国, 发明专利:ZL 201811413606.22020.09.29.

    [28] 麦瑞坤,岳鹏飞,易小龙,何正友. 一种基于双逆变器的发送端动态调谐装置及方法,中国, 发明专利:ZL201711004371.72020.10.30.

    [29] 麦瑞坤,李乔,陈阳,何正友. 一种变参数和变频率恒压感应式无线电能传输系统,中国, 发明专利:ZL201910712804.72020.11.24

    [30] 麦瑞坤,杨斌,陈阳,周小兵,何正友. 一种基于半桥切换的恒流-恒压充电无线电能传输系统,中国, 发明专利:ZL201910811584.32020.11.24.

    [31] 麦瑞坤,郭历谋,罗博,何正友. 一种电场耦合式的电动汽车无线充电技术电压优化方法,中国, 发明专利:ZL201910341516.52020.12.01.

    [32] 麦瑞坤,李明轩,陈阳,杨斌,张楠,何正友. 一种基于拓扑切换的恒流恒压无线充电系统,中国, 发明专利:ZL201910231804.52021.02.02.

    [33] 麦瑞坤,顾耘东,徐叶飞,杨环宇,何正友,付稳超. 一种多抽头无线电能传输系统及其效率优化方法,中国, 发明专利:ZL201911299356.92021.03.23.

    [34] 麦瑞坤,杨斌,陈阳,周小兵,何正友. 一种具有三维抗偏移的恒压输出无线电能传输系统,中国, 发明专利:ZL201910336995.12021.04.27.

    [35] 麦瑞坤,任洁,岳鹏飞,刘野然,何正友. 基于串联补偿拓扑IPT系统的电路参数优化方法,中国, 发明专利: ZL201810592246.02021.05.28.

    [36] 麦瑞坤,陈阳,李乔,杨斌,何正友. 一种抗偏移恒功率感应式无线电能传输系统,中国, 发明专利:ZL201910715386.72021.06.29.

    [37] 麦瑞坤 周凌云, 吴一昊, 余嘉淇, 刘顺攀, 何正友, 何天. 基于高频电流注入的磁浮列车非接触辅助供电装置及方法,中国, 发明专利:ZL201911310167.7 2021.06.29.

    [38] 麦瑞坤,颜兆田,段烨,杨环宇,何正友. 一种基于多发射无线电能传输系统的效率提升方法,中国, 发明专利:ZL201910715398.X2021.07.27.

    [39] 麦瑞坤 周凌云, 刘顺攀, 何正友,裴春兴. 一种基于模型预测控制的无线传能动态性能优化方法,中国,发明专利: ZL201911309084.62021.11.02.

    [40] 麦瑞坤 罗博, 郭历谋, 何正友. 一种具有高抗偏移性的电场耦合式无线电能传输拓扑结构,中国,发明专利: ZL201810353621.62021.11.02.

    [41] 麦瑞坤,刘顺攀,周凌云,何正友. 双拾取线圈无线传能装置的磁耦合机构设计方法,中国,发明专利:ZL201910833191.22021.12.07.

    [42] 麦瑞坤,顾耘东,徐叶飞,成文钊,李健乐,何正友. 一种基于可切换LCL电路的无线电能传输系统效率优化方法,中国,发明专利:ZL202010804532.62021.12.21.

    [43] 麦瑞坤 颜兆田, 何正友, 李砚玲, 刘顺攀. 基于感应式无线电能传输系统的高效率电能传输方法,中国,发明专利: ZL201811188387.22022.03.04.

    [44] 麦瑞坤 刘登伟, 刘野然, 何正友. 一种无线电能动态恒功率输出系统及其等效电阻控制方法,中国,发明专利: ZL201810426215.8 2022.03.04.

    [45] 麦瑞坤,罗颖,龙涛,何正友. 一种具有高抗偏移特性的无线电能传输系统,中国,发明专利: ZL201811338082.52022.03.04.

    [46] 麦瑞坤 戴睿敏, 朱哲辉, 何正友. 一种高效率的恒压恒流切换无线充电拓扑结构,中国,发明专利: ZL201910077294.02022.05.24.

    [47] 麦瑞坤 许乔迪, 何正友. 一种目标区域磁屏蔽方法及应用其的感应电能传输系统,中国, 发明专利:ZL201910045524.52022.06.07.

    [48] 麦瑞坤 顾耘东 王俊淳 卢佳昭 牟晓慧 李旭. 一种适用于胎压传感器的旋转无线供电装置,中国, 发明专利: ZL202110624385.92023.03.24.

    [49] 麦瑞坤,刘顺攀,倪嘉蔚,周凌云,何正友. 基于倍压整流器动态无线供电系统的功率波动抑制方法,中国,发明专利:ZL202010156727.42023.06.09.

