曹宇亮，长聘教授3岗，博导，国家级青年人才。2023年博士毕业于美国弗吉尼亚理工大学电力电子中心(Virginia Tech,CPES)，2024年以

“天才少年”计划最高档加入华为终端有限公司（电力电子领域首位），2026年入职betway西汉姆联电气工程系任教授。

学术研究方面，以第一作者在IEEE TPEL等国际顶级期刊发表论文8篇，其中1篇获得2023年度IEEE TPEL最佳论文一等奖，1篇获得2022年度

IEEE JESTPE最佳论文二等奖；在IEEE ECCE、APEC国际顶尖会议发表论文10篇，连续三年蝉联IEEE APEC最佳报告奖，研发样机获2022年度

IEEE ECCE硬件大赛第一名。以第一发明人申请美国发明专利6项（均已授权）、中国发明专利10项（同步通过PCT向美国、欧盟、日本等地

区申请全球专利授权）。成果落地方面，主导的华为新一代100W超级快充技术已在旗舰手机Mate 80及后续系列中转化落地，功率密度、效

率等关键指标较国内外主流方案全面领先，经济效益显著。

教育背景：

2019.8 - 2023.12 弗吉尼亚理工大学   电气工程   博士

2017.9 - 2019.6  台湾大学        电气工程   硕士

2013.9 - 2017.6  华中科技大学     电气工程   学士

工作经历：

2026.1 - 至今    bw必威西汉姆联   betway西汉姆联        长聘教授3岗

2024.3 - 2026.1  华为终端有限公司    硬件平台技术部     技术专家

2024.1 - 2024.3  弗吉尼亚理工大学    电力电子中心       Resarch Associate

个人主页：http://faculty.nuaa.edu.cn/caoyuliang/zh_CN/index.htm

每年招收电力电子方向博士研究生1-2名、硕士研究生3-5名（专业不限，有电子信息类竞赛基础者优先），同时欢迎对电力电子感兴趣、

动手能力强的本科生加入团队，一起做有意义的事！

荣誉与获奖（第一作者）：

1）2024年入选国家级青年人才

2）2022年入选华为“天才少年”计划最高档

3）2023年IEEE Transactions on Power Electronics 年度最佳论文一等奖

4）2022年IEEE Journal of Emerging and Selected Topics in Power Electronics 最佳期刊论文二等奖

5）2022年IEEE Energy Conversion Congress and Exposition 硬件大赛第一名

6）2024年IEEE Applied Power Electronics Conference and Exposition 最佳报告奖

7）2023年IEEE Applied Power Electronics Conference and Exposition 最佳报告奖

8）2021年IEEE Applied Power Electronics Conference and Exposition 最佳报告奖

9）2022年Center for Power Electronics System (CPES)年会最佳技术报告奖

【学术成果】

期刊论文（第一作者）：

[J1] Y. Cao, and D. Dong, Resonant Commutation Electronic-Embedded DC Transformer with Quasi-Trapezoidal Current and Natural

Current Sharing, in IEEE Transactions on Power Electronics, 2024

[J2] Y. Cao, and D. Dong, Hybrid Electronic-Embedded Transformer-based DC Transformer, A New Family of Soft-switching DCXs, 

in IEEE Transactions on Power Electronics, 2024.

[J3] Y. Cao, D. Dong, Electronic-Embedded Transformer Based DC Transformer with Trapezoidal Current and Natural Current Sharing,

in IEEE Transactions on Power Electronics, 2023.

[J4]Y. Cao et al., Common-mode Noise Reduction and Capacitor Voltage Auto-Balance using Bridged Midpoints and Coupled Inductor 

in a 3-L Buck-Boost Converter, in IEEE Transactions on Power Electronics, 2023.

[J5] Y. Cao et al., A Three-Level Buck-Boost Converter with Planar Coupled Inductor and Common-Mode Noise Suppression, in IEEE 

Transactions on Power Electronics, 2023.

