Saidi, YMezouar, YMiloud, ABenmahdjoub, M. AYahiaoui, M M2023-05-142023-05-142019-05-20Saidi, Y. Mezouar, Y. Miloud, A. Benmahdjoub, M. A. Yahiaoui, M. Fuzzy Logic Based Robust DVC Design of PWM Rectifier Connected to a PMSG WECS under wind/load Disturbance Conditions. International Journal of Energetica. Vo4. No 01.20/05/2019.faculty of technology. university of el oued. [visited in ../../….]. available from [copy the link here]2543-3717https://dspace.univ-eloued.dz/handle/123456789/22707ArticlePermanent Magnet Generator has been widely used in Variable-Speed Wind Energy Conversion System (VSWECS). Fuzzy Logic Control (FLC) of the generator side converter has the ability to have a good regulation of the DC-link voltage to meet the requirements necessary to achieve optimal system operation, regardless of the disturbances caused by the characteristics of the drive train or some changes into the DC-load. The main focus of this paper is to present a model for a three phase voltage source space vector pulse width modulation (SVPWM) rectifier which is connected to a PMSG in a wind turbine system, where a direct voltage control (DVC) using FLC based on voltage orientation strategy is used to control the mentioned rectifier. The control algorithm employs fuzzy logic controller to effectively achieve a smooth control of DC-link voltage under wind/load perturbation conditions. Some simulation results, using Matlab/Simulink, are presented to show the effectiveness of the SVPWM rectifier Connected to a PMSG WECS with the proposed control strategy.enDirect Voltage Control (DVC); Permanent Magnet Synchronous Generator (PMSG); Wind Energy Conversion System (WECS); Fuzzy Logic Controller (FLC)Fuzzy Logic Based Robust DVC Design of PWM Rectifier Connected to a PMSG WECS under wind/load Disturbance ConditionsArticle