    [50] 麦瑞坤 彭云尔, 任禹丞, 陈阳, 张馨升, 宋恒, 任家磊, 刘海峰, 郑松松, 吕晓飞. 基于复合耦合的抗偏移无线电能传输系统及参数设计方法,中国, 发明专利: ZL202210067306.32023.06.27. 

    [51] Ruikun MaiLing FuHaibo XuSimo He.Method For Estimating Dynamic Power Transmission Line Capacity By Using Synchronized Phasor TechnologyUS201500323972012.09.

    授理发明专利

    [1] 麦瑞坤,刘力舟,徐宾,裴春兴,李娜,何正友. 一种基于并联电容器的电池组均衡控制电路及方法,中国,发明专利: 20201124223912020.11.09.

    [2] 麦瑞坤,罗颖,宋毅,何正友. 一种采用无源元件解耦的多接收感应电能传输系统,中国,发明专利: CN201910833180.42019.09.04 

    [3] 麦瑞坤 李乔, 陈阳, 何正友, 麦健聪. 一种用于轨道交通的电场耦合式移动供电系统,中国,发明专利: CN201710616873.9 2017.07.20.

    [4] 麦瑞坤 罗博, 龙涛. 一种磁场耦合式和电场耦合式结合的无线电能传输系统,中国,发明专利: CN201711154229.0 2017.11.20.

    [5] 麦瑞坤,罗博,胡杰,何正友. 一种多发射单接收结构的电场式无线电能传输系统,中国,发明专利: CN201810014669.4 2018.01.08.

    [6] 麦瑞坤 李宏超, 刘野然, 何正友. 一种非接触供电系统电磁耦合装置,中国,发明专利: CN201810020446.9 2018.01.10

    [7] 麦瑞坤,黎祎阳,杨斌,陈阳,何正友. 基于复合式双频拓扑的恒压抗偏移无线电能传输系统,中国, 发明专利: CN202210712815.72022.06.23

    [8] 麦瑞坤 杨斌, 张滨山, 陈阳, 何正友. 基于钳位与重构整流器的强抗偏移无线电能传输系统,中国, 发明专利:202310515640.52023.05.08

    [9] 麦瑞坤 彭云尔, 王淇, 陈阳, 马恩典, 何正友. 一种用于结构健康监测的自动化无线供电系统,中国, 发明专利: 202310198340.92023.03.03

    [10] 麦瑞坤 彭云尔, 马恩典, 陈阳, 王淇, 何正友. 一种基于钢筋感应电流的无线供电系统及其参数设计方法,中国, 发明专利: 202310244352.02023.03.13

    [11] 麦瑞坤 何双江, 陈阳, 杨斌, 何正友. 基于重构整流器的抗偏移失谐 LCL-S 型补偿无线电能传输系统,中国, 发明专利: 202310354940.X2023.03.31

    [12] 麦瑞坤 荆锐, 麦志豪, 刘顺攀, 舒禹锟. 基于位置检测线圈的分段切换式动态无线供电系统,中国, 发明专利: 202310674524.8 2023.6.12

    [13] 麦瑞坤 王浩运, 王承恩, 张坤, 陈阳. 基于场路结合法的高速超导磁浮列车悬浮系统的求解方法,中国, 发明专利: 202311625057.62023.11.30

    [14] 麦瑞坤,王淇,赵骏,赵东劲,孙浩宇,王奇阳,霍思远. 一种应变计无线供电系统及其动态能量最大化设计方,中国,发明专利: 202410439516.X2024.04.12

    [15] 麦瑞坤 陈福奥, 张泽恒, 张晓军, 郑哲一, 陈阳, 何正友, 一种旋转结构的动态无线供电系统及稳定输出电压的方法,中国,发明专利: 20241104769102024.08.01

    授权实用新型专利

    [1] 麦瑞坤,何双江,陈阳,杨斌,何正友. 基于重构整流器的抗偏移失谐 LCL-S 型补偿无线电能传输系统,中国,实用新型: ZL202320744544.32023.10.03

    [2] 麦瑞坤,荆锐,麦志豪,刘顺攀,舒禹锟基于位置检测线圈的分段切换式动态无线供电系统,中国,实用新型: 202321455529.32024.06.25


  • 2024

    [1] Xinghong He, Ruikun Mai*, Chenyan Zhu, Udaya K Madawala. Harmonic Current Control for Wide ZVS Operation of Single-Stage WPT Resonant Converters[J].IEEE Transactions on Power Electronics. 2024,39(1):1815-25.

    [2] Yuner Peng, Wang Qi, Yang Chen, Ruikun Mai*, Udaya K Madawala. Wireless Sensor Power Supply Based on Eddy Currents for Structural Health Monitoring[J]. IEEE Transactions on Industrial Electronics. 2024,71(7):7252-61.

    [3] Jin Tao, Yongchao Wang, Hao Cheng, Ruikun Mai*. Analysis and Design of Magnetic Field Energy Harvesting for Freight Train Sensors[J]. IEEE Transactions on Transportation Electrification. 2024,10(2):4503-12.

