His research interests include power electronics, renewable energy, and smart microgrids. He is also the stream leader of Centre for New Energy Transition Research (CfNETR) at Federation University Australia. Currently he is an Associate Professor and Program Coordinator of Electrical Engineering and Renewable Energy at Federation University Australia. He was an Assistant Professor at The Hong Kong Polytechnic University, Hong Kong. He participated in the research of minigrids in Commonwealth Scientific and Industrial Research Organization, Newcastle, Australia. degree in electrical engineering from University of Technology Sydney, Australia. Jiefeng Hu (Senior Member, IEEE) received the Ph.D. In addition, the hierarchical control structure, as well as future trends, are reviewed and discussed.Įlectrical engineers, electronics engineers, research students including PhD candidates, academic scholars, CEO and staff in companies in renewable energy and smart grids The most important control schemes to address existing challenges, including concentrated control, master-slave control, droop mechanism, virtual synchronous generators (VSG), virtual oscillator control (VOC), distributed cooperative control, and model predictive control (MPC), are highlighted and analyzed in detail. This talk provides an overview of the state-of-the-art of parallel power converter control in microgrid applications. So far, various power converter control methods have been developed. Power Converter Control in Microgrids: Challenges, Advances, and TrendsĪs the electronic interfaces between distributed energy resources (DERs) and the electrical network, power converters play a vital role in voltage stabilization and power conversion.
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