教育与工作经历

1994.9-1998.7 工业电气自动化 本科 洛阳工学院

1998.9-2001. 电力电子与电力传动 硕士 南京航空航天大学

1994.9-1998.7 电力电子与电力传动 博士 中国科学院电工所

1994.9-1998.7 电力电子与电力传动 博士后 时代集团

2008.1-2011.7 讲师 北京理工大学

2011.8-2016.12 副教授 北京理工大学

2012.8-2013.8 访问学者 美国弗吉尼亚理工大学

2017.1—2021.6 长聘副教授 北京理工大学

2021.7—现在 长聘教授 北京理工大学

研究方向

1.电力电子高频变换；

2.新能源发电；

3.特种装备中先进电能变换

近5年承担的科研项目

1. 国家自然科学基金（51977010） “采用模块化串并联接的单级高频隔离式双向AC-DC充放电变流器研究”

2. 国家自然科学基金（51577012）“基于高压交流直接接入的高频隔离高效率双向AC-DC变流器研究”

3. 北京市自然科学基金（3192022）“采用SiC器件的电动汽车用智能型快速双向充电机”

代表性学术论文

1. Input-Series-Output-Parallel Phase-Shift Full-Bridge Derived DC–DC Converters With Auxiliary LC Networks to Achieve Wide Zero-Voltage Switching Range. IEEE Transactions on Power Electronics, vol. 29, no. 10, pp. 5081-5086. Z. Guo, D. Sha*, X. Liao and J. Luo (SCI一区，顶级)

2. Hybrid Phase-Shift-Controlled Three-Level and LLC DC–DC Converter With Active Connection at the Secondary Side. IEEE Transactions on Power Electronics, vol. 30, no. 6, pp. 2985-2996. Z. Guo, D. Sha* and X. Liao (SCI一区，顶级)

3. Hybrid Three-Level and Half-Bridge DC–DC Converter With Reduced Circulating Loss and Output Filter Inductance. IEEE Transactions on Power Electronics, vol. 30, no. 12, pp. 6628-6638. Z. Guo, D. Sha* and X. Liao (SCI一区，顶级)

4. Decentralized inverse-droop control for input-series–output-parallel DC–DC converters. IEEE Trans. on Power Electronics. 30(9). 2015. 4621-4625. Guo Xu, D.Sha*, X. Liao (SCI一区，顶级)

5. A High-Efficiency Current-Fed Semi-Dual-Active Bridge DC–DC Converter for Low Input Voltage Applications. IEEE Transactions on Industrial Electronics, vol. 63, no. 4, pp. 2155-2164. D. Sha*, F. You and X. Wang (SCI一区，顶级)

6. Unified Boundary Trapezoidal Modulation Control Utilizing Fixed Duty Cycle Compensation and Magnetizing Current Design for Dual Active Bridge DC–DC Converter. IEEE Transactions on Power Electronics, vol. 32, no. 3, pp. 2243-2252. G. Xu, D. Sha*, J. Zhang and X. Liao (SCI一区，顶级)

7. Dynamic Response Improvements of Parallel-Connected Bidirectional DC–DC Converters for Electrical Drive Powered by Low-Voltage Battery Employing Optimized Feedforward Control. IEEE Transactions on Power Electronics, vol. 32, no. 10, pp. 7783-7794. D. Sha*, J. Zhang, X. Wang and W. Yuan (SCI一区，顶级)

8. Improved Boundary Operation for Voltage-Fed Semi-DAB With ZVS Achievement and Nonactive Power Reduction. IEEE Transactions on Industrial Electronics, vol. 64, no. 8, pp. 6179-6189. D. Sha*, J. Zhang and Y. Xu (SCI一区，顶级)

9. Utility Direct Interfaced Charger/Discharger Employing Unified Voltage Balance Control for Cascaded H-Bridge Units and Decentralized Control for CF-DAB Modules. IEEE Transactions on Industrial Electronics, vol. 64, no. 10, pp. 7831-7841. D. Sha*, G. Xu and Y. Xu (SCI一区，顶级)