    [4] Wenhao Xiong, Zhaotian Yan, Dingyuan Tang, Wei Zhou, Ruikun Mai*. A Hybrid Topology IPT System With Partial Power Processing for CC-CV Charging[J]. IEEE Transactions on Power Electronics. 2024,39(1):1701-12.

    [5] Wei Zhou, Zelin Chen, Qiang Zhang, Zhiqiang Li, Liang Huang, Ruikun Mai*, Zhengyou He. Design and Analysis of CPT System With Wide-Range ZVS and Constant Current Charging Operation Using 6.78 MHz Class-E Power Amplifier[J]. IEEE Journal of Emerging and Selected Topics in Power Electronics. 2024,12(3):3211-25.

    [6] Chenyan Zhu, Xinghong He, Huanyu Yang, Ying Luo, Bin Yang, Jianfeng Gao, Ruikun Mai*, Zhengyou He. A Magnetic Field Concentration Enhanced I-Shaped Transmitter for DWPT System to Achieve Low Power Fluctuation[J]. IEEE Transactions on Power Electronics. 2024,39(1):1690-700.

    [7] Yuner Peng, Endian Ma, Qi Wang, Yang Chen, Ruikun Mai*, Udaya K Madawala. Maximizing Output Power of Inductive Power Transfer Systems Under Rebar Array Shielding[J]. IEEE Transactions on Power Electronics.2024,39(10):13934-13945.

    [8] Haoyun Wang, Ruikun Mai*.Research on Damping System of High Speed Superconducting Maglev Train[C].In 6th International Conference on Electrical Engineering and Information Technologies for Rail Transportation.2024,pp:463-476.

    [9] Qiang Zhou, Ruikun Mai*.Design of Wireless Power Transfer System for Mobile Devices Based on Class E Amplifier[C].In International Conference on Wireless Power Transfer.2024,pp:145-157.

    2023

    [1] Yang Chen, Shuangjiang He, Bin Yang, Shuxin Chen, Zhengyou He, Ruikun Mai*. Reconfigurable Rectifier-Based Detuned Series-Series Compensated IPT System for Anti-Misalignment and Efficiency Improvement[J]. IEEE Transactions on Power Electronics. 2023,38(2):2720-9.

    [2] Xinghong He, Chenyan Zhu, Jin Tao, Yiming Zhang, Ruikun Mai*. Analysis and Design of a Cost-Effective WPT System With Single-Input and Multioutput Based on Buck-Integrated Rectifier[J]. IEEE Transactions on Power Electronics. 2023,38(10):12388-93.

    [3] Ying Luo, Ruikun Mai*, Yi Song, Chenyan Zhu, Zhengyou He. An Inductive Power Transfer System With LCC-DDS Topology to Achieve Magnetic Field Suppression and Receiver Lightweight[J]. IEEE Transactions on Transportation Electrification. 2023,9(1):1937-49.

    [4] Ying Luo, Yi Song, Zhoulong Wang, Ruikun Mai*, Bin Yang, Zhengyou He. Auto-Segment Control System With High Spatially Average Power for Dynamic Inductive Power Transfer[J]. IEEE Transactions on Transportation Electrification. 2023,9(2):3060-71.

    [5] Siyu Xiong, Zhili Li, Ying Guo, Feng Xiong, Ling Fu, Ruikun Mai*. A Multiple-Frequency-Taylor-Model based estimator for dynamic synchrophasor considering decaying DC component[J].International Journal of Electrical Power & Energy Systems. 2023,146.

    [6] Bin Yang, Yiyang Li, Zeheng Zhang, Shuangjiang He, Yuner Peng, Yang Chen, Zhengyou He, Ruikun Mai*. A Detuned S-S Compensated IPT System With Two Discrete Frequencies for Maintaining Stable Power Transfer Versus Wide Coupling Variation[J]. IEEE Transactions on Transportation Electrification. 2023,9(3):3836-48.

    [7] Qingsong Yu, Wenhao Xiong, Zhaotian Yan, Ruikun Mai*, Zhengyou He, Yuan Shao, Xifeng Liang. Efficiency Improvement and Ripple Suppression Method Based on Partial Power Processing for Wireless Power Transfer System[J].IEEE Transactions on Power Electronics. 2023,38(10):13181-93.

    2022

    [1] Ruikun Mai, Bin Xu, Zhaotian Yan, Wei Zhou, Lizhou Liu, A Compact-Size Multi-winding Transformer-Based Discharge Equalizer for Electric Two-Wheelers and Three-Wheelers Vehicles Power Battery[J]. IEEE Transactions on Vehicular Technology: 2022, 71(5):4889 - 4897.

