清华大学电机工程与应用电子技术系导师介绍：宋强

　　►个人简介
　　宋强 副教授
　　柔性交流输电技术、电压源型直流输电技术、大功率电力电子技术、新型功率变换技术
　　北京市海淀区清华大学西主楼2区102
　　100084
　　songqiang@tsinghua.edu.cn
　　************

　　1998年毕业于清华大学电机系获工学学士学位，2003年毕业于清华大学电机系获工学博士学位。2003年起任清华大学电机系讲师，2008年起任清华大学电机系副教授，2013年任博士生导师。目前主要从事研究方向为柔性交流输电技术（FACTS）、电压源型直流输电技术（VSC-HVDC）、新型智能功率变换技术、电能质量分析与治理和大功率电力电子技术等方面的教学和科研工作。负责或参与完成国家科技支撑计划项目、973项目、863项目、国家自然科学基金项目、国际合作项目和横向研究项目多项。曾获得国家电网公司科技进步一等奖，中国电力科学技术二等奖等。主要讲授课程电气工程仿真技术和电能质量基础等。在IEEE Transaction on Power Electronics, IEEE Transaction on Power Delivery, IEEE Trans on Industrial Electronics, 《电机工程学报》、《电力系统自动化》、《电网技术等》等国内外期刊和国际会议上发表过70余篇学术论文。

　　►个人荣誉与获奖
　　2013年上海市技术发明二等奖；
　　2007年中国电力科学技术二等奖；
　　2006年国家电网公司科技进步一等奖

　　►教学情况
　　1、本科生课程：
　　电能质量基础，2011-2015，16课时，35人
　　2、研究生课程：
　　电气工程仿真技术，2007-2015，16课时，20人

　　►学生培养及学生所获荣誉
　　1、已毕业学生
　　毕业硕士：孙伟欣、罗雨、厉璇
　　2、在读学生
　　在站博士后：赵彪
　　在读博士生：王钊
　　在读硕士生：杨文博、刘璇

　　►论文、专著与专利
　　出版专著1部，以第1第2作者发表SCI收录论文13篇，EI收录70余篇。论文被引用2400余篇次，中国引文数据库H指数为30。
　　1、专著
　　1)宋强，饶宏. 柔性直流输电换流器的分析与设计, 清华大学出版社,  2015.3
　　2、国际期刊论文选
　　1)Song Qiang. Liu Wenhua. Control of a Cascade STATCOM With Star Configuration Under Unbalanced Conditions. IEEE Transactions on Power Electronics，2009, vol.24, no.1,pp: 45-58.
　　2)Song Qiang, Liu Wenhua and Zhichang Yuan. Multilevel Optimal Modulation and Dynamic control strategies for STATCOMs using cascaded multilevel inverters. IEEE Transaction on Power Delivery, Vol. 22, No. 3, pp. 1937-1946, July. 2007.
　　3)Song Qiang, Liu Wenhua, Li Xiaoqian, Rao Hong, Xu Shukai, Li Licheng. A Steady-State Analysis Method for a Modular Multilevel Converter. IEEE Transactions on Power Electronics, vol.28,no.8, pp 3702-3713, 2013.
　　4)Zhao Biao, Song Qiang, and Liu Wenhua. Power Characterization of Isolated Bidirectional Dual-Active-Bridge dc-dc Converter with Dual-Phase-Shift Control. IEEE Transaction on Power Electronics, vol. 27, no. 9, pp. 4172–4176, Sep. 2012.
　　5)Li Xiaoqian, Song Qiang, Liu Wenhua, Rao Hong, Xu Shukai, Li Licheng. Protection of Nonpermanent Faults on DC Overhead Lines in MMC-Based HVDC Systems. IEEE Transactions on Power Delivery, vol.28,no.1, pp 483-490, 2013.
　　6)Li Xiaoqian, Song Qiang, Liu Wenhua, et al. Zero-sequence voltage injection control scheme of modular multilevel converter supplying passive networks under unbalanced load conditions. Electric Power Systems Research, 2015, 121: 270-278.
　　7)Zhao Biao, Song Qiang, and Liu Wenhua., “Dead-time effect of the high-frequency isolated bidirectional full-bridge dc-dc converter: comprehensive theoretical analysis and experimental verification,” IEEE Trans. Power Electronics., vol. 29, no. 4, pp. 1667–1680, April. 2014.
　　8)Zhao Biao, Song Qiang, and Liu Wenhua., “Experimental comparison of isolated bidirectional dc-dc converters based on all-Si and all-SiC power devices for next-generation power conversion application,” IEEE Trans. Industrial Electronics., vol. 61, no. 3, pp. 1389–1393, March. 2014.
　　9)Zhao Biao, Song Qiang, and Liu Wenhua, et al., “Current-stress-optimized switching strategy of isolated bidirectional dc-dc converter with dual-phase-shift control,” IEEE Trans. Industrial Electronics., vol. 60, no. 10, pp. 4458–4467, Oct. 2013.
　　10)Zhao Biao, Song Qiang, and Liu Wenhua, et al., “Next-generation multi-functional modular intelligent UPS system for smart grid,” IEEE Trans. Industrial Electronics., vol. 60, no. 9, pp. 3602–3618, Sep. 2013.
　　11)Zhao Biao, Song Qiang, and Liu Wenhua, “Efficiency characterization and optimization of isolated bidirectional dc-dc converter based on dual-phase-shift control for dc distribution application,” IEEE Trans. Power Electronics., vol. 28, no. 4, pp. 1711–1727, April. 2013. (SCI, IF2012: 4.65)
　　12)Zhao Biao, Song Qiang, and Liu Wenhua,, “Overview of dual-active-bridge isolated bidirectional dc-dc converter for high-frequency-link power-conversion system,” IEEE Trans. Power Electronics., early access, 2013. (SCI, IF2012: 4.65)
　　13)Zhao Biao, Song Qiang, and Liu Wenhua, et al., “A synthetic discrete design methodology of high-frequency isolated bidirectional dc-dc converter for grid-connected battery energy storage system using advanced components,” IEEE Trans. Industrial Electronics., early access. 2013.