Abstract
The power converters are becoming increasingly used in modern grid so as to optimize the energetic exchanges. However their effective control remains a vast subject of study. This paper focus on the hybrid control of a matrix converter integrated in a smart grid. A binary control law is designed in order to ensure the stabilization of input and output phases of the converter. Based on a bilinear modeling and a state transformation, a cascade control is proposed. A sliding mode controller computes a new reference signal for the converter in function of the input variables. An approach based on a convex optimization procedure is designed in order to ensure the stabilization of the converter. Simulation results highlight the effectiveness of the proposed method.
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