• / 王浩宇 助理教授、研究员
    邮箱: wanghy@@shanghaitech.edu.cn
    电话:(021) 20685082
    办公室: 信息学院1D-301C室
    专业方向: 电子科学与技术
王浩宇 助理教授、研究员

电 话:(021) 20685082
Email :wanghy@@shanghaitech.edu.cn

办公室:信息学院1D-301C室
个人主页:http://pearl.shanghaitech.edu.cn/
专业方向: 电子科学与技术
王浩宇 研究组招聘广告(点击进入)

研究领域

电力电子

电动汽车

可再生能源系统

数据中心、人工智能、物联网等前沿领域的电源管理


个人简历

王博士本科毕业于浙江大学电气学院应电系及竺可桢学院混合班。后赴美国马里兰大学电气与计算机工程系深造,获得电气工程专业硕士及博士学位。他于20149月全职加入上海科技大学信息科学与技术学院,任助理教授(终身教授序列)。王博士目前的主要研究内容包括:电力电子,电动汽车,电池管理系统,可再生能源系统,数据中心、物联网、人工智能等前沿领域的电源管理。截至20193月,王博士作为第一/通讯作者在IEEE旗下发表了16篇期刊论文,作为第一/通讯作者发表了24篇高质量国际会议论文。他作为第一申请人共提交了4项中国专利申请。  

王博士是IEEE高级会员、中国电源学会高级会员、中国电源学会青工委委员、上海市电源学会理事会理事。他是IEEE Trans. Transp. Electrif.的编委(Associate Editor),并且是CPSS Trans. Power Electron. & Appl.的编委。自2016年至今,他担任IEEE APECRenew. Energy Syst.轨道的分轨主席(Track Chair)。他曾担任APECIECONECCE-AsiaITEC、电源学会年会等国内外学术会议的分会主席(Session Chair)。同时,他还是IEEE Trans. Power. Electron., IEEE Trans. Ind. Electron.等多个顶级期刊的资深审稿人。此外,他曾获得上海市精品课程(2018)、上海科技大学优秀员工(2017)、上海科技大学信息学院优秀教学奖(2017)、美国马里兰大学杰出毕业论文奖金(2014)IEEE APEC参会奖金(20182014),国家公派留学奖学金(2009-2013),美国高通创新基金finalist(2012),以及浙江大学竺可桢学院特优毕业生 (2009)等荣誉。他指导的研究生曾多次获得国家奖学金、上海市优秀毕业生、国科大优秀毕业生等荣誉。


代表性论文

[1] Z. Li, B. Xue, and H. Wang*, An interleaved secondary-side modulated LLC resonant converter for wide output range applications, IEEE Transactions on Industrial Electronics, in press.

[2] J. Deng, H. Wang*, and M. Shang, A ZVS three-port dc/dc converter for high-voltage bus based photovoltaic systems, IEEE Transactions on Power Electronics, in press.

[3] C. Li, H. Wang*, and M. Shang, A five-switch bridge based reconfigurable LLC converter for deeply-depleted PEV charging applications, IEEE Transactions on Power Electronics, in press.

[4] L. Yu and H. Wang*, A novel dual-input ZVS dc/dc converter for low-power energy harvesting applications, IEEE Journal of Emerging and Selected Topics in Power Electronics, in press.

[5] X. Lu, Y. Chen, M. Fu, and H. Wang*, Multi-objective optimization based real-time control strategy for battery/ultracapacitor hybrid energy management systems, IEEE Access, vol. 7, no. 1, pp. 11640 - 11650, Dec. 2019.

[6] X. Lu and H. Wang*, A highly efficient multifunctional power electronic interface for PEV hybrid energy management systems, IEEE Access, vol. 7, no. 1, pp. 8964–8974, Dec. 2019.

[7] Z. Li, S. Dusmez, and H. Wang*, A novel soft-switching secondary-side modulated multioutput dc–dc converter with extended ZVS range, IEEE Transactions on Power Electronics, vol. 34, no. 1, pp. 106-116, Jan. 2019.

[8] M. Shang and H. Wang*, A voltage quadrupler rectifier based pulsewidth modulated LLC converter with wide output range, IEEE Transactions on Industry Applications, vol. 54, no. 6, pp. 6159-6168, Nov./Dec. 2018.

[9] M. Shang, H. Wang*, and Q. Cao, Reconfigurable LLC topology with squeezed frequency span for high-voltage bus-based photovoltaic systems, IEEE Transactions on Power Electronics, vol. 33, no. 5, pp. 3688-3692, May 2018.

[10] H. Wang* and Z. Li, A PWM LLC type resonant converter adapted to wide output range in PEV charging applications, IEEE Transactions on Power Electronics, vol. 33, no. 5, pp. 3791-3801, May 2018.

[11] L. Yu, H. Wang*, and A. Khaligh, A discontinuous conduction mode single stage step-up rectifier for low voltage energy harvesting applications, IEEE Transactions on Power Electronics, vol. 32, no. 8, pp. 6161-6169, Aug. 2017.

[12] H. Wang*, M. Shang, and A. Khaligh, A PSFB based integrated PEV onboard charger with extended ZVS range and zero duty cycle loss, IEEE Transactions on Industry Applications, vol. 53, no. 1, pp. 585-595, Jan./Feb. 2017.

[13] C. Shi, H. Wang, S. Dusmez, and A. Khaligh*, A SiC-based high-efficiency isolated onboard PEV charger with ultrawide dc-link voltage range, IEEE Transactions on Industry Applications, vol. 53, no. 1, pp. 501-511, Jan./Feb. 2017.

[14] C. Shi, A. Khaligh*, and H. Wang, Interleaved SEPIC power factor preregulator using coupled inductors in discontinuous conduction mode with wide output voltage, IEEE Transactions on Industry Applications, vol. 52, no. 4, pp. 3461-3471, Jul./Aug. 2016.

[15] H. Wang, S. Dusmez, and A. Khaligh*, Maximum efficiency point tracking technique for LLC based PEV chargers through variable dc link control, IEEE Transactions on Industrial Electronics, vol. 61, no. 11, pp. 6041–6049, Nov. 2014.

[16] H.Wang, S. Dusmez, and A. Khaligh*, Design and analysis of a full bridge LLC based PEV charger optimized for wide battery voltage range, IEEE Transactions on Vehicular Technology, vol. 63, no. 4, pp. 1603–1613, Apr. 2014.

[17] C. Chen, Y. Tang, H. Wang, and Y. Wang*, A review of fabrication options and power electronics for flapping-wing robotic insects, International Journal of Advanced Robotic Systems, vol. 10, no. 151, pp. 779–786, Dec. 2013.

[18] H. Wang, A. Hasanzadeh, and A. Khaligh*, Transportation electrification: conductive charging of electrified vehicles, IEEE Electrification Magazine, vol. 1, no. 2, pp. 46–58, Dec. 2013.

[19] H. Wang, Y. Tang, and A. Khaligh*, A bridgeless boost rectifier for low-voltage energy harvesting applications, IEEE Transactions on Power Electronics, vol. 28, no. 11, pp. 5206–5214, Nov. 2013.