    [2]Ling Fu, Ling Yu, Siyu Xiong, Zhengyou He,  Ruikun Mai*, Xiaopeng Li, A Dynamic Synchrophasor Estimation Algorithm Considering Out-of-band Interference[J]. IEEE Transactions on Power Delivery, 2022, 37(2): 1193 - 1202.

    [3]Dong Wu,  Ruikun Mai*, Wei Zhou, Yeran Liu, Fan Peng, Shiqiao Zhao, Qichen Zhou. An Improved Pulse Density Modulator in Inductive Power Transfer System[J]. IEEE Transactions on Power Electronics, 2022, 37(10): 12805-12813.

    [4]Bin Yang, Yang Chen, Wenjun Ruan, Haifeng Liu, Yuchen Ren,  Ruikun Mai*, Current Stress Optimization for Double-Sided CLLLC Topology-Based IPT System With Constant Output Current Tolerating Pad Misalignments[J]. IEEE Transactions on Industry Applications, 2022. 58(1): 1032-1043. 

    [5]Ying Luo, Yi Song, Huanyu Yang,  Ruikun Mai*. Research on Reflective Properties in the IPT System With Dual Secondary Loops[J]. IEEE Transactions on Industry Applications, 2022. 58(1): 1126-1135. 

    [6]Bo Luo, Aiguo Patrick Hu, Hira Munir, Qi Zhu, Ruikun Mai*, Zhengyou He, Compensation Network Design of CPT Systems for Achieving Maximum Power Transfer Under Coupling Voltage Constraints[J].IEEE Journal of Emerging and Selected Topics in Power Electronics, 2022. 10(1): 138-148.

    [7]Shuaishuai Pan, Yefei Xu, Yuanfang Lu, Wei Liu, Yanling Li, Ruikun Mai*. Design of Compact Magnetic Coupler With Low Leakage EMF for AGV Wireless Power Transfer System[J]. IEEE Transactions on Industry Applications, 2022. 58(1): 1044-1052.

    [8]Wei Zhou, Qiao Gao, Lixin He, Bo Luo, Ruikun Mai*, Zhengyou He, Design of CPT System With Multiple Constant Output Voltage Pickups Using Inverse Hybrid Parameters of Capacitive Coupler[J]. IEEE Transactions on Industry Applications, 2022. 58(1): 1061-1070.

    [9]Ruimin Dai,  Ruikun Mai*, Wei Zhou. A Pulse Density Modulation Based Receiver Reactance Identification Method for Wireless Power Transfer System[J]. IEEE Transactions on Power Electronics, 2022, 37(9): 11394-11405.

    [10]Lingyun Zhou, Ruikun Mai*, Shunpan Liu, Jie Yu, Yong Li, Ling Fu. Minimizing Input Current of the Rectifier of LCC-LCC Compensated IPT Systems by Switch-Controlled Capacitor for Improving Efficiency [J]. IEEE Transactions on Industry Applications. 2022, 58(1): 1010-1021.

    [11]Lingyun Zhou, Shunpan Liu, Yundi Li, Ruikun Mai*, Yong Li, Ling Fu, Lei Qi, Efficiency Optimization of LCC-S Compensated Multiple-Receiver Bidirectional WPT System for Stackers in Automated Storage and Retrieval Systems[J],  IEEE Transactions on Power Electronics, 2022, 37(12): 15693-15705.

    [12]Ling Fu, Ling Yu, Siyu Xiong, Zhengyou He, Ruikun Mai*, Xiaopeng Li, A Dynamic Synchrophasor Estimation Algorithm Considering Out-of-band Interference[J]. IEEE Transactions on Power Delivery. 2022, 37(2): 1193 - 1202.

    2021

    [1]Lizhou Liu, Ruikun Mai*, Bin Xu, Wenbing Sun, Wei Zhou, Zhengyou He. Design of Parallel Resonant Switched-Capacitor Equalizer for Series-Connected Battery Strings[J], IEEE Transaction on Power Electronics, 2021, 36(8): 9160 - 9169. 

    [2]Wei Zhou, Liang Huang, Bo Luo, Ruikun Mai*, Zhengyou He, Aiguo Patrick Hu. A General Mutual Coupling Model of MIMO Capacitive Coupling Interface With Arbitrary Number of Ports[J]. IEEE Transactions on Power Electronics, 2021. 36(6): 6163-6167.

    [3]Lizhou Liu, Bin Xu, Zhaotian Yan, Wei Zhou, Yong Li, Ruikun Mai*, Zhengyou He. A Low-Cost Multiwinding Transformer Balancing Topology for Retired Series-Connected Battery String [J]. IEEE Transactions on Power Electronics, 2021, 36(5): 4931 - 4936.

