Limited research assistant (RA) position with upto MOP12,500/month salary may be provided for competitive candidates.
Academic Qualification
Ph.D., University of Victoria, Canada
M.A.Sc., University of Victoria, Canada
B.Eng., Shanghai Jiao Tong University, China
Teaching Area
Circuit Analysis
Circuit Analysis Lab
Analog Electronics
Analog Electronics Lab
Advanced Topics in Electronics Engineering
Research Area
Power Electronics: high-frequency converter: topology, control and applications in renewable generation, transportation electrification
Professional Services
Chair, IEEE Macau Section, 2022-2026
Working Experience
2023-now: Assistant Dean, Faculty of Innovation Engineering
2019-now: Program Coordinator, School of Computer Science and Engineering
2009-now: Lecturer/Assistant Professor/Associate Professor/Professor, Macau University of Science and Technology
2002-2009: Research Associate, University of Victoria, British Columbia, Canada
1994-2001: Electrical Engineer, HuaDian HongWan Diesel Power Co., ZhuHai, China
Academic Publication Citation Information:
Google Scholar - https://scholar.google.com/citations?hl=en&user=Y428tq0AAAAJ&view_op=list_works
MUST Scholar Database --- https://scholar.must.edu.mo/scholar/100243
Academic Publication (selected)
1. S. Hu, C. Sun, R. Ding, X. Li, "Sinusoidal-Ripple-Current Charging Modulation for Semi-Dual-Active-Bridge AC-DC Converter with Full Soft Switching and Power Factor Correction", IEEE Transactions on Circuits and Systems--II: Express Briefs,71(1), 326-330, Jan. 2024, DOI: 10.1109/TCSII.2023.3303265.
2. D. Xu, H. Chen, X. Wang, V. Pires, J. Martins, A. Anuchin, X. Li, R. Palka, J. Gu, "Coupling Analysis of Differential Power Processing-based PV system and its Decoupling Implementation of Synchronous MPPT Control". IEEE Trans. on Industrial Electronics, 70(7), pp. 6973-6983 2023, doi:10.1109/TIE.2022.3201277.
3. S. Zhou, Y. Gong, X. Li, S. Hu and H. Chen, “Operation of a Semi Dual-bridge Resonant Converter with a Tunable Resonant Tank”, International Journal of Electronics and Communications, vol.152, July 2022,154261, https://doi.org/10.1016/j.aeue.2022.154261.
4. H. Chen, J. Liu, X. Wang, X. Li, M. Orabi, Y. Li, Y. Gong, N. Parspour, J. Zhang. "A Novel Method to Suppress the Force Ripple of a Switched Reluctance Linear Motor", IEEE Transactions on Industry Applications, 58(4). pp. 4792-4803, 2022, doi: 10.1109/TIA.2022.3177398.
5. F. Yu, H. Chen, W. Yan, V. Pires, J. Martins, P. Rafajdus, A. Musolino, L. Sani, M. P. Aguirre, M. A. Saqib, M. Orabi and X. Li, "Design and Multiobjective Optimization of A Double-stator Axial Flux SRM with Full-pitch Winding Configuration", IEEE Trans. Transport. Electrific., vol.8, no.4, pp. 4348-4364 2022. DOI:10.1109/TTE.2022.3173938.
6. S. Zhou, X. Li, H. Wang and P. Huang, “Modulation of a Semi Dual-Active-Bridge Resonant Converter with Soft-Switching and Zero Backflow Power”, IET Power Electronics,15, 515–530. (2022). https://doi.org/10.1049/pel2.12246.
7. C. Fang, H. Chen, H. Torkaman, A. Anuchin and X. Li , “Fault Diagnosis for Power Transistors in a Converter of Switched Reluctance Motors Based on Current Features”, IEEE Sensors Journal, VOL. 22, NO. 2, 1414-1423, Jan. 15, 2022. DOI: 10.1109/JSEN.2021.3128487.
8. H. Chen, R. Nie and X. Li, "A Transverse Flux Single-Phase Tubular Switched Reluctance Linear Machine with 4 poles," IEEE Transactions on Applied Superconductivity, 31(8), Art no. 0601704, Nov. 2021. doi: 10.1109/TASC.2021.3096514..
9. S. Hu, X. Li, Q. Zheng, “A Dual-Bridge DC/DC Resonant Converter Using Extended PWM and Phase-shift Control”, IEEE Transactions on Industry Applications, 57(4), pp.4009-4020, 2021.
10. S. Zhou, X. Li, Z.Zhong and X. Zhang, “Wide ZVS operation of a semi dual-bridge resonant converter under variable-frequency-phase-shift control”, IET Power Electronics, 13(9), p. 1746 –1755, 2020.
