吴翔

吴翔

副教授，硕导，交通学院

电话

15105212760

邮箱

wux@tongji.edu.cn

个人简介

吴翔，工学博士，同济大学交通学院副教授、硕士研究生导师， IEEE Member、江苏省科技副总（2020-2021）、《电力系统保护与控制》第二届青年学术委员会成员，主持/参与国家自然科学基金2项，省部级项目3项，企业合作项目10余项。发表国内外高水平论文60余篇，授权发明专利10余项。研究方向为磁悬浮与轨道交通牵引变流器与控制、载运工具中的电机先进控制策略、新型宽禁带电力电子变流器、构网型储能技术等。

教育经历

2013.09-2019.06  中国矿业大学 电力电子与电力传动（国家重点学科），博士研究生

2009.09-2013.06  中国矿业大学 电气工程与自动化，本科

工作经历

2025.12-至今     同济大学 交通学院 副教授

2024.01-2025.11  中国矿业大学 电气工程学院，副教授

2019.07-2023.12  中国矿业大学 电气工程学院，讲师

研究成果

主持项目：

1 国家自然科学基金青年项目，《面向碳化硅基三电平变频器的相邻四矢量SVPWM及其多目标优化研究》，主持，2021-2023；

2 江苏省自然科学基金青年项目，《基于混、扩频PWM的异质功率器件组合型三电平变频器共模电压效应抑制策略研究》，主持，2021-2023；

3山西省科学技术厅创新生态服务支撑专项，《高性能高功率密度变频器共性关键技术研究及应用》，主持，2023-2026；

4中央高校青年科技基金，《电动汽车逆变器共模电压效应及其抑制PWM研究》，主持，2020-2021年；

5 企业项目：电动压缩机永磁电机全速域无感控制，主持，与头部公司合作，成功量产应用；

6 企业项目：重型矿卡电驱动系统开发，主持。

7 企业项目：大功率永磁同步电机带式输送机调速系统，主持，成功应用于多套煤矿带式输送机；

8 企业项目：中压大功率三电平防爆变频器，主持，成功应用于多套煤矿带式输送机；

9 企业项目：中压大功率三电平永磁提升机调速系统，主持，成功应用于多套矿井提升机；

10 企业项目：大功率储能变流器系统开发，主持。

获奖情况

国产兆瓦级高性能四象限直流PWM调速系统，获得2022年中国煤炭工业科学技术奖二等奖1项。

发表刊物

一、交流电机控制领域代表论文：

[1] New Adjacent Four-Vector Synthesis Principle-Based Phase Current   Reconstruction for PMSMs, IEEE   Transactions on Power Electronics, 2025.（第一作者）

[2] A Unified Demodulation Method for High-Frequency Signal   Injection-Based IPMSM Sensorless Control , IEEE Transactions on Power Electronics, 2025.（第一作者）

[3] Random Dual-Interval High-Frequency Square-Wave Voltage Injection   Based Sensorless Control of IPMSM Drives for Noise Reduction, IEEE Transactions on Power Electronics, 2025.（第一作者）

[4] Sensorless Control of Permanent Magnet Synchronous Motor Based on Double-   Cost-Function Finite-Position-Set Phase-Locked Loop, IEEE Transactions on   Industrial Electronics,2024（第一作者）

[5] Maximum Torque per Ampere Control for IPMSM based on Sliding Mode   Extremum Seeking Control without Steady-state Oscillation, IEEE Journal of Emerging and Selected   Topics in Power Electronics,2025 （通信作者）

[6] Review and New Expansion of the Active Damping Strategy of the PMSM   Drive System with LC Sine Wave Filter, CES Transactions on Electrical   Machines and Systems,2025（第一作者）

[7] An Anti-DC Offset Interference Sensorless Control Method for PMSM   Based on Improved SMO and MDCF-FPS-PLL, IEEE Journal of Emerging and Selected Topics in Power   Electronics,2025 （第一作者）

[8] Sensorless Control of IPMSM Equipped With LC Sinusoidal Filter Based   on Full-Order Sliding Mode Observer and Feedforward QPLL,IEEE Transactions on Power Electronics,   2024.（第一作者）

[9] 基于改进正交锁相环的永磁同步电机无位置传感器控制,电工技术学报，2023，（第一作者）

[10] 带有LC正弦波滤波器的内置式永磁同步电机电流控制器谐振抑制参数设计,电工技术学报，2023，（第一作者）

[11]  A   Comparative Study of Sensorless Control of PMSM Realized by SMO, IET Power   Electronics, 2020, （通信作者）.

[12]    Second-Order Lead Compensator-Based Quadrature PLL for Sensorless   Interior Permanent Magnet Synchronous Motor Control, IET Power Electronics,   2020, 13(3): 568-575.（通信作者）

[13]  Sensorless   flux adaption DTFC of an IPMSM based on an active flux-based MTPA and an   adaptive second-order sliding mode observer, IET Power Electronics, 2020（通信作者）

[14] Finite Position Set-Phase Locked Loop with Low Computational Burden   for Sensorless Control of PMSM Drives,  IEEE Transactions on   Industrial Electronics,2022.