    [4]Zhaotian Yan, Huaqiang Xie, Yong Li, Zhengyou He, Huanyu Yang, Wei Zhou, Chenyan Zhu, Xiao Jing, Shaonan Chen,Ruikun Mai*. Improving Misalignment Tolerance for IPT System Using A Third-Coil[J]. IEEE Transactions on Power Electronics, 2021, DOI: 10.1109/TPEL.2021.3123506. (early article)

    [5]Huanyu Yang, Yefei Xu, Yundong Gu, Chenyan Zhu, Jie Yu, Ruikun Mai*, Yong Li, Zhengyou He, Udaya Kumara. Efficiency Analysis and Optimization Method of Power-Relay IPT Systems for Reefer Containers[J]. IEEE Transactions on Power Electronics, 2021. 36(5): 4942-4947.

    [6] Wei Zhou, Liang Huang, Bo Luo, Ruikun Mai*, Zhengyou He, Aiguo Patrick Hu. A General Mutual Coupling Model of MIMO Capacitive Coupling Interface With Arbitrary Number of Ports[J]. IEEE Transactions on Power Electronics, 2021. 36(6): 6163-6167.

    [7]Chenyan Zhu, Jie Yu, Yundong Gu, Jianfeng Gao, Huanyu Yang, Ruikun Mai*, Yong Li, Zhengyou He, Analysis and Design of Cost-Effective WPT Systems With Dual Independently Regulatable Outputs for Automatic Guided Vehicles[J]. IEEE Transactions on Power Electronics, 2021. 36(6): 6183-6187.

    2020

    [1]Ruikun Mai, Zhaotian Yan, Yang Chen, Shunpan Liu, Zhengyou He. A Hybrid Transmitter-Based Efficiency Improvement Controller with Full-Bridge Dual Resonant Tank for Misalignment Condition[J]. IEEE Transactions on Power Electronics, 2020, 35(1): 1124-1135SCI:000506165200091, EI:20194407611574IF=6.373

    [2]Ruikun Mai, Qiao Li, Yang Chen, Bin Yang, Zhengyou He. Variable Parameter and Variable Frequency-Based IPT Charging System with Configurable Charge Current and Charge Voltage[J]. IET Power Electronics, 2020, 13(4): 751-757. (SCI: 000520421100014) IF= 2.672

    [3]Ruikun Mai, Ying Luo, Bin Yang, Yi Song, Shunpan Liu and Zhengyou He, Decoupling Circuit for automated guided vehicles IPT charging Systems with Dual Receivers[J].IEEE Transactions on Power Electronics. 2020, 35(7): 6652-6657. SCI: 000550376500001, EI: 20201308355204IF=6.373

    [4]Yang Chen, Bin Yang, Qiao Li, Hao Feng, Xiaobing Zhou, Zhengyou He, Ruikun Mai*. Reconfigurable Topology for IPT System Maintaining Stable Transmission Power Over Large Coupling Variation[J]. IEEE Transactions on Power Electronics, 2020, 35(5): 4915-4924. (SCI: 000530033300027, EI: 0201008273253IF=6.373

    [5]Yang Chen, Bin Yang, Xiaobing Zhou, Qiao Li, Zhengyou He, Ruikun Mai*, Jih-Sheng Lai. A Hybrid Inductive Power Transfer System with Misalignment Tolerance Using Quadruple D Quadrature Pads[J]. IEEE Transactions on Power Electronics, 2020, 35(6): 6039-6049. (SCI: 000554997600046, EI: 20201008273277) IF=6.373

    [6]Zhaotian Yan,Bin Yang, Huan Liu, Changxin Chen, Muhammad Waqas, Ruikun Mai*, Zhengyou He. Efficiency Improvement of Wireless Power Transfer Based on Multitransmitter System[J]. IEEE Transactions on Power Electronics,2020,35(9): 9011 - 9023. (SCI: 000565874200019, EI:  20202108687173IF=6.373

    [7]Shunpan Liu, Ruikun Mai*, Lingyun Zhou, Yong Li, Jiefeng Hu, Zhengyou He, Zhaotian Yan, Shiqi Wang. Dynamic Improvement of Inductive Power Transfer Systems with Maximum Energy Efficiency Tracking Using Model Predictive Control: Analysis and Experimental Verification[J].IEEE Transactions on Power Electronics, 2020, 35(12): 12752-12764.SCI: 000557436900024, EI: 20203509110781) IF=6.373

    [8]Yang Chen, Mingxuan Li, Bin Yang, Shuxin Chen, Zhengyou He, Ruikun Mai*. Variable Parameter T Circuit Based IPT System Charging Battery with Constant Current or Constant Voltage Output[J]. IEEE Transactions on Power Electronics, 2020, 35(2): 1672 –1684. (SCI: 000520838900044, EI: 20194807759899) IF=6.373

    [9]Yefei Xu, Ruikun Mai*, Wei Liu, Shuaishuai Pan, Yang Chen, Zhengyou He, Yong Li, and Udaya Madawala. A Switchable-LCL-Circuit-Based IPT System with High Efficiency for Reefer Container[J]. IEEE Transactions on Power Electronics, 2021, 2(36):1253-1258. (SCI: 000574748200009, EI: 20204309373459) IF=6.373

