期刊
ENERGIES
卷 6, 期 4, 页码 2084-2109出版社
MDPI
DOI: 10.3390/en6042084
关键词
digital H-infinity controller; wind energy conversion system; fuzzy controller; PMSG; high wind turbulence
资金
- Marubun Research and Promotion Grant
A digital H-infinity controller for a permanent magnet synchronous generator (PMSG) based wind energy conversion system (WECS) is presented. Wind energy is an uncertain fluctuating resource which requires a tight control management. So, it is still an exigent task for the control design engineers. The conventional proportional-integral (PI) control is not ideal during high turbulence wind velocities, and the nonlinear behavior of the power converters. These are raising interest towards the robust control concepts. The robust design is to find a controller, for a given system, such that the closed-loop system becomes robust that assurance high-integrity and fault tolerant control system, robust H-infinity control theory has befallen a standard design method of choice over the past two decades in industrial control applications. The robust H-infinity control theory is also gaining eminence in the WECS. Due to the implementation complexity for the continuous H-infinity controller, and availability of the high speedy micro-controllers, the design of a sample-data or a digital H-infinity controller is very important for the realistic implementation. But there isn't a single research to evaluate the performance of the digital H-infinity controller for the WECS. In this paper, the proposed digital H-infinity controller schemes comprise for the both generator and grid interactive power converters, and the control performances are compared with the conventional PI controller and the fuzzy controller. Simulation results confirm the efficacy of the proposed method which are ensured the WECS stabilities, mitigate shaft stress, and improving the DC-link voltage and output power qualities.
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