教育与工作经历

教育经历：

2007.9-2011.6 北京理工大学 自动化学院 电气工程与自动化 学士

2011.9-2013.3 加州大学尔湾分校 电气工程与计算机系 电气工程  硕士（导师：马科悦）

2014.9-2018.6 加州大学尔湾分校 电气工程与计算机系 电气工程  博士（导师：马科悦）

工作经历：

2013.5-2014.5 加州大学尔湾分校 电力电子研究中心 初级研究员

2018.9-2022.2 北京理工大学 自动化学院 特别研究员、博士生导师

2021.12-2022.12 香港城市大学 电机工程系 助理研究员/博后（合作导师：谢智刚）

2022.12-至今 北京理工大学 自动化学院 准聘教授、博士生导师

 

研究方向

1.直流变换器拓扑与调制（升压、降压、双向）

2.先进变流器控制策略（DC/DC、AC/DC）

3.跟网/构网型逆变器调控策略

4.新型电力系统复杂性分析、优化调度、人工智能技术在电力系统中的应用

 

团队办公环境、实验条件良好，氛围融洽。本人培养的研究生就职于五院东方红、五院总环部、二院203、八院八部、中船707、中物院十所、国电投中央研究院、海信视像科技、海康威视等大型企事业单位。

本人每年招收博士生1-2名（含直博），硕士生3-4名（含推免），对上述研究方向感兴趣的同学请邮件联系。

近5年承担的科研项目

1. 国家自然科学基金委员会，优秀青年科学基金项目（海外），基于开关电容的电源管理单元变换器拓扑结构与调制策略研究，2023-01至2025-12，主持

2. 国家自然科学基金委员会，面上项目，可在线重构的准单级式微纳卫星内核供电DC/DC变换器拓扑架构与调控策略研究，2025-01至2028-12，主持

3. 国家自然科学基金委员会，青年科学基金项目，Cuk谐振腔开关电容变换器拓扑及其单周期控制策略研究，2021-01至2023-12，主持（优秀结题）

4. 中国电力科学研究院有限公司，可再生能源并网全国重点实验室开放基金项目，适应电网扰动的跟网/构网型多功能并网逆变器自适应控制策略研究，2025-09至2027-08，主持

5. 华为技术有限公司，企业关键技术研发，无线高密隔离供电模组，2025-05至2026-05,主持

6. 中国科学院电工研究所，企业关键技术研发，交直流变换器软开关优化控制策略，2025-05至2025-11,主持

7. 中国科学院电工研究所，企业关键技术研发，高精度ACDC变流器设计，2023-02至2023-05，主持

8. 中国电力科学研究院有限公司，技术咨询，靠港船舶岸电系统电气及并网试验检测方法研究，2019-06至2020-06，主持

9. 中国船舶重工集团公司第七一四研究所，技术咨询，国际航行船舶岸电公约、规范、标准一致性分析研究， 2020-10至2020-12，主持

10. 北京理工大学，青年教师学术启动计划，宽范围线性调压的谐振开关电容式直流变换器的拓扑研究，2019-01至2021-12，主持

代表性学术论文

1. B. Wu*, S. Li, K. Ma Smedley and S. Singer, "A Family of Two-Switch Boosting Switched-Capacitor Converters," in IEEE Transactions on Power Electronics, vol. 30, no. 10, pp. 5413-5424, Oct. 2015.

2. B. Wu*, S. Li, Y. Liu and K. Ma Smedley, "A New Hybrid Boosting Converter for Renewable Energy Applications," in IEEE Transactions on Power Electronics, vol. 31, no. 2, pp. 1203-1215, Feb. 2016.

3. B. Wu*, S. Li, K. M. Smedley and S. Singer, "Analysis of High-Power Switched-Capacitor Converter Regulation Based on Charge-Balance Transient-Calculation Method," in IEEE Transactions on Power Electronics, vol. 31, no. 5, pp. 3482-3494, May 2016.

4. B. Wu*, S. Li and K. Ma Smedley, "A New Single-Switch Isolated High-Gain Hybrid Boosting Converter," in IEEE Transactions on Industrial Electronics, vol. 63, no. 8, pp. 4978-4988, Aug. 2016.

