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王学庆

日期:2020年09月19日     作者:     来源:      点击:[]

副研究员

专业:电力电子与电力传动

方向:电力电子变换器控制、电机控制、驱动系统故障诊断及容错

招生:招收电气工程、电力电子与电力传动方向硕士研究生

Emailxwang@scu.edu.cn

地址:成都市一环路南一段24号四川大学科技创新中心511 邮编:610065

 

工作与学习经历

2020.09至今       网赌十大网站,特聘副研究员

2018.11-2019.11     加拿大克马斯特大学电气工程与计算机学院,联合培养,导师:Ali. Emadi教授

2017.03-2020.06     东南大学网赌十大网站,博士,导师:王政教授

2014.06-2016.12     东南大学网赌十大网站,硕士,导师:王政教授

2010.09-2014.06     天津科技大学电子信息学院,本科,导师:彭一准


发表论文

[1]  X. Wang, Z. Wang, Z. Xu, J. He and W. Zhao, “Diagnosis and tolerance of common electrical faults in T-type three-level inverters fed dual three-phase PMSM drives,” IEEE Transactions on Power Electronics, vol. 35, no. 2, pp. 1753-1769, Feb. 2020. (SCI, IF: 6.373)

[2]  X. Wang, Z. Wang, M. Gu, D. Xiao, J. He and A. Emadi, “Diagnosis-free self-healing scheme for open-circuit faults in dual three-phase PMSM drives,” IEEE Transactions on Power Electronics, 2020, vol. 35, no. 11, pp. 12053-12071, January. 2020. (SCI, IF: 6.373)

[3]  X. Wang, Z. Wang, Z. Xu, M. Cheng and Y. Hu, “Optimization of torque tracking performance for direct torque controlled PMSM with composite torque regulator,” IEEE Transactions on Power Electronics,vol. 67, no. 12, pp. 10095-10108, January. 2020. (SCI, IF: 7.515)

[4]  X. Wang, Z. Wang, Z. Xu, M. Cheng, W. Wang and Y. Hu, “Comprehensive diagnosis and tolerance strategies for electrical faults and sensor faults in dual three-phase PMSM drives,” IEEE Transactions on Power Electronics, vol. 34, no. 7, pp. 6669-6684, July 2019. (SCI, IF: 6.373)

[5]  X. Wang, Z. Wang and Z. Xu, “A hybrid direct torque control scheme for dual three-phase PMSM drives with improved operation performance,” IEEE Transactions on Power Electronics, vol. 34, no. 2, pp. 1622-1634, Feb. 2019. (SCI, IF: 6.373)

[6]  X. Wang, Z. Wang, M. Cheng, and Y. Hu, “Remedial strategies of T-NPC three-level asymmetric six-phase PMSM drives based on SVM-DTC,” IEEE Transactions on Industrial Electronics, vol. 64, no. 9, pp. 6841-6853, Sept. 2017. (SCI, IF: 7.515)

[7]  X. Wang,  Z. Wang, Z. Xu, W. Wang, B. Wang and Z. Zou, “Deadbeat predictive current control based fault-tolerant scheme for dual three-phase PMSM drives,” IEEE Journal of Emerging and Selected Topics in Power Electronics, 2020, in press, doi: 10.1109/JESTPE.2020.2983691. (SCI, IF: 4.728)

[8]  X. Wang, Z. Wang, M. Gu, B. Wang, W. Wang and M. Cheng, “Current optimization-based fault-tolerant control of standard three-phase PMSM drives,” IEEE Transactions on Energy Conversion, 2020, in press, doi: 10.1109/TEC.2020.3036041.

[9]  X. Wang, Z. Wang, M. Gu, Z. Xu, Z. Zou, W. Wang and M. Cheng, “Fault-tolerant control of common electrical faults in dual three-phase PMSM drives fed by T-type three-level inverters,” IEEE Transactions on Industrial Applications, 2020, in press. (SCI, IF:3.488)

[10]  Z. Wang, X. Wang, J. Cao, M. Cheng and Y. Hu, “Direct torque control of T-NPC inverters-fed double-stator-winding PMSM drives with SVM,” IEEE Transactions on Power Electronics, vol. 33, no. 2, pp. 1541-1553, Feb. 2018. (SCI, IF: 6.373)

[11]  Z. Wang, X. Wang, M. Cheng and Y. Hu, “Comprehensive investigation on remedial operation of switch faults for dual three-phase PMSM drives fed by T-3L inverters,” IEEE Transactions on Industrial Electronics, vol. 65, no. 6, pp. 4574-4587, June 2018. (SCI, IF: 7.515)

