Control theory, Magnet, Stator, Torque and Fault tolerance are his primary areas of study. While the research belongs to areas of Control theory, Wenxiang Zhao spends his time largely on the problem of Torque ripple, intersecting his research to questions surrounding Vector control. His work carried out in the field of Magnet brings together such families of science as Magnetic flux and Electronic engineering.
The various areas that Wenxiang Zhao examines in his Magnetic flux study include Electric potential and Electrical engineering. Wenxiang Zhao has included themes like Machine control, Linear motor, Electromagnetic coil and Rotor in his Stator study. His Electromagnetic coil research incorporates elements of Coupling, Finite element method and Automotive engineering.
His primary scientific interests are in Magnet, Control theory, Torque, Stator and Electromagnetic coil. His Magnet study integrates concerns from other disciplines, such as Finite element method and Thrust. His research integrates issues of Torque ripple, Direct torque control, Fault and Rotor in his study of Control theory.
His Torque course of study focuses on Harmonics and Harmonic and Vibration. His Stator research is multidisciplinary, incorporating elements of Magnetic flux, Magnetic core, Linear motor and Topology. In the field of Electromagnetic coil, his study on Counter-electromotive force overlaps with subjects such as Flux.
His scientific interests lie mostly in Control theory, Magnet, Torque, Stator and Harmonics. Wenxiang Zhao integrates Control theory with Fault tolerance in his study. The study incorporates disciplines such as Acoustics, Magnetic flux and Electromagnetic coil in addition to Magnet.
His study in Torque is interdisciplinary in nature, drawing from both Torque ripple, Magnetic reluctance, Flux linkage and Topology. His work deals with themes such as Armature, Magnetic core, Mechanics and Topology, which intersect with Stator. His Harmonics research integrates issues from Vibration, Harmonic analysis, Rotor and Harmonic.
His primary areas of investigation include Control theory, Torque, Stator, Magnet and Harmonic analysis. His work on Permanent magnet motor as part of general Control theory study is frequently linked to Vernier scale, bridging the gap between disciplines. His Torque research is multidisciplinary, relying on both Mathematical optimization and Topology.
Wenxiang Zhao regularly ties together related areas like Electromagnetic coil in his Magnet studies. Magnetic circuit is closely connected to Excitation in his research, which is encompassed under the umbrella topic of Electromagnetic coil. The Harmonic analysis study combines topics in areas such as Harmonics, Three-phase and Harmonic.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Overview of Stator-Permanent Magnet Brushless Machines
Ming Cheng;Wei Hua;Jianzhong Zhang;Wenxiang Zhao.
IEEE Transactions on Industrial Electronics (2011)
Back-EMF Harmonic Analysis and Fault-Tolerant Control of Flux-Switching Permanent-Magnet Machine With Redundancy
Wenxiang Zhao;Ming Cheng;Wei Hua;Hongyun Jia.
IEEE Transactions on Industrial Electronics (2011)
Parameters identification of solar cell models using generalized oppositional teaching learning based optimization
Xu Chen;Kunjie Yu;Wenli Du;Wenxiang Zhao.
Remedial Injected-Harmonic-Current Operation of Redundant Flux-Switching Permanent-Magnet Motor Drives
Wenxiang Zhao;Ming Cheng;K. T. Chau;Ruiwu Cao.
IEEE Transactions on Industrial Electronics (2013)
Modeling of a Complementary and Modular Linear Flux-Switching Permanent Magnet Motor for Urban Rail Transit Applications
Ruiwu Cao;Ming Cheng;C. Mi;Wei Hua.
IEEE Transactions on Energy Conversion (2012)
Design and Analysis of a Linear Permanent- Magnet Vernier Machine With Improved Force Density
Wenxiang Zhao;Junqiang Zheng;Jiabin Wang;Guohai Liu.
IEEE Transactions on Industrial Electronics (2016)
Design and Analysis of a New Fault-Tolerant Permanent-Magnet Vernier Machine for Electric Vehicles
Guohai Liu;Junqin Yang;Wenxiang Zhao;Jinghua Ji.
IEEE Transactions on Magnetics (2012)
Analysis of Fault-Tolerant Performance of a Doubly Salient Permanent-Magnet Motor Drive Using Transient Cosimulation Method
Wenxiang Zhao;Ming Cheng;Xiaoyong Zhu;Wei Hua.
IEEE Transactions on Industrial Electronics (2008)
A Transient Cosimulation Approach to Performance Analysis of Hybrid Excited Doubly Salient Machine Considering Indirect Field-Circuit Coupling
Xiaoyong Zhu;Ming Cheng;Wenxiang Zhao;Chunhua Liu.
IEEE Transactions on Magnetics (2007)
Torque Ripple Suppression in Flux-Switching PM Motor by Harmonic Current Injection Based on Voltage Space-Vector Modulation
Hongyun Jia;Ming Cheng;Wei Hua;Wenxiang Zhao.
IEEE Transactions on Magnetics (2010)
Profile was last updated on December 6th, 2021.
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