5. S. Li*, K. Xiangli, Y. Zheng and K. M. Smedley, "Analysis and Design of the Ladder Resonant Switched-Capacitor Converters for Regulated Output Voltage Applications," in IEEE Transactions on Industrial Electronics, vol. 64, no. 10, pp. 7769-7779, Oct. 2017.

6. S. Li, K. Xiangli* and K. M. Smedley, "A Control Map for a Bidirectional PWM Plus Phase-Shift-Modulated Push–Pull DC–DC Converter," in IEEE Transactions on Industrial Electronics, vol. 64, no. 11, pp. 8514-8524, Nov. 2017.

7. S. Li*, Y. Zheng, B. Wu and K. M. Smedley, "A Family of Resonant Two-Switch Boosting Switched-Capacitor Converter with ZVS Operation and a Wide Line Regulation Range," in IEEE Transactions on Power Electronics, vol. 33, no. 1, pp. 448-459, Jan. 2018.

8. S. Li*, K. M. Smedley, D. R. Caldas and Y. W. Martins, "Hybrid Bidirectional DC–DC Converter with Low Component Counts," in IEEE Transactions on Industry Applications, vol. 54, no. 2, pp. 1573-1582, March-April 2018.

9. S. Li*, K. Xiangli and K. M. Smedley, "Analysis and Design of a Family of Two-Level PWM Plus Phase-Shift-Modulated DC–DC Converters," in IEEE Transactions on Industrial Electronics, vol. 65, no. 6, pp. 4650-4660, June 2018.

10. Y. Zheng, S. Li*, S. Dey and K. Smedley, "Family of isolated bidirectional resonant converters with duty-cycle control and automatic power flow transition," in IET Power Electronics, vol. 11, no. 9, pp. 1582-1590, 7 8 2018.

11. K. Xiangli, S. Li* and K. M. Smedley, "Decoupled PWM Plus Phase-Shift Control for a Dual-Half-Bridge Bidirectional DC–DC Converter," in IEEE Transactions on Power Electronics, vol. 33, no. 8, pp. 7203-7213, Aug. 2018.

12. S. Li, Y. Zheng* and K. M. Smedley, "A Family of Step-Up Resonant Switched-Capacitor Converter with a Continuously Adjustable Conversion Ratio," in IEEE Transactions on Power Electronics, vol. 34, no. 1, pp. 378-390, Jan. 2019.

13. S. Li*, W. Xie and K. M. Smedley, "A Family of an Automatic Interleaved Dickson Switched-Capacitor Converter and Its ZVS Resonant Configuration," in IEEE Transactions on Industrial Electronics, vol. 66, no. 1, pp. 255-264, Jan. 2019.

14. Y. Zheng, S. Li* and K. M. Smedley, "Nonisolated High Step-Down Converter with ZVS and Low Current Ripples," in IEEE Transactions on Industrial Electronics, vol. 66, no. 2, pp. 1068-1079, Feb. 2019.

15. S. Li, Z. Li, S. Zheng*, W. Xie, Y. Zheng and K. M. Smedley, "Multi-Resonance-Core-Based Dickson Resonant Switched-Capacitor Converters with Wide Regulation," in IEEE Transactions on Power Electronics, vol. 35, no. 2, pp. 1685-1698, Feb. 2020.

16. W. Xie, S. Li*, Y. Zheng, K. Smedley, J. Wang, Y. Ji, J. Yu., "A Family of Step-up Series-parallel Dual Resonant Switched-capacitor Converters with Wide Regulation Range," in IEEE Transactions on Power Electronics, vol. 35, no. 3, pp. 2724-2736, March 2020.

17. W. Xie*, S. Li, K. M. Smedley, J. Wang, Y. Ji and J. Yu, "A Family of Dual Resonant Switched-Capacitor Converter with Passive Regenerative Snubber," in IEEE Transactions on Power Electronics, vol. 35, no. 5, pp. 4891-4904, May 2020.

18. Y. Zheng, B. Y. Brown, W. Xie, S. Li* and K. Smedley, "High Step-Up DC-DC Converter with Zero Voltage Switching and Low Input Current Ripple," in IEEE Transactions on Power Electronics, vol. 35, no. 9, pp. 9416-9429, Sept. 2020.

19. Z. Li, S. Li*, S. Liu, N. Zhang, S. Zheng, W. Xie, K. Smedley, "Analysis and Design of Half-bridge Dickson Resonant Switched-capacitor Converters with Indirect Resonant Core," in IEEE Transactions on Industry Applications, vol. 57, no. 5, pp. 5063-5073, Sept.-Oct. 2021.