    [10]Huanyu Yang, Yefei Xu, Yundong Gu, Chenyan Zhu, Jie Yu, Ruikun Mai*, Yong Li, Zhengyou He, Udaya Kumara Madawala. Efficiency Analysis and Optimization Method of Power-Relay IPT Systems for Reefer Containers[J]. IEEE Transactions on Power Electronics, 2020.36(6):6183 - 6187 (SCI, EI) IF=6.373

    [11]Chenyan Zhu, Jie Yu, Yundong Gu, Jianfeng Gao, Huanyu Yang, Ruikun Mai*, Yong Li, Zhengyou He. Analysis and Design of Cost-effective WPT Systems with Dual Independently Regulatable Outputs for Automatic Guided Vehicles[J]. IEEE Transactions on Power Electronics, 2020. 36(6):6183 - 6187(SCI, EI) IF=6.373

    [12]Lizhou Liu, Bin Xu, Zhaotian Yan, Wei Zhou, Yong Li, Ruikun Mai*, Zhengyou He. A Low-cost Multiwinding Transformer Balancing Topology for Retired Series-Connected Battery String[J]. IEEE Transactions on Power Electronics, 2020.36(5): 4931 - 4936(SCI, EI) IF=6.373

    2019

    [1]Ruikun Mai , Zhaotian Yan, Yang Chen, Shunpan Liu, Zhengyou He*. A Hybrid Transmitter Based Efficiency Improvement Controller with Full-Bridge Dual Resonant Tank for Misalignment Condition[J]. IEEE Transactions on Power Electronics, 2020, 35(1):1124-1135.(SCI IF=7.224)

    [2]Ruikun Mai* , Bin Yang, Yang. Chen, Naijian. Yang, Zhengyou. He, Shibin Gao. A Misalignment Tolerant IPT System with Intermediate Coils for Constant-Current Output[J]. IEEE Transactions on Power Electronics, 2019, 34(8):7151-7155.(SCI IF=7.224)

    [3]Yang Chen, Ruikun Mai* , Youyuan Zhang, Mingxuan Li, Zhengyou He. Improving Misalignment Tolerance for IPT System Using a Third-Coil[J]. IEEE Transactions on Power Electronics, 2019, 34(4):3009-3013.(SCI IF=7.224)

    [4]Yang Chen, Mingxuan Li, Bin Yang, Shuxin Chen, Zhengyou He,Ruikun Mai* . Variable Parameter T Circuit Based IPT System Charging Battery with Constant Current or Constant Voltage Output[J]. IEEE Transactions on Power Electronics, 2019,35(2):.1672 - 1684(SCI IF=7.224)

    [5]Ling Fu, Siyu Xiong, Chenyue Pan, Sha Bai , Zhengyou He ,Ruikun Mai* ,  Xiaopeng Li. A Multiple Frequency Taylor Model-based Dynamic Synchrophasor Estimation Algorithm[J]. IEEE Transactions on Smart Grid, 2019, 10(6):6870-6882.(SCI IF=10.486)

    [6]Yong Li, Jiefeng Hu, Ming Liu, Yang Chen, Zhengyou He, Ruikun Mai* . A Reconfigurable Intermediate Resonant Circuit Based WPT System with Load-Independent Constant Output Current and Voltage for Charging Battery[J]. IEEE Transactions on Power Electronics, 2019, 34(3):1988-1992.(SCI IF=7.224)

    [7]Hongchao Li, Yeran Liu, Kunzhuo Zhou, Zhengyou He, Weihua Li, Ruikun Mai* . Uniform Power IPT System with Three-Phase Transmitter and Bipolar Receiver for Dynamic Charging[J]. IEEE Transactions on Power Electronics, 2019,34(3):2013-2017.(SCI IF=7.224)

    [8]Ruikun Mai, Ying Luo, Bin Yang, Yi Song, Shunpan Liu, Zhengyou He*. Decoupling Circuit for automated guided vehicles IPT charging Systems with Dual Receivers[J]. IEEE Transactions on Power Electronics. 2019, 35(7): 6652 - 6657.(SCI IF=7.224)

    [9]Ruikun Mai, Ruimin Dai, Zhehui Zhu, Mingxuan Li, Yang Chen, Weihua Li, Zhengyou He. Optimization of Time-Weighted Average Efficiency for Reconfigurable IPT Battery Charging System[J]. IEEE Access, 2019, 7: 43092-43099.(SCI IF=4.098)

    [10]Ling Fu, Siyu Xiong, Chenyue Pan, Sha Bai, Zhengyou He, Ruikun Mai*, Xiaopeng Li. A Multiple Frequency Taylor Model-based Dynamic Synchrophasor Estimation Algorithm[J]. IEEE Transactions on Smart Grid, 2019, 10(6): 6870-6882.(SCI IF=10.468)

