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International Journal of Advanced Computer Science and Applications(IJACSA), Volume 7 Issue 7, 2016.
Abstract: The present work examines a direct torque control strategy using a high order sliding mode controllers of a doubly-fed induction generator (DFIG) incorporated in a wind energy conversion system and working in saturated state. This research is carried out to reach two main objectives. Firstly, in order to introduce some accuracy for the calculation of DFIG performances, an accurate model considering magnetic saturation effect is developed. The second objective is to achieve a robust control of DFIG based wind turbine. For this purpose, a Direct Torque Control (DTC) combined with a High Order Sliding Mode Control (HOSMC) is applied to the DFIG rotor side converter. Conventionally, the direct torque control having hysteresis comparators possesses major flux and torque ripples at steady-state and moreover the switching frequency varies on a large range. The new DTC method gives a perfect decoupling between the flux and the torque. It also reduces ripples in these grandeurs. Finally, simulated results show, accurate dynamic performances, faster transient responses and more robust control are achieved.
Elhadj BOUNADJA, Abdelkader DJAHBAR, Mohand Oulhadj MAHMOUDI and Mohamed MATALLAH, “Direct Torque Control of Saturated Doubly-Fed Induction Generator using High Order Sliding Mode Controllers” International Journal of Advanced Computer Science and Applications(IJACSA), 7(7), 2016. http://dx.doi.org/10.14569/IJACSA.2016.070708
@article{BOUNADJA2016,
title = {Direct Torque Control of Saturated Doubly-Fed Induction Generator using High Order Sliding Mode Controllers},
journal = {International Journal of Advanced Computer Science and Applications},
doi = {10.14569/IJACSA.2016.070708},
url = {http://dx.doi.org/10.14569/IJACSA.2016.070708},
year = {2016},
publisher = {The Science and Information Organization},
volume = {7},
number = {7},
author = {Elhadj BOUNADJA and Abdelkader DJAHBAR and Mohand Oulhadj MAHMOUDI and Mohamed MATALLAH}
}
Copyright Statement: This is an open access article licensed under a Creative Commons Attribution 4.0 International License, which permits unrestricted use, distribution, and reproduction in any medium, even commercially as long as the original work is properly cited.