20. X. Zhao, Z. Ma, S. Li and S. Zou*, "Robust LFC of Power Systems With Wind Power Under Packet Losses and Communication Delays," in IEEE Journal on Emerging and Selected Topics in Circuits and Systems, vol. 12, no. 1, pp. 135-148, March 2022.

21. J. Chai, M. Wang*, Y. He, Z. Li, Z. Xu and S. Li, "Decentralized Suppression Strategy of Common Ground Circulating Current Caused by Grounding Fault in PV Modules in Single-Phase PV Grid-Connected Systems," in IEEE Journal on Emerging and Selected Topics in Circuits and Systems, vol. 12, no. 1, pp. 220-231, March 2022.

22. S. Li, S. Liang, Z. Li* and S. Zheng, "A Phase-Shift-Modulated Resonant Two-Switch Boosting Switched-Capacitor Converter and Its Modulation Map," in IEEE Transactions on Industrial Electronics, vol. 70, no. 8, pp. 7783-7795, Aug. 2023.

23. Z. Li, S. Li*, S. Liang, S. Zheng, S. Zou and G. Zhang, "A Modulation Map for a Family of Phase-Shift-Modulated Resonant Switched-Capacitor Converters," in IEEE Transactions on Industry Applications, vol. 59, no. 2, pp. 1863-1876, March-April 2023.

24. S. Li*, C. Hao, W. Ding, S. Zheng, S. Zou and G. Zhang, "Series-Parallel Multiresonant Switched-Capacitor Converters and the Optimal Operation Region," in IEEE Transactions on Industry Applications, vol. 59, no. 5, pp. 5971-5988, Sept.-Oct. 2023.

25. N. Zhang, S. Li*, C. Hao and S. Zheng, "A Step-Down Series-Parallel Dual-Resonant Switched-Capacitor Converter With Extended Voltage Gain Range and Complete Soft Charging," in IEEE Transactions on Industry Applications, vol. 60, no. 2, pp. 2935-2948, March-April 2024.

26. N. Zhang, W. Ding, P. Yang, Q. Li, G. Zhang and S. Li*, "A Family of Ladder Multi-Resonant Switched-Capacitor Converters With Extended Voltage Gain Range and Complete Soft Charging," in IEEE Transactions on Industry Applications, vol. 60, no. 2, pp. 2852-2869, March-April 2024.

27. Z. Li, S. Zou, P. Yang, Q. Li, G. Zhang and S. Li*, "Universal Modeling Method and Reactive Power Optimization for Phase-Shift-Modulated Resonant Switched-Capacitor Converters," in IEEE Transactions on Industry Applications, vol. 60, no. 2, pp. 2960-2969, March-April 2024.

28. H. Ding*, X. Li, X. Guo, S. Li*, Y. Zhang, K. Ma, J. Guerrero, "Passivity-Based Nonsingular Terminal Sliding-Mode Control for LC-Filtered Current Source  Converter," in IEEE Transactions on Power Electronics, vol. 39, no. 8, pp. 9367-9381, Aug. 2024.

29. H. Ding, J. Wang, X. Guo*, S. Li* and J. M. Guerrero, "Fixed-Time Sliding-Mode Disturbance Observer-Based Finite-Time Backstepping Control for Current Source Rectifier," in IEEE Journal of Emerging and Selected Topics in Power Electronics, vol. 12, no. 5, pp. 4767-4778, Oct. 2024.

30. W. Xie, W. Xi, S. Li*, K. M. Smedley, X. Zhu and Y. Dai*, "Performance Limits of Resonant Switched-Capacitor Converter With Voltage Regulation," in IEEE Transactions on Power Electronics, vol. 40, no. 1, pp. 1441-1456, Jan. 2025.

31. Y. Fu, S. Li*, S. Zou, X. Li, J. Yang, G. Zhang, “A Family of Single-Switch High Step-Up DC-DC Converters Based on Switched-Capacitor Converters,” in International Journal of Circuit Theory and Applications, 2025, 53(9): 5338-5356.

32. Y. Fu, Y. Zhao, J. Qi, W. Xie, S. Li*, K. Sun, K. Smedley, "A Switched-Capacitor-Based Reconfigurable DC–DC Converter for Nanosatellite Power System," in IEEE Transactions on Power Electronics, vol. 40, no. 11, pp. 16572-16586, Nov. 2025.

