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Optimal power extraction control schemes for five-phase PMSG based wind generation systems

OPTIMAL POWER EXTRACTION CONTROL SCHEMES FOR FIVE-PHASE PMSG BASED WIND GENERATION SYSTEMS

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  • TEMAPS151
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OPTIMAL POWER EXTRACTION CONTROL SCHEMES FOR FIVE-PHASE PMSG BASED WIND GENERATION SYSTEMS

This paper exhibits a variable speed - wind energy conversion system (VS-WECS) large-scale Grid-connected five-phase permanent magnet synchronous generator (PMSG). This work studies control methods for five-phase PMSG, where back to back converters (BTBC) are utilized on the machine also, and the network side converters. Two control loops are utilized to control the machine side converter (MSC) so as to achieve the ideal power at any wind speed. The external control circle is applied to change the rotor speed while the internal control circle is utilized to direct the generator current. On the other hand, the matrix side converter (GSC) utilizes two control circles; the external circle controls the DC-interface voltage while the internal one directs the matrix current. In addition, the most extreme power point following (MPPT) also, pitch edge control plans are used to get the ideal power during various ecological conditions. The proposed necessary sliding mode controller (ISMC) is utilized to direct the rotor speed of the five-phase PMSG to follow the reference speed at various wind speed. The proposed ISMC considers the constraints of the conventional PI controller and the dynamic system disturbances, particularly in the large wind turbine inactivity. Moreover, the proposed ISMC dependability is analyzed utilizing Lyapunov's strength work. The presentation of the proposed ISMC is contrasted with a customary PI controller, the study demonstrates the unrivaled exhibition of the ISMC. The general WECS productivity is improved utilizing the proposed ISMC to 92.45% contrasted with the PI controller which is 88.12%. The viability of the proposed control plan is brought out complete simulation results utilizing MATLAB/SIMULINK

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