Abstract
This article proposes a new maximum power point tracking (MPPT) controller based on voltage-mode Second-Order Fast Terminal Sliding Mode Control (SO-FTSMC) to obtain better performance in the power extraction from Permanent Magnet Synchronous Generator (PMSG)-based Wind Energy Conversion System (WECS). The major objective of the study is the design of SO-FTSMC that can ensure the operation of the system in maximum power reference with higher efficiency, less steady-state error, and voltage fluctuation. Maximum power references are determined by mechanical sensorless MPPT approach. The small-scale WECS configuration incorporates wind turbine, PMSG, uncontrolled rectifier, boost converter, and MPPT controller. SO-FTSMC method has not been performed before as a voltage regulator in such a topology. The proposed controller has been validated for two different wind speed test scenarios in simulation environment, which can be applied effectively to PMSG-based WECS. Moreover, Conventional SMC (C-SMC) is created and then performance of controllers is compared in these wind speed scenarios according to maximum extracted average power, output voltage fluctuation, and voltage error in steady-state, MPPT efficiency, and performance indices. Obtained results indicate that proposed SO-FTSMC-based MPPT controller achieves superior performance.
Highlights
The continuous increase of the world population and technological developments constantly boosts the energy demand of countries
Small-scale Permanent Magnet Synchronous Generator (PMSG)-based Wind Energy Conversion System (WECS) configuration consists of wind turbine, PMSG, uncontrolled rectifier, boost converter (BC), and controller
Voltage-mode second-order fast terminal sliding mode control (SO-FTSMC) based maximum power point tracking (MPPT) controller is proposed for efficiency improvement of PMSG-based WECS
Summary
The continuous increase of the world population and technological developments constantly boosts the energy demand of countries. An effective Maximum Power Point Tracking (MPPT) control scheme is required to contribute to the overall efficiency of WECS [8]. MPPT operation for WECS can be implemented via different approaches similar to Photovoltaic (PV) and is examined by the researchers in two main parts These are MPPT search methods and controller designs that will bring the generator to the optimum operating point by switching the power converter. Both parts are very important because they affect efficiency and performance and the subject of the controller design is the main theme of this study.
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