[12]  Z. Wang, X. Wang, X. Yang, C. Wen and Y. Hu, “Mitigation of DC-link current ripple for dual three-phase flux-adjustable hybrid PMAC drives using collaborative switching strategy,” IEEE Transactions on Industrial Electronics, vol. 67, no. 9, pp. 7202-7216, Sept. 2020. (SCI, IF: 7.515)

[13]  Z. Xu, Z. Wang, X. Wang, and M. Cheng, “A predictive current control method for dual three-phase PMSM drives with reduced switching frequency and low computation burden,” IET Electric Power Applications, vol. 14, no. 4, pp. 668-677, Apr. 2020. (SCI, IF: 3.051)

[14]  H. Li, Z. Wang, C. Wen and X. Wang, “Sensorless control of surface-mounted permanent magnet synchronous motor drives using nonlinear optimization,” IEEE Transactions on Power Electronics, vol. 34, no. 9, pp. 8930-8943, Sept. 2019. (SCI, IF: 6.373)

[15]  H. Li, Z. Wang, Z. Xu, X. Wang and Y. Hu, “Feedback linearization based direct torque control for IPMSMs,” IEEE Transactions on Power Electronics, 2020, in press. (SCI, IF: 6.373)

[16] D. Xiao, J. Ye, G. Fang, Z. Xia, X. Wang and A. Emadi, “Improved feature-position-based sensorless control scheme for SRM drives based on nonlinear state observer at medium and high speeds,” IEEE Transactions on Power Electronics, 2020, in press, doi: 10.1109/TPEL.2020.3030007. (SCI, IF: 6.373)

[15] 王学庆,王政,程明. T型三电平逆变器馈电双三相PMSM直接转矩控制,电工技术学报,2017,32: 116-123. (EI)

[16]  X Wang, S. Nalakath, S. R. Filho, G. Zhao, Y. Sun, J. Wiseman and A. Emadi, “A simple and effective compensation method for inverter nonlinearity,” IEEE Transportation Electrification Conference and Expo (ITEC), Chicago, 2020. (EI)

[17]  X. Wang, Z. Wang, P. Liu and M. Cheng, “Fault-tolerant control of dual three-phase PMSM drives fed by T-type three-level inverters,”IEEE 11th Energy Conversion Congress and Exposition (ECCE), Baltimore, 2019, pp. 3178-3184. (EI)

[18]  X. Wang, Z. Wang and M. Cheng, “Fault diagnosis and tolerance of dual three-phase PMSM drives,”IEEE 10th Energy Conversion Congress and Exposition (ECCE), Portland, 2018, pp. 325-330. (EI)

[19]  X. Wang, Z. Wang, P. Liu and M. Cheng, “A hybrid direct torque control scheme for asymmetric six-phase PMSM drives,” 43rd Annual Conference of the IEEE Industrial Electronics Society (IECON), Beijing, 2017, pp. 1686-1691. (EI)

[20]  X. Wang, Z. Wang, J. Chen, M. Cheng and Liang Xu, “Direct torque control of dual three-phase PMSM drives based on two-step voltage vector synthesis SVM,” IEEE 8th International Power Electronics and Motion Control Conference (IPEMC-ECCE Asia), Hefei, 2016, pp. 641-647. (EI)

[21]  X. Wang, Z. Wang, J. Cao, M. Cheng and L. Xu, “Fault tolerant operation of T-NPC three-level asymmetric six-phase PMSM drives based on direct torque control,” IEEE Vehicle Power and Propulsion Conference (VPPC), Hangzhou, 2016, pp. 1-6. (EI)

[22]  Z. Wang, X. Wang, M. Cheng and W. Hua, “Direct torque control of T-NPC three-level inverter fed dual three-phase PMSM drives based on double SVM strategy,” 19th International Conference on Electrical Machines and Systems (ICEMS), Chiba, 2016, pp. 1-7. (EI)

[23] 徐质闲,王政,王学庆. T型三电平双三相永磁同步电机驱动零共模电压模型预测控制,电机工程学报,2019. (EI)

[24]  G. Zhao, S. Nalakath, X. Wang and A. Emadi, “Integrated virtual voltage vectors and duty cycle control to minimize the current ripples in finite control set model predictive control for permanent magnet synchronous motor drive,” 45rd Annual Conference of the IEEE Industrial Electronics Society (IECON), Lisbon, 2019, pp. 1126-1131. (EI)

[25]  Z. Xu, Z. Wang and X. Wang, “Predictive current control method for the T-type three-level inverters fed dual three-phase PMSM drives with reduced current harmonics,” IEEE 10th International Symposium on Power Electronics for Distributed Generation Systems (PEDG), Xi'an, 2019, pp. 115-121. (EI)

