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A novel approach for adaptive partial sliding mode controller design and tuning in non-minimum phase switch-mode power supplies

A novel approach for adaptive partial sliding mode controller design and tuning in non-minimum phase switch-mode power supplies

Salimi, Mahdi ORCID logoORCID: https://orcid.org/0000-0003-3007-3027 (2023) A novel approach for adaptive partial sliding mode controller design and tuning in non-minimum phase switch-mode power supplies. Electronics, 12 (6):1438. pp. 1-18. ISSN 2079-9292 (Online) (doi:10.3390/electronics12061438)

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Abstract

In this article, a novel systematic approach is proposed for a partial sliding mode controller (SMC) design and tuning in non-minimum phase switch-mode power supplies (SMPS). To achieve a more simplified controller in comparison with the conventional SMCs, the partial SMC (PSMC) is introduced in this article, which just requires a part of the sliding surface for controller formulation. The accuracy of the developed PSMC is proved mathematically within the entire range of operation. Since the control parameters of the PSMC are not selected by trial and error, it can maintain the stability and robustness of the closed-loop system in a broad operational range. In this regard, and to develop a systematic approach for robust control of SMPS, a constant frequency equivalent SMC is designed using the converter nominal parameters. Then, the extracted controller is combined with an adaptive component to ensure asymptotical stability against load and line changes. Considering the Lyapunov stability criteria for nonlinear systems, it is proved that the presented SPMC can be used for output voltage regulation in both discontinuous and continuous operating modes with zero steady state error. To avoid the trial and error method during the controller tuning and parameters selection, the system characteristic equation is extracted using the Jacobian approach. Considering the roots of the characteristic equation and the stable range of the closed-loop system, the controller parameters are tuned. Furthermore, in addition to simulation, the developed approach is evaluated practically using the TMS3220F2810 digital signal processor. It is shown that the dynamic response of the proposed approach is faster than the standard double-loop SMC during load and line changes. Additionally, it is seen that the developed controller is robust against model changes in both continuous and discontinuous operations.

Item Type: Article
Uncontrolled Keywords: PSMC; controller tuning; robustness; equivalent control; disturbances; asymptotic stability
Subjects: Q Science > Q Science (General)
T Technology > TK Electrical engineering. Electronics Nuclear engineering
Faculty / School / Research Centre / Research Group: Faculty of Engineering & Science
Faculty of Engineering & Science > School of Engineering (ENG)
Last Modified: 25 Sep 2023 14:15
URI: http://gala.gre.ac.uk/id/eprint/43092

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