    [11]Yang Chen, Mingxuan Li, Bin Yang, Shuxin Chen, Zhengyou He, Ruikun Mai*. Variable Parameter T Circuit Based IPT System Charging Battery with Constant Current or Constant Voltage Output[J]. IEEE Transactions on Power Electronics, 2019, 35(2): 1672 –1684.(SCI IF=7.224)

    [12]Yang Chen, Bin Yang, Qiao Li, Hao Feng, Xiaobing Zhou, Zhengyou He and Ruikun Mai*. Reconfigurable Topology for IPT System Maintaining Stable Transmission Power over Large Coupling Variation[J]. IEEE Transactions on Power Electronics, 2019,35(5):4915 - 4924(SCI IF=7.224)

    [13]Yang Chen, Naijian Yang, Bin Yang, Ruimin Dai, Zhengyou He, Ruikun Mai* and Shibin Gao. Two/Three-Coil Hybrid Topology and Coil Design for WPT System Charging Electric Bicycles[J]. IET Power Electronics, 2019, 12(10): 2501-2512.(SCI IF=2.839)

    [14]Bo Luo, Ruikun Mai*, Limou Guo, Dong Wu, Zhengyou He. LC–CLC compensation topology for capacitive power transfer system to improve misalignment performance[J]. IET Power Electronics, 2019, 12(10): 2626-2633.(SCI IF=2.839)

    [15]Lizhou Liu, Ruikun Mai*, Wenbing Sun, Peibang Han, Zhengyou HeLuo Bo. Active Balancing of Lithium-Ion Battery Cells Using WPT as an Energy Carrier[J]. IET Power Electronics. 2019, 12(10):2578-2585.(SCI IF=2.839)

    [16]Yang Chen, Naijian Yang, Qiao Li, Zhengyou He and Ruikun Mai*. New Parameter Tuning Method for LCC/LCC Compensated IPT system with Constant Voltage Output Based on LC Resonance Principles [J]. IET Power Electronics, 2019, 12(10): 2466-2474.(SCI IF=2.839)

    [17]Yang Chen, Mingxuan Li, Bin Yang, Shuxin Chen, Qiao Li, Zhengyou He and Ruikun Mai*. Cost-effective Inductive Power Transfer Charging System for Electric Bicycles with Variable Charging Current Using Primary-side Detuned Series-Series Topology[J]. IET Electric Power Applications, 2019, 13(9): 1378-1386.(SCI IF=3.051)

    2018

    [1]Ruikun Mai, Yang Chen, Youyuan Zhang, Naijian Yang, Guangzhong Cao and Zhengyou He*. Optimization of the Passive Components for an S-LCC Topology-Based WPT System for Charging Massive Electric Bicycles [J]. IEEE Transactions on Industrial Electronics. 201865(7): 5497-5508 (SCI: 000427132300027, EI: 20180104604823) IF:7.050

    [2]Ruikun Mai*, Yeran Liu, Yong Li, Pengfei Yue, Guangzhong Cao, Zhengyou He. An Active-Rectifier-Based Maximum Efficiency Tracking Method Using an Additional Measurement Coil for Wireless Power Transfer[J]. IEEE Transactions on Power Electronics. 2018, 33(1): 716-728. (SCI:000412481100060, EI:20174404314262) IF:6.812

    [3]Ruikun MaiPengfei YueYeran LiuYouyuan ZhangZhengyou HeA Dynamic Tuning Method Utilizing Inductor Paralleled with Load for Inductive Power Transfer[J]. IEEE Transactions on Power Electronics. 2018, 33(12): 10924-10934.SCI: 000445355900081,EI: 20180804814627IF:6.812

    [4]Ruikun Mai, Bo Luo, Yangqi Chen, Zhengyou He*. Double-sided CL Compensation Topology Based Component Voltage Stress Optimisation Method for Capacitive Power Transfer Charging System[J]. IET Power Electronics. 2018, 11(7): 1153-1160 (SCI: 000434673500002, EI 20182405309408) IF:2.267

    [5]Ruikun Mai, Youyuan Zhang, Ruimin Dai, Yang Chen, Zhengyou He*. A Three-Coil Inductively Power Transfer System with Constant Voltage Output[J]. Energies. 2018, 11(3): 673. (SCI: 000428304300201, EI: 20184305981329) IF:2.676

    [6]Ruikun Mai, Hongchao Li, Yeran Liu, Kunzhuo Zhou, Ling Fu, Zhengyou He*. A Three-phase Dynamic Wireless Charging System with Constant Output Voltage[J]. Energies. 2018,11(1) (SCI: 000424397600045, EI: 20180304655250) IF:2.676

