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Discrete-Time Sliding Mode Current Control for a Seven-Level Cascade H-Bridge Converter

This paper deals with the implementation and performance analysis of discrete-time sliding mode (DTSM) current control applied to a seven-level cascade H-bridge converter to track three-phase reference currents for a reactive load. The converter output voltages are synthesized using a modulation sch...

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Published in:	Energies (Basel) 2023-03, Vol.16 (5), p.2481
Main Authors:	Comparatore, Leonardo, Ayala, Magno, Kali, Yassine, Rodas, Jorge, Pacher, Julio, Renault, Alfredo, Gregor, Raúl
Format:	Article
Language:	English
Subjects:	cascade H-bridge Control current control Design and construction Electric converters Electric current converters Harmonic distortion Mathematical models Methods multilevel converter nonlinear control Reactive power Sliding mode control
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creator	Comparatore, Leonardo Ayala, Magno Kali, Yassine Rodas, Jorge Pacher, Julio Renault, Alfredo Gregor, Raúl
description	This paper deals with the implementation and performance analysis of discrete-time sliding mode (DTSM) current control applied to a seven-level cascade H-bridge converter to track three-phase reference currents for a reactive load. The converter output voltages are synthesized using a modulation scheme based on phase-shifted carrier modulation. Simulation and experimental tests have been added to demonstrate the performance of the proposed controller. At the same time, the effectiveness of the DTSM is verified under transient and steady-state conditions, respectively, by measuring the total harmonic distortion and the mean square error.
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subjects	cascade H-bridge Control current control Design and construction Electric converters Electric current converters Harmonic distortion Mathematical models Methods multilevel converter nonlinear control Reactive power Sliding mode control
title	Discrete-Time Sliding Mode Current Control for a Seven-Level Cascade H-Bridge Converter
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