Robust hybrid control law for a boost inverter

A robust hybrid control for a boost inverter is proposed in this paper. This control presents the particularity of considering the real nature of the dynamics, which means, the continuous-time dynamics, voltages and currents, and the discrete-time dynamics, the switching of the transistors. Likewise...

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Veröffentlicht in:	Control engineering practice 2020-08, Vol.101, p.104492, Article 104492
Hauptverfasser:	Albea-Sanchez, Carolina, Garcia, Germain
Format:	Artikel
Sprache:	eng
Schlagworte:	Automatic Control Engineering Boot inverter Computer Science Dwell time guarantees Hybrid control application Robust control
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description	A robust hybrid control for a boost inverter is proposed in this paper. This control presents the particularity of considering the real nature of the dynamics, which means, the continuous-time dynamics, voltages and currents, and the discrete-time dynamics, the switching of the transistors. Likewise, due to implementation issues a minimum dwell time is introduced in the control loop scheme. Uniform global asymptotic stability is guaranteed, ensuring that the tracking error of the system output enters into a small neighborhood of zero. Moreover, robustness guarantee with respect to parameter variations, in terms of an error tracking output regulation, are also provided here. The effectiveness of the proposed hybrid control scheme is illustrated in simulation.
doi_str_mv	10.1016/j.conengprac.2020.104492
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subjects	Automatic Control Engineering Boot inverter Computer Science Dwell time guarantees Hybrid control application Robust control
title	Robust hybrid control law for a boost inverter
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