33. J. Yuan*, P. Sun, H. Ding, S. Li* and Q. Zhao, "Model-Based and QRESO-Based Predictive Compensation Active Damping With Capacitor-Voltage Feedback for Current Source Rectifier," in IEEE Journal of Emerging and Selected Topics in Power Electronics, vol. 13, no. 5, pp. 6053-6065, Oct. 2025.

34. H. Ding*, Z. Zhu, X. Guo, S. Li, Z. Zhang and K. Ma, "Improved ADRC With a Disturbance-Separation CESO Based on Complex Coefficient-Filter for Current Source Rectifier," in IEEE Transactions on Industrial Electronics, doi: 10.1109/TIE.2025.3595964.

35. Y. Fu, Y. Zhao, J. Qi, W. Xie, S. Li*, K. Sun, K. Smedley, "A Reconfigurable Multiresonant Switched-Capacitor Converter for 48 V Data Center Application," in IEEE Transactions on Power Electronics, vol. 40, no. 12, pp. 17958-17971, Dec. 2025.

36. W. Xie, J. Huang, H. Chen, S. Li*, K. M. Smedley, X. Zhu, Y. Dai*, "A Family of Quasi-Parallel DC-DC Converter With Three-Port Resonant Switched-Capacitor Circuit," in IEEE Transactions on Power Electronics, vol. 41, no. 1, pp. 640-652, Jan. 2026.

37. S. Hao, Y. Fu, Y. Zhao, S. Li*, X. L. Li, J. Yang, G. Zhang*, “A Single-Switch Quadratic Boost DC-DC Converter with Inherent Clamped Circuit,” in International Journal of Circuit Theory and Applications, 2025.

38. S. Hao, S. Liu, S. Zheng, J. Yang，S. Li*, “Switched-capacitor hybrid DC-DC converter with reduced passive component volume,” in Journal of Power Electronics, 2025.

39. H. Ding*, Y. Liu, X. Guo, S. Li*, Y. Zhang, Z. Zhang, “Improved Backstepping Control Strategy for Current Source Rectifier Under Non-ideal Grid Conditions,” in IEEE Transactions on Industrial Electronics, 2025.

40. 孟珺遐,阮文骏,孙远,孙厚涛,梁胜男,李守翔*.一种新型岸电电压相位和频率符合性评价的检测方法[J]. 科学技术与工程,2020,20(34):14072-14077.

41. 郑戍华,乔亚军,王向周*,李守翔,陈冬清. 载重量变化对矿用车轨迹跟踪影响研究[J]. 北京理工大学学报, 2021, 41(4):403-409.

42. 郑戍华,南若愚,李守翔*,王向周,陈梦心. 基于轻量化网络的眼部特征分割方法[J]. 北京理工大学学报,2021,41(9):970-976.

43. 朱天博,邢劲,韦仲康,李守翔*,邹苏郦.区块链下计及用户价格响应的电力市场定价机制[J]. 科学技术与工程,2021,21(14):5796-5803.

44. 仝新峰,胡安平,刘浩军,黄平,孟珺遐,李守翔*. 基于模糊-内模双环控制的船岸并网系统[J]. 科学技术与工程, 2021, 21(34): 14561-14569.

45. 陈磊,王聪,董增波,王涛,闫丽,张国驹,王育哲,李守翔*. 多功能并网逆变器的预测-等效滑模控制策略[J]. 科学技术与工程, 2024,24(12):4990-4997.

46. 张宇坤,白雅楠,冯博文,黄越辉,杨景熙,李守翔*．弱电网下多功能并网逆变器的加权谐振容压前馈控制策略[J/OL]．高电压技术.

47. 蒿天衢,黄家正,董政*,李守翔,陈倩,秦家旺. 三有源桥变换器移相离散集模型预测控制[J]. 北京理工大学学报自然版, 2025, 45(6): 641-649.

48. 郝士诚,董芹芹,李守翔*. 基于开关电容的混合型直流变换器箝位电路特性研究[J]. 科学技术与工程, 2026.

授权国家发明专利及出版专著

1. 李守翔,王向周,郑戍华,谢文浩,张言溪.一种谐振开关电容变换器: ZL201811555254.4[P].2019-12-03.

