The production of renewable energy is nowadays more and more essential. It has become an essential axis of research and development, because of the growing need in electrical power. Therefore the doubly-fed induction machine (DFIG) is more and more used in wind power generation.;The main objective of this project is to study the possibility of designing a new controller, fully integrated to the rotor side, without any link to the stator side. This controller will have to provide a decoupled control of active and reactive stator powers. First a study of the impact of the variations of the rotor voltage source on the power flows between the rotor and the stator will be achieved. This study will give a first idea of the total rated power needed by the controller, and hence an idea of the rated power of the matrix converter which can be used to achieve the conception of the controller. Simulations will be done using the software Matlab/Simulink. Then this project determines if a constant reactive stator power operation is feasible. If it is feasible, the control laws will be established as accurately as possible, and to implemented in a matrix converter. This will end the conception of a totally rotor integrated controller.;The control laws and the entire design will be validated in a realistic power system environment using EMTP-RV.;This report ends with recommendations for future research.
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