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Keywords

DAB converter;ST-SMC;buffeting;phase shift control;robust control;stability

Abstract

The traditional sliding mode control (SMC) used for the isolated dual active bridge (DAB) converter is robust and can improve the dynamic performance of nonlinear systems.To address the disadvantages of buffeting and decreasing tracking performance,a super-twisted sliding mode control (ST-SMC) method is proposed to enhance the output voltage regulation ability and robust control ability of the converter.The ST-SMC method is adopted,and the technical advantages of the sliding mode controller are combined to effectively eliminate the buffeting problem.During the design of the sliding mode controller,the average mathematical model of the DAB converter under single-phase shift control is fully considered,and the design process is effectively simplified.The stability and robustness of the direct current (DC) output voltage of the DAB converter are improved effectively,and accurate reference voltage tracking is realized.In addition,the method provides robust control over parametric uncertainties,and the steady-state output voltage of the DC converter contains fewer ripple components than traditional SMC and PI controllers.Finally,based on the TMS 320F28335 digital controller,a 1kW DAB converter prototype is installed to verify the effectiveness of this new control method.

DOI

10.19781/j.issn.1673-9140.2025.04.021

First Page

233

Last Page

246

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