11. M. Lu, X. Li and G. Chen, “A Hybrid Control of a Semi Dual-Active-Bridge DC-DC Converter with Minimum Current Stress”, IEEE Transactions on Power Electronics, 35(3), pp.3085-3096, 2020..
12. Y. Tang, X. Li, S. Zhou, C. Sun, G. Chen, “Comprehensive study of fast load modulation with volt-second balance in a dual-active-bridge converter”, IET Power Electronics, 12(6), pp: 1357-1367, 2019.
13. S. Hu, X. Li, A.K.S. Bhat, “Operation of a Bidirectional Series-Resonant Converter With Minimized Tank Current and Wide ZVS Range”, IEEE Transactions on Power Electronics, 34(1), pp: 904-915, 2019.
14. C. Sun, X. Li and S.-Z. Zhou, “Transient current control for a step load change in a dual-active-bridge converter”, Electronics Letters, 2018, 54(22), pp.1290-1292..
15. X. Li, S. Hu, C. Sun and Y.-F. Zhang, “Asymmetric double-side modulation for fast load transition in a semi-dual-active-bridge converter”, IET Power Electronics, 10(13), pp:1698-1704, 2017..
16. S.-T. Lin, X. Li, C. Sun and Y. Tang, “Fast transient control for power adjustment in a dual-active-bridge converter”, Electronics Letters, 53(16), 2017, pp.1130-1132..
17. S. Hu, X. Li, “Performance evaluation of a semi-dual-bridge resonant dc/dc converter with secondary phase-shifted control”, IEEE Transactions on Power Electronics,32(10), 2017, pp.7727-7738..
18. X. Li, "A LLC-type dual-bridge resonant converter: analysis, design, simulation and experimental results," IEEE Transactions on Power Electronics, 29(8), pp:4313-4321, 2014..
19. X. Li and A.K.S. Bhat, “A Comparison Study of High-Frequency Isolated DC/AC Converter Employing an Unfolding LCI for Grid-Connected Alternative Energy Applications”, IEEE Transactions on Power Electronics, 29(8), pp:3930-3941, 2014.
20. X. Li and Y.-F. Li, “An optimized phase-shift modulation for fast transient response in a dual-active-bridge converter," IEEE Transactions on Power Electronics, 29(6), pp:2661-2665, June 2014..
21. X. Li and A.K.S. Bhat, “A Utility-interfaced phase-modulated High-Frequency Isolated Dual LCL dc/ac Converter”, IEEE Transactions on Industrial Electronics, 59(2), pages: 1008-1019, 2012.
22. X. Li, Q. Wu, S. Nandi, “Performance Analysis of a Three-phase Induction Machine with Inclined Static Eccentricity”, IEEE Transactions on Industry Applications,43(2), pages:531-541, 2007.
23. S. Nandi, H. Toliyat, X. Li, “Condition Monitoring and Fault Diagnosis of Electrical Machines - A Review”, IEEE Transactions on Energy Conversion, 20(4), pages:719-729, 2005.
Patents
Xiaodong Li, Song Hu, "Battery charger with power factor correction", US patent no.: 9,515,504 B2, Australian Innovation Patent, No.2015100179.
Xiaodong Li, "SYSTEM AND METHOD FOR CONTROLLING A CONVERTER CIRCUIT", US patent no.: 9,935,462 B2, Australian Innovation Patent, No.2016100074.
Xiaodong Li, "CONVERTER CIRCUIT AND OPERATING METHOD THEREOF", Australian Innovation Patent, No.2016100186.
Xiaodong Li, "Semi-Dual-Active-Bridge Converter System and Methods Thereof", US patent no.: 9,748,853 B1, Australian Innovation Patent, No.2016101962.
Chuan Sun, Xiaodong Li, "Systems and method for controlling a converter circuit", US patent no.: 10,658,936 B2, Australian Innovation Patent, No.2017100494.
Personal Awards
IPS(Industrial Postgraduate Scholarship) from NSERC (National Science and Engineering Research Council of Canada), 2006
IEEE Power Engineering Society (PES) Best Paper Prize, 2007
BOC Excellent Research Award in 2013.
Student Awards
The 11th China Graduate Electronics Design Contest, First-class award in South China Division, Second-class award in Final Tournament, 2016
The 12th China Graduate Electronics Design Contest, First-class award in South China Division, 2017
The 14th China Graduate Electronics Design Contest, First-class award in Final Tournament, 2019
Dr. Song Hu, Graduate Research Award of Macau Science and Technology Award, 2018
Professional Society Membership
Senior Member, IEEE