    [7]Yeran Liu, Ruikun Mai*, Dengwei Liu, Yong Li, Zhengyou He*. Efficiency Optimization for Wireless Dynamic Charging System with Overlapped DD Coil Arrays[J]. IEEE Transactions on Power Electronic. 2018, 33(4): 2832-2846. (SCI: 00422933400009, EI: 20174004236471) IF:6.812

    [8]Bo Luo, Tao Long, Ruikun Mai*, Ruimin Dai, Zhengyou He, Weihua Li. Analysis and Design of Hybrid Inductive and Capacitive Wireless Power Transfer for High Power Applications[J]. IET power electronics, 2018, 11(14): 2263-70. (SCI: 000451392400010, EI: 20184906173235) IF:2.267

    [9]Yong Li, Jiefeng Hu, Feibin Chen, Zilin Li, Zhengyou He, Ruikun Mai*, Dual-Phase-Shift Control Scheme with Current-Stress and Efficiency Optimization for Wireless Power Transfer Systems[J], IEEE Transactions on Circuits and Systems I-Regular Papers, 2018, 65(9): 3110-3121. (SCI: 000440852500041, EI: 0181605022848) IF:2.823

    [10]Yang Chen, Bin Yang, Zhihao Kou, Zhengyou He, Guangzhong Cao, Ruikun Mai*. Hybrid and Reconfigurable IPT Systems with High-Misalignment Tolerance for Constant-Current and Constant-Voltage Battery Charging[J]. IEEE Transactions on Power Electronics, 2018, 33(10): 8259-8269. (SCI: 000439388500010, EI: 20181004860676) IF:6.812

    2017

    [1]Ruikun Mai, Linsen Ma , Yeran Liu , Pengfei Yue , Zhengyou, Guangzhong Cao. A Maximum Efficiency Point Tracking Control Scheme Based on Different Cross Coupling of Dual-receiver Inductive Power Transfer System[J] Energies. 2017, 10(2): 217. (SCI : 000395469200071EI: 20180804812510) IF: 2.676

    [2] Ruikun Mai*, Yang Chen, Yong Li, Youyuan Zhang, Guangzhong Cao, Zhengyou He. Inductive Power Transfer for Massive Electric Bicycles Charging Based on Hybrid Topology Switching with A Single Inverter[J]. IEEE Transactions on Power Electronics. 2017, 32(8): 5897-5906 (SCI: 000398952000006, EI: 20171703589994) IF: 6.812

    [3]Ruikun Mai, Liwen Lu, Yong Li*, Tianren Lin and Zhengyou He*. Circulating Current Reduction Strategy for Parallel-Connected Inverters Based IPT Systems[J].Energies.2017. 10(3):261. (SCI: 000398736700001, EI: 20171703591689) IF:2.676

    [4]Yang Chen, Zhengyou He, Zhihao Kou, Youyuan Zhang and  Ruikun Mai*. Hybrid Topology with Configurable Charge Current and Charge Voltage Output-Based WPT Charger for Massive Electric Bicycles[J]. IEEE Journal of Emerging and Selected Topics in Power Electronics. 2017, 6(3): 1581-1594. (SCI: 000441424000053, EI: 20175104564745)

    2016

    [1]Ruikun Mai, Yong Li*, Liwen Lu, Zhengyou He. A Power Regulation and Harmonic Current Elimination Approach of Parallel Multi-Inverter for Supplying IPT Systems[J]. Journal of Power Electronics. 2016, 16(4): 1245-1255. (SCI: 000383356300001, EI: 20163002644867) IF: 1.023

    [2]Yong Li, Ruikun Mai*, Liwen Lu, Zhengyou He. A Novel IPT System Based on Dual Coupled Primary Tracks for High Power Applications[J]. Journal of Power Electronics. 2016. 16(1). 111-120. (SCI: 000368383100013, EI: 20160501862275) IF: 1.023

    [3]Yong Li, Ruikun Mai*, Yeran Liu, Zhengyou He. Efficiency optimising strategy for dual-coupled transmitters based WPT systems[J]. Electronics Letters. 201652(22): 1877-1879. (SCI: 000385998000031, EI: 20164402960478)  IF: 1.232

    2015

    [1]Yong Li,Ruikun Mai*, Mingkai Yang, Zhengyou He. Cascaded Multi-Level Inverter Based IPT Systems for High Power Applications[J]. Journal of Power Electronics. 2015, 15(6). 1508-1516. (SCI: 000365143000010, EI: 20162702563461) IF:1.023

    2012

    [1]Ruikun Mai*, Ling Fu, Zhaoyang Dong. Dynamic Phasor and Frequency Estimators Considering Decaying DC Components[J], IEEE Transactions on Power Systems. 2012, 27(2): 671-681. (SCI: 000274625900007, EI: 20102413007769) IF: 5.255


  • 主要研究方向:无线电能传输技术;电力系统信号采集与处理;电力系统智能传感;电力系统状态估计;高频逆变电源技术(高频功率变换);广域同步测量技术