[15] Sensorless Control of PMSM Drives Using Reduced Order Quasi   Resonant-Based ESO and Newton–Raphson Method-Based PLL,IEEE Transactions on Power Electronics,   2022.

[16] Optimization Design of PMSM Sensorless Control Using Generalized   Integrator, IEEE Transactions on Industrial Electronics, 2023

[17] Sensorless Control of IPMSM Drives Using High-Frequency Pulse   Voltage Injection With Random Pulse Sequence for Audible Noise Reduction,   IEEE Transactions on Power Electronics,2023

[18] Novel Random High-Frequency Square-Wave and Pulse Voltage Injection   Scheme-Based Sensorless Control of IPMSM Drives, IEEE Journal of Emerging and   Selected Topics in Power Electronics, 2023

[19] Design of Double-LCC-Compensated Wireless PMSM System With Variable   DC-Link Voltage Considering Efficiency Optimization and Dynamic Improvement, IEEE   Transactions on Power Electronics,2024

[20] A Novel Computationally Efficient Finite Position Set-Phase Locked   Loop for Low-Speed Sensorless IPMSM Control, IEEE Transactions on Power   Electronics,2025,（通信作者）

二、牵引变流器拓扑优化、设计与调制方面代表论文

[1]  Optimized   Common-Mode Voltage Reduction PWM for Three-Phase Voltage-Source Inverters,   IEEE Transactions on Power Electronics, 2016, 31(4): 2959-2969.（第一作者）

[2] Virtual-Space-Vector   PWM for A Three-Level Neutral-Point-Clamped Inverter With Unbalanced   DC-links, IEEE Transactions on Power Electronics, 2018, 33(3):2630-2642.（第一作者）

[3] Fast-Processing   Implementation of Current-Ripple-Losses-Optimized Common-mode Voltage   Reduction PWM, IEEE Transactions on Power Electronics, 2019, 34(4):3860-3870.（第一作者）

[4]  A   Hybrid PWM for Three-Level Inverter With Unbalanced DC-links, IEEE Journal of   Emerging and Selected Topics in Power Electronics, 2018, 6(1):1-15.（第一作者）

[5] 三相电压源型逆变器的多目标满意优化脉宽调制策略, 中国电机工程学报, 2016, 36(6):1674-1685.（第一作者）

[6]  A   Generalized Algorithm to Eliminate Spikes of Common-Mode Voltages for   CMVRPWM, IEEE Transactions on Power Electronics, 2016, 31(9): 6698-6709.（通信作者）

[7]  An   Improved Simplified PWM for Three-Level Neutral Point Clamped Inverter Based   on Two-Level Common-mode Voltage Reduction PWM, IEEE Transactions on Power   Electronics, 2020, （通信作者）.

[8]  A   Simplified PWM Strategy for a Neutral-Point-Clamped (NPC) Three-Level   Converter With Unbalanced DC links, IEEE Transactions on Power Electronics,   2016, 31(4): 3227-3238.

[9]    Optimized Switching Finite Control Set Model Predictive Control of NPC   Single-Phase Three-Level Rectifiers, IEEE Transactions on Power Electronics,   2020.

[10] A   Dual-Vector Model Predictive Control Method With Minimum Current THD，IEEE Transactions on Power   Electronics, 2021. （通信作者）
    [11] An optimal zero-sequence   voltage injection-based common-mode voltage reduction pulse-width modulation   for the reduction of common-mode voltages in both amplitude and third-order   component, IET Power Electronics, 2022,（第一作者）
    [12] Neutral-point voltage control   of the three-level inverter in permanent magnet synchronous motor based   direct-drive belt conveyor , Computers and Electrical Engineering,2023,（第一作者）
    [13] Dynamic Improvement and   Efficiency Optimization of Wireless Power Transfer Systems Using Improved   FCS-MPC and P&O Methods,IEEE Transactions on Power Electronics,2023

[14] Virtual space vector PWM with reduced CMV for three-level inverters   under unbalanced DC-links, Journal of power electronics, 2024（第一作者）
    [15] Virtual Space Vector   Overmodulation Strategy for NPC Three-Level Inverters With Common-Mode   Voltage Suppression,IEEE Transactions on Power Electronics,2024

[16] Optimized Asymmetrical Switching Sequences-Based Model-Predictive   Control for Three-Level T-Type Inverters, IEEE Journal of Emerging and   Selected Topics in Power Electronics,2023

[17] Enhancing the Neutral Point Potential Balance Capability Based on   Zero Sequence Voltage Range Expansion for Seven-Segment RCMV-PWM of   Three-level Inverter, IEEE Journal of Emerging and Selected Topics in Power   Electronics,2025（第一作者）

[18] Improved Model-Free Predictive Current Control With Forgetting   Factor, IEEE Transactions on Industrial Electronics,2025.

[19] Enhanced Accuracy Finite-Control-Set Model-Predictive Control for   Three-Phase Three-Level NPC Inverter, IEEE Transactions on Power   Electronics,2025.

[20] Virtual space vector PWM with reduced CMV for three-level inverters   under unbalanced DC-links, J. Power   Electron.，2025（第一作者）.