ABSTRACT
In order to fulfill the demand for electricity without using any fossil fuels, the number of grid-connected renewable energy source-based electric power production systems is growing daily. Due to its ability to maintain a consistent output voltage's amplitude and frequency regardless of the wind speed flowing on the windmill rotor, DFIGare usually employed in wind turbines. Furthermore, the DFIG offers a great opportunity to use power electronics converters with adequate control systems to enhance the dynamic behavior of the network. Power converters may be controlled using a wide range of structures and control methods. Nevertheless, with abrupt variations in the speed of the wind, traditional controllers are unable to operate at maximum efficiency. In order to accomplish multiple tasks upon connected to the grid the DFIG systems, an innovative control approach that uses Takagi-Sugeno-Kang (TSK) fuzzy controls is suggested in this study. Testing is done on the suggested control system with different reactive power loads, voltages, frequencies, and wind speeds. OPAL-RT modules are used during the Hardware in the Loop (HIL) implementation to display comprehensive findings and get realistic reactions.