10. Current-Fed Hybrid Dual Active Bridge DC–DC Converter for a Fuel Cell Power Conditioning System With Reduced Input Current Ripple. IEEE Transactions on Industrial Electronics, vol. 64, no. 8, pp. 6628-6638. D. Sha*, Y. Xu, J. Zhang and Y. Yan (SCI一区，顶级)

11. High-Efficiency Current-Fed Dual Active Bridge DC–DC Converter With ZVS Achievement Throughout Full Range of Load Using Optimized Switching Patterns. IEEE Transactions on Power Electronics, vol. 33, no. 2, pp. 1347-1357. D. Sha*, X. Wang and D. Chen (SCI一区，顶级)

12. Hybrid-Bridge-Based DAB Converter With Voltage Match Control for Wide Voltage Conversion Gain Application. IEEE Transactions on Power Electronics, vol. 33, no. 2, pp. 1378-1388. G. Xu, D. Sha*, Y. Xu and X. Liao (SCI一区，顶级)

13. Cascaded High Voltage Conversion Ratio Bidirectional Nonisolated DC–DC Converter With Variable Switching Frequency. IEEE Transactions on Power Electronics, vol. 33, no. 2, pp. 1399-1409. J. Chen, D. Sha*, Y. Yan, B. Liu and X. Liao (SCI一区，顶级)

14. Dual-Transformer-Based DAB Converter With Wide ZVS Range for Wide Voltage Conversion Gain Application. IEEE Transactions on Industrial Electronics, vol. 65, no. 4, pp. 3306-3316. G. Xu, D. Sha*, Y. Xu and X. Liao (SCI一区，顶级)

15. A GaN-Based Microconverter Utilizing Fixed-Frequency BCM Control Method for PV Applications. IEEE Transactions on Industrial Electronics, vol. 65, no. 6, pp. 4771-4780. D. Sha*, J. Zhang and J. Wu (SCI一区，顶级)

16. A Current-Fed Dual-Active-Bridge DC–DC Converter Using Extended Duty Cycle Control and Magnetic-Integrated Inductors With Optimized Voltage Mismatching Control. IEEE Transactions on Power Electronics, vol. 34, no. 1, pp. 462-473. D. Sha*, X. Wang, K. Liu and C. Chen (SCI一区，顶级)

17. Multimode Control Strategy for SiC mosfets Based Semi-Dual Active Bridge DC–DC Converter. IEEE Transactions on Power Electronics, vol. 34, no. 6, pp. 5476-5486. D. Sha*, J. Zhang and T. Sun(SCI一区，顶级)

18. An SiC MOSFET Based Three-Phase ZVS Inverter Employing Variable Switching Frequency Space Vector PWM Control. IEEE Transactions on Power Electronics, vol. 34, no. 7, pp. 6320-6331. J. Chen, D. Sha*, J. Zhang and X. Liao (SCI一区，顶级)

19. A Variable Switching Frequency Space Vector Modulation Technique for Zero-Voltage Switching in Two Parallel Interleaved Three-Phase Inverters. IEEE Transactions on Power Electronics, vol. 34, no. 7, pp. 6388-6398. J. Chen, D. Sha*, J. Zhang and X. Liao (SCI一区，顶级)

20. Current Ripple Prediction and DPWM-Based Variable Switching Frequency Control for Full ZVS Range Three-Phase Inverter. IEEE Transactions on Industrial Electronics, vol. 68, no. 2, pp. 1412-1422. J. Chen, D. Sha* and J. Zhang (SCI一区，顶级)

21. Voltage-Fed Three-Phase Semi-Dual Active Bridge DC–DC Converter Utilizing Varying Operating Modes With High Conversion Efficiency. IEEE Transactions on Power Electronics, vol. 34, no. 10, pp. 9447-9458. D. Sha*, D. Chen, S. Khan and Z. Guo (SCI一区，顶级)

