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Super-Twisting Sliding Mode Control for Gearless PMSG-Based Wind Turbine

Mojtaba Nasiri, Saleh Mobayen & Quan Min Zhu

Complexity 2019 (1):1-15 (2015)

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Robust Switching Gain-Based Fractional-Order Sliding Mode Control for Wind-Powered Microgrids.Minghao Zhou, Siwei Cheng, Long Xu, Likun Wang, Qingbo Guo & William Cai - 2021 - Complexity 2021:1-12.details This study proposes a novel fractional-order sliding-mode control strategy with robust switching gain to achieve reliable and high quality of wind-powered microgrid systems. Three fractional-order sliding mode controllers are designed to generate continuous control signals and regulate the outer DC-link voltage loop and inner current loop in the grid-side inverters. High robustness and stability of the grid-side inverter can be guaranteed even in the presence of parameter variations and external disturbances. Owing to the fractional-order sliding manifold and fractional-order integral control (...) Download Export citation Bookmark
Design of LMI-based global sliding mode controller for uncertain nonlinear systems with application to Genesio's chaotic system.Saleh Mobayen - 2016 - Complexity 21 (1):94-98.details The fault ride-through capability and fault current issues are the main challenges in doubly fed induction generator- based wind turbines. Application of the bridge-type fault current limiter was recognized as a promising solution to cope with these challenges. This paper proposes a nonlinear sliding mode controller for the BFCL to enhance the FRT performance of the DFIG-based WT. This controller has robust performance in unpredicted voltage sag level and nonlinear features. Theoretical discussions, power circuit, and nonlinear control consideration of the (...) Download Export citation Bookmark 10 citations
A Comparative Study of Nonsingular Terminal Sliding Mode and Backstepping Schemes for the Coupled Two-Tank System.Safa Choueikh, Marwen Kermani & Faouzi M’Sahli - 2021 - Complexity 2021:1-18.details This paper presents an implementation of two radically different control schemes for a state-coupled two-tank liquid-level system. This is due to the purpose of transferring theoretical studies to industrial systems. The proposed schemes to be introduced and compared are the nonsingular terminal sliding mode control and the backstepping control. The performances of the developed methods are experimentally tested on a particular class of second-order nonlinear systems. The main purpose of the considered control schemes is to achieve a tracking trajectory for (...) Download Export citation Bookmark

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