连静,博士,2022年3月毕业于东南大学,获电气工程工学博士学位。现为南京信息工程大学自动化学院讲师,主要从事无线电能传输,电力电子可靠性等方面研究工作。共发表SCI论文6篇,其中第一作者3篇,通讯作者1篇。授权发明专利两项。参与国内外重要会议7次并做汇报。
论文:
[1] Lian Jing,Qu Xiaohui. An LCLC-LC-compensated capacitive power transferred battery charger with near-unity power factor and configurable charging profile[J]. IEEE Transactions on Industry Applications,2022,58(1),1053-1060.(JCR二区SCI)
[2] Lian Jing,Qu Xiaohui,Chen Xi,Chunting Chris Mi. Design of a double-sided LCLC-compensated capacitive power transfer system with predesigned coupler plate voltage stresses[J]. IEEE Journal of Emerging and Selected Topics in Power Electronics,2022,10(1),128-137.(JCR一区SCI)
[3] Lian Jing,Qu Xiaohui. Design of a double-sided LC compensated capacitive power transfer system with capacitor voltage stress optimization[J]. IEEE Transactions on Circuits and System II-Express Briefs,2020,67(4),715-719.(JCR二区SCI)
[4] Dong Bo,Chenyang,LianJing*,et al. A novel compensation circuit for capacitive power transfer system to realize desired constant current and constant voltage output[J]. Eneriges,2022,15(4),1523.(JCR三区SCI)
[5] Lian Jing,Qu Xiaohui. A high-performance double-sided LC compensated CPT system with load-independent constant current output[C]//2019 IEEE PELS Workshop on Emerging Technologies: Wireless Power Transfer (WoW). IEEE,2019:1-5.(EI会议)
[6] Lian Jing,Qu Xiaohui. “Compensation for capacitive power transfer system to realize desirable constant voltage or constant current output[C]//2021 IEEE XXVIII International Conference on Electronics, Electrical Engineering and Computing (INTERCON). IEEE,2021:1-5.(EI会议)
[7] Zhao Wei,Qu Xiaohui,Lian Jing,Tse Chi. K.. A family of hybrid IPT couplers with high tolerance to pad misalignment[J]. IEEE Transactions on Power Electronics,2022,37(3),3617-3625.(中科院一区/JCR一区SCI)
[8] Qu Xiaohui,Jing Yanyan,Lian Jing,et al. Design for continuous-current-mode operation of inductive-power-transfer converters with load-independent output[J]. IET Power Electronics,2019,12(10),2458-2465.(JCR二区SCI)
项目:
[1] 教育部产学合作协同育人项目,在研
[2] 江苏省智能电网技术与装备重点实验室课题-开放课题,在研
[3] 横向项目,累计项目经费22万,在研