22. Resonant LLC DC–DC Converter Employing Fixed Switching Frequency Based on Dual-Transformer With Wide Input-Voltage Range. IEEE Transactions on Power Electronics, vol. 36, no. 1, pp. 607-616. S. Khan, D. Sha*, X. Jia and S. Wang (SCI一区，顶级)

23. A Single-Stage Natural Power Factor Corrector Based on Dual Active Bridge DC–DC Converter Without Inner Current Tracking Loop. IEEE Transactions on Power Electronics, vol. 36, no. 1, pp. 342-352. D. Sha* and S. Wang (SCI一区，顶级)

24. A Single-Stage Dual-Active-Bridge AC–DC Converter Employing Mode Transition Based on Real-Time Calculation. IEEE Transactions on Power Electronics, vol. 36, no. 9, pp. 10081-10088. 35.D. Sha*, D. Zhang and J. Zhang (SCI一区，顶级)

25. A Dual Active Bridge DC-DC Based Single Stage AC-DC Converter with Seamless Mode Transition and High Power Factor. IEEE Transactions on Industrial Electronics. 36. J. Zhang, D. Sha* and P. Ma (SCI一区，顶级)

授权国家发明专利及出版专著

1．一种用于多模块DC-DC变换器功率均分控制

2．一种输入串联输出串联高频链逆变器功率均分控制方

3．储能系统及储能系统的控制方法

4．输入串联输出并联移相全桥变换器的全范围软开关方法

5．电流型DC-DC变换器及对称双PWM加移相控制方法

6．电流单向DC-DC变换器及对称双PWM加移相控制策略

7．一种双向DC-DC变换器电流临界连续统一控制方法

8．一种实现三相逆变器软开关的变频控制方法

9．非隔离双向高增益DC/DC变换器及变频控制方法

10．双向混合桥DC/DC变换器及半周期伏秒面积平衡控制方法

11．半有源桥DC/DC变换器的PWM移相复合控制方法

12．电流型双向DC-DC变换器不等宽PWM加相移控制方法

13．一种电流型双向DC-DC变换器的最佳电流波形控制方法

14．半有源桥DC-DC变换器的PWM-移相复合控制方法

15．双向混合桥DC-DC变换器及半周期伏秒面积平衡控制方法

16．电压源型半有源双桥DC-DC变换器的多模式控制方法

17．用于电流源型双变压器双向DC-DC变换器的控制方法

18．单极式AC-DC变换器模态平滑切换与功率因数校正控制方法

19．一种用于双有源桥式单级AC-DC变换器的控制方法

20．双变压器串联谐振双有源桥DC-DC变换器拓扑的轨迹控制方法

专利

专著

1．《输入串联模块化电力电子变换器》

2．《High frequency isolated Bidirectional Dual Active Bridge DC-DC Converters with Wide voltage Gain》

3．《New Topologies and Modulation Schemes for Soft-Switching Isolated DC-DC Converters》

科研获奖

1. XX强抗扰控制技术 国防科技进步三等奖(2021，第2)

2. 高频软开关宽增益DC-DC变换器的拓扑组合、控制及其关键技术 中国电源学会技术发明二等奖（2020年，第1）

讲授课程、出版教材及教学成果

讲授课程

1．电力电子（英文）

2．能源变换技术

3．电气工程学科前沿与进展

4．现代电力电子技术（硕、博课）

出版教材

1. 《电力电子技术》 机械工业出版社 2022

教学成果

1．2020年北京市优秀本科毕设指导教师

2．2021年北京市教学成果二等奖

3．2020年中国控制与指挥学会优秀博士论文提名奖指导教师

4．2012年优秀硕士论文指导教师

5．2017年优秀硕士论文指导教师

6．2018年优秀硕士论文指导教师

7. 2020年优秀硕士论文指导教师

指导学生科技创新获奖：

1.IEEE未来能源挑战大赛最佳论文奖（美国）

学术兼职

1．IEEE Senior Member

2．中国电工技术学会高校电气与电子创新大赛学术委员会副主任

3. XX型号工程电源分系统主任设计师