Direct power control (DPC) is used in wind turbine systems (WTSs) to regulate the energy of
the doubly-fed induction generators (DFIG). Due to its features, including simplicity …

There is always, a strong expectation from wind generation system to harness maximum
power as well as to have good interaction with the grid. To satisfy the increasing need of …

The integration of wind energy systems into the electric grid has become inevitable despite
the many problems associated with this integration. Most of these problems are due to …

A terminal synergetic control (TSC) is designed in this work for a rotor side converter (RSC)
of asynchronous generator (ASG)-based dual-rotor wind power (DRWP) systems. The …

A synergetic sliding mode (SSM) approach is designed to address the drawbacks of the
direct field-oriented control (DFOC) of the induction generators (IGs) integrated into variable …

Direct power control (DPC) is among the most popular control schemes used in renewable
energy because of its many advantages such as simplicity, ease of execution, and speed of …

Modeling, control, and simulation of a wind energy conversion system equipped with a
doubly fed induction generator are presented in this study. A fractional-order proportional …

In recent years, the methods of controlling electrical machines have been witnessing
increasing development to reduce torque and electric current fluctuations in electrical power …

Traditional direct field-oriented control (DFOC) techniques with integral-proportional (PI)
controllers have undesirable effects on the power quality and performance of variable speed …

In this work, a third-order sliding mode controller-based direct flux and torque control (DFTC-
TOSMC) for an asynchronous generator (AG) based single-rotor wind turbine (SRWT) is …