Optimal Design of High-Frequency Magnetic Links for Power Converters Used in Grid-Connected Renewable Energy Systems
Magnetics, IEEE Transactions (2014)
摘要
Recently high-frequency common magnetic links with cores of advanced magnetic materials, such as nanocrystalline and amorphous materials, have been considered as viable candidates for the development of medium-voltage power converters. This offers a new route of step-up-transformer-less compact and lightweight direct grid integration of renewable generation systems. Most importantly, it minimizes the voltage imbalance and common mode issues of the converter systems. However, the electromagnetic design of high-frequency common magnetic links is a multiphysics problem and thereby affects the system efficiency and cost. In this paper, an optimization technique is proposed and verified by prototype magnetic links. The design optimization, implementation, test platform, and experimental test results are analyzed and discussed.
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关键词
amorphous magnetic materials,magnetic cores,minimisation,nanostructured materials,power grids,renewable energy sources,amorphous materials,common mode issues minimization,electromagnetic design,grid-connected renewable energy systems,high-frequency common magnetic links,lightweight direct grid integration,magnetic materials,medium-voltage power converters,multiphysics problem,nanocrystalline materials,optimal design,optimization technique,step-up-transformer-less compact,system cost,system efficiency,voltage imbalance minimization,design optimization,high-frequency magnetic links,nanocrystalline and amorphous materials,smart grids
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