[J6] Y. Cao, K. Ngo and D. Dong, A Scalable Electronic-Embedded Transformer (EET), a New Concept toward Ultra-high-frequency 

High-power Transformer in DC-DC Converters, in IEEE Transactions on Power Electronics, 2023. ( First Prize Paper Award, 4 

selected from 1037 accepted papers )

[J7] Y. Cao, M. Ngo, R. Burgos, A. Ismail and D. Dong, Switching Transition Analysis and Optimization for Bidirectional CLLC 

Resonant DC Transformer, in IEEE Transactions on Power Electronics, 2022.

[J8] Y. Cao, M. Ngo, N. Yan, D. Dong, R. Burgos and A. Ismail, Design and Implementation of an 18-kW 500-kHz 98.8% Efficiency 

High-Density Battery Charger with Partial Power Processing, in IEEE Journal of Emerging and Selected Topics in Power 

Electronics, 2022. ( Second Prize Paper Award, 3 selected from 634 papers )

会议论文（第一作者）：

[C1] Y. Cao et al., Design and Implementation of High-density Isolated Bi-directional Soft-switching Resonant DC-DC Converter 

with Partial Power Processing, APEC 2021. (最佳报告奖).

[C2] Y. Cao, M. Ngo, N. Yan, Y. Bai, R. Burgos and D. Dong, DC Distribution Converter with Partial Power Processing for 

LVDC/MVDC Systems, ICDCM 2021.

[C3] Y. Cao, M. Ngo, D. Dong and R. Burgos, A Simplified Time-Domain Gain Model for CLLC Resonant Converter, ECCE 2021.

[C4] Y. Cao, M. Ngo, D. Dong and R. Burgos, The ZVS Transition Analysis and Optimization for CLLC-Type Resonant DC Transformer,

ECCE 2021.

[C5] Y. Cao, M. Ngo and D. Dong, An Isolated Bi-directional Series Bridge DC Transformer Without Resonant Tank, APEC 2022. 

(最佳报告奖)

[C6] Y. Cao et al., A 75 kVA Intelligent Power Stages (IPS) Unit Design for Future Grid-interface Application, ECCE 2022.

[C7] Y. Cao, Y. Bai, V. Mitrovic, B. Fan, D. Dong and R. Burgos, 3.5 kW/in3 Planar Coupled Inductor Design and Optimization 

for a 50 kW 3-level Four-Switch Buck-Boost (3L-FSBB) Converter ECCE 2022.

[C8] Y. Cao and D. Dong,  A Scalable Electronic-Embedded Transformer (EET)-based DC Transformer (DCX) with Quasi-Square Current

and Natural Current Sharing, ECCE 2023.

[C9] Y. Cao, K. Ngo and D. Dong,  Resonant Commutation Technique for Scalable Electronic-Embedded Transformer DCX with 

Bidirectional Switch,” APEC 2024. (最佳报告奖)

[C10] Y. Cao et al., “A Bidirectional C-T-C DC Solid-State Circuit Breaker (SSCB) for Capacitive DC Bus System,”ECCE 2024.

美国发明专利（第一发明人）：

[P1] Y. Cao, M. Ngo, N. Yan, D. Dong and R. Burgos “Core loss characterization and measurement,” U.S. Patent 20220065950A1, 

Apr. 12, 2022.

[P2] Y. Cao, M. Ngo, D. Dong and R. Burgos, “Bidirectional Architectures with Partial Energy Processing For DC/DC Converters,”

U.S. Patent 20220069719A1, Mar. 29, 2022.

[P3] Y. Cao and D. Dong “Electronic-Embedded Transformer (EET) with natural current sharing and load-independent voltage 

gain”, U.S. Patent 20240055996A1, Feb. 15, 2024.

[P4] Y. Cao et al., “Reduced common mode voltage emission converter”, U.S. Patent 20240097572, Mar. 21, 2024.

[P5] Y. Cao and D. Dong, “Trapezoidal Current Control in Electronic Transformers”, U.S. Patent Appl. 18/364.088, Aug. 02, 

2023,

[P6] Y. Cao and D. Dong, “Resonant Commutation and Quasi-Trapezoidal Current Control in Electronic Transformers”, U.S. 

Patent Appl. 18/364,113, Aug. 02, 2023.

【承担项目】

1）国家海外高层次青年人才项目    主持

2）国家自然科学基金青年项目     主持