2. 李守翔,王向周,郑戍华,谢文浩,梁胜男.一种升压式串并联全谐振开关电容变换器: ZL201811566914.9[P].2020-02-07.

3. 李守翔,董芹芹,王向周,郑戍华.基于开关电容和隔离变压器的混合型高增益直流变换器: ZL202110003194.0[P].2024-08-23.

4. 李守翔,王育哲,付昱,王向周,郑戍华. 一种基于耦合电感的宽增益升压直流变换器: ZL202210767816.1[P].2024-08-23.

5. 李守翔,付昱,王向周,郑戍华.一种混合型高增益直流变换器:CN 202110002699.5 [P]. 2021-01-04.（已受理）

6. 李守翔,付昱,王育哲,王向周,郑戍华.一种非隔离超高增益单开关升压直流变换器: CN 202310595052.7 [P].2023-05-25. (已受理)

7. 李守翔,张欣宇,付昱,王向周,郑戍华.面向微纳卫星的电容隔离型配电单元DC/DC变换器:CN 202410236747.0 [P].2024-03-01.（已受理）

8. 李守翔,张宁宁,王向周,郑戍华.一种永磁同步发电机的鲁棒快速双矢量模型预测控制方法:CN 202410361941.1 [P].2024-03-28.（已受理）

9. 李守翔,付昱,郝士诚,王向周,郑戍华.一种基于开关电容的单开关超高升压 DC-DC 变换器:CN 202410407261.9 [P].2024-04-07.（已受理）

10. 李守翔,郝士诚,付昱,王向周,郑戍华.一种开关电容和耦合电感的二次升压型 DC-DC 变换器:CN 202410407317.0 [P].2024-04-07.（已受理）

11. 李守翔,张宇坤,白雅楠,冯博文,王向周,郑戍华.一种多功能逆变器的改进前馈控制方法:CN 202510531859.3 [P].2025-04-25.（已受理）

12. 李守翔,付昱,闫宇馨,王向周,郑戍华.一种可重构多谐振开关电容直流变换器:CN 202510627749.7 [P].2025-05-15.（已受理）

专著

科研获奖

本人获奖：

1. IEEE Transactions on Power Electronics，杰出审稿人，2023

2. IEEE ISCAS 2025青年学者最佳论文奖，2025

3. EENES 2025最佳分会场论文奖，2025

4. 入围斯坦福大学2022年、2024年度全球前2%科学家榜单

5. 教育部第六届中国国际“互联网+”大学生创新创业大赛国际赛道,银奖，2020

6. 中国自动化学会第十九届全国大学生智能汽车竞赛，全国总决赛室外无人驾驶自行车挑战赛，优秀指导教师奖，2024

7. 中国自动化学会第十九届全国大学生智能汽车竞赛，华北赛区室外无人驾驶自行车挑战赛，优秀指导教师奖，2024

8. 北京理工大学“师缘北理”优秀人才奖，2023.9

9. 北京理工大学川渝地区本科招生宣传工作“优秀领航人”称号， 2023.9

指导学生获奖：

1. 北京理工大学第十八届“世纪杯”学生课外学术科技作品竞赛，“基于开关电容结构的混合型高增益升压直流变换器”，二等奖，2019

2. 中国自动化学会第十九届全国大学生智能汽车竞赛，越野信标组/独轮乙组，省级二等奖2项，2024

3. 中国自动化学会第十九届全国大学生智能汽车竞赛，室外专项赛无人驾驶自行车挑战赛，国家一等奖（亚军）、省级一等奖，2024

4. 中国自动化学会第二十届全国大学生智能汽车竞赛，极速越野（本科）组，省级二等奖1项，2025

5. 博士研究生国家奖学金，付昱，2025

讲授课程

1. Modern Power Electronics   32学时   全英文研究生课程

2. 工厂供电                                32学时    本科生课程

3. 智能检测技术                         32学时    研究生课程

教学成果

学术兼职

1. 中国电工技术学会交直流供配电技术及装备专业委员会，青年委员

2. 中国自动化学会新能源与储能系统控制专业委员会，委员

3. 中国自动化学会具身智能专业委员会，委员

4. 北京电力电子学会青年工作委员会，委员

5. 《广东电力》青年编委

6. 《科技导报》青年编委

7. 《中国电气工程学报（英文）》青年编委