With the exponential penetration of Photovoltaic (PV) plants into the power grid, protection
has gained exceptional importance in recent years for ensuring stability, reliability, security …

The world is interested in applying grid codes to increase the reliability of power systems
through a micro-grid (MG). In a common practice, the MG comprises a wind farm, and/or …

This article proposes an improved fault-ride-through (FRT) system for a wind turbine with a
doubly fed induction generator (DFIG) that is based on the proper stator voltage control to …

Despite the grid-integration of permanent magnet synchronous generator (PMSG) wind
energy conversion systems (WECS), utilities are facing challenges that are hindering wind …

The inverter-driven renewable energy sources (RESs), such as wind energy conversion
systems (WECS), pose major threats toward system stability due to lack of inertia. Hence …

The doubly fed induction generator (DFIG) has been required to operate continuously when
confronted with faults. For improving its fault ride through capability (FRT), a novel modified …

The novelty behind the research in this paper is to investigate the Super Twisting Sliding
Mode Controller (ST-SMC) for efficiently injecting both active and reactive power under …

This paper presents the design and analysis of a proportional resonant controller with a
resonant harmonic compensator and switch-type fault current limiter, as a fault-ride through …

High penetration of large capacity wind turbines into power grid has led to serious concern
about its influence on the dynamic behaviors of the power system. Unbalanced grid voltage …

In this study, a double fundamental signal extracter using third‐order signal integrator‐
based control technique is used for the improvement of power quality of single phase grid …