1. Minimum-Current-Stress Boundary Control Using Multiple-Phase-Shift-Based Switching Surfaces.
- Author
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Shi, Haochen, Wen, Huiqing, Cao, Zhenyan, Hu, Yihua, and Jiang, Lin
- Subjects
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VOLTAGE references , *MATHEMATICAL models , *BRIDGE circuits , *ALGORITHMS - Abstract
The derivation and implementation of multiple-phase-shift-based switching surfaces for a dual active bridge (DAB) converter is the main focus of this article. First, the mathematical models of multiple natural switching surfaces under different operation states of DAB converters are derived, which lays the foundation to achieve a fast transient response during startup, sudden voltage reference, and load changing conditions. Moreover, in order to improve the overall performance of DAB converters systematically, a minimum-current-stress boundary control (MBC) is proposed that can reduce the inductor peak current stress and achieve fast dynamic response simultaneously by using the multiple-phase-shift-based switching surfaces. The analytical derivation of the proposed MBC is presented together with the simulation and experimental evaluations, which shows the superior performance of the proposed MBC algorithm in terms of the efficiency and dynamic response improvement under various operating conditions. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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