The paper aims to develop an improved control system to enhance the dynamics of a permanent magnet synchronous generator (PMSG) operating at varying speeds. The generator dynamics are evaluated based on lowing current, power, and torque ripples to validate the effectiveness of the proposed control system. The adopted controllers include the model predictive power control (MPPC), model predictive torque control (MPTC), and the designed predictive voltage control (PVC). MPPC seeks to regulate the active and reactive power, while MPTC regulates the torque and flux. MPPC and MPTC have several drawbacks, like high ripple, high load commutation, and using a weighting factor in their cost functions. The methodology of designed predictive voltage c...
This paper introduces a new formulated control scheme for enhancing the dynamic performance of a win...
This paper proposes an optimized model of a variable speed wind turbine equipped with permanent magn...
This document is the Accepted Manuscript version of the following article: Kaddour Fouad, Houari Mer...
The aim of