[26]  P. Liu, Z. Wang, X. Wang and M. Cheng, “Remedial strategies of cascaded CSIs-fed dual three-phase PMSM drives under one-phase open-circuit faults,” IEEE 11th Energy Conversion Congress and Exposition (ECCE), Baltimore, 2019, pp. 6134-6139. (EI)

[27]  X. Huang, Z. Wang, X. Wang, L. Guan and M. Cheng, “Over-modulation operation of multiple-channel indirect matrix converter system,” IEEE 10th Energy Conversion Congress and Exposition (ECCE), Portland, 2018, pp. 3969-3975. (EI)

[28]  J. Yu, C. Liu, Y. Luo, X. Wang and Z. Wang, “Efficiency improvement of a double-stator permanent magnet vernier machine for direct-drive robotics,” IEEE 10th Energy Conversion Congress and Exposition (ECCE), Portland, 2018, pp. 4351-4358. (EI)

[29]  H. Li, M. Lin, J. Ai, G. Yang, X. Wang and W. Le, “Three-vector-based model predictive direct power control strategy for PWM rectifier,” IEEE 10th Energy Conversion Congress and Exposition (ECCE), Portland, 2018, pp. 4039-4045. (EI)

 

发明专利

[1]  王政,王学庆徐质闲,程明. 双定子双凸极复合励磁电机驱动系统及其控制方法. (CN201610274055.0)

[2]  王政,王学庆,曹家伟,程明. 多相永磁同步电机驱动系统故障诊断方法. (CN201810434763.5)

[3]  王政,王学庆,杨晓杰. 一种30度移相角的双三相永磁交流电机协同开关方法. (CN201910500332.9

[4]  王政,徐质闲,王学庆. 一种多通道永磁同步电机混合直接转矩控制方法. (CN201711187290.5

[5]  王政,顾珉睿,王学庆,程明. 双三相永磁同步电机驱动系统故障免诊断自修复方法. (CN201911126041.4) 

 

科研项目

[1]  中央高校基本科研业务项目“多通道电机驱动系统高可靠控制研究”,2020.10-2023.09,主持

[2]  江苏省研究生培养创新工程项目“高可靠型双三相永磁同步电机驱动关键控制技术与应用研究”,2017.09-2019.08,主持

[3]  东南大学优博培育基金项目“T型三电平双三相永磁同步电机驱动系统故障诊断及容错控制”,2018.03-2020.02,主持

[4]  科技部973计划重点基础研究计划项目“电机系统高可靠性设计与容错控制”,2015.09-2017.06,主研

[5]  国家自然科学基金面上项目“基于双定子多相复合永磁电机的高速电梯牵引驱动系统”,2016.01-2019.12,主研

[6]  加拿大博格华纳汽车公司项目“Advanced Electrified Vehicle Motor Control Technologies”,2018.11-2019.10,主研

[7]  韩国LG电子上海研发中心项目“低成本家电电驱控制系统关键技术研发”,2015.12-2017.06,主研 


获奖情况 

[1]  全国第五届工程硕士实习实践优秀成果获得者

[2]  江苏省优秀硕士学位论文

[3]  博士国家奖学金

[4]  全国大学生电子设计竞赛国家二等奖

 

学术兼职

IEEE会员,现担任IEEE Transactions on Industrial ElectronicsIEEE Transactions on Power ElectronicsIEEE Transactions on Transportation ElectrificationIEEE Transactions on Energy ConversionIET Electric Power ApplicationsIET Power ElectronicsIET Circuits, Devices & SystemsIEEE Access, International Transactions on Electrical Energy SystemsMathematical Problems in EngineeringJournal of Power Electronics, International Journal of ElectronicsIETE Journal of ResearchSCI期刊审稿人。

 

团队介绍

四川大学气工程学院电力电子变换与控制团队包含教授2人、副教授2人,博士后2人。研究方向具体包括:(超)大功率特种电源技术、能量路由拓扑及控制技术、直流微网及储能技术、电能质量检测及控制、电机控制等方向。研究方向涉及大功率变流器的工业应用(制氢、等离子)、轨道交通电气化、微网及储能、电力电子化电力系统等应用领域。团队研究注重理论与工业应用相结合,理论研究成果均有硬件样机,一些研究成果已成功产业化并实现量产。团队获省市级科技成果二等奖2项、三等奖3项。承担包括国家自然科学基金、国家发展和改革委员会产业化等纵向课题,近三年科研经费近3000万。团队负责人贺明智多年来一直在高端装备制造领域从事电力电子与电力传动方面的科研、教育、高端市场应用研究;在特种工业、核电及节能环保应用等方面展开重要项目研发;多次作为项目负责人主持了较多的各级别研究性课题、组织研发生产了多个国内首套或重要领域的大功率电力电子变流装置。


欢迎电气专业优秀学生报考研究生,加入电力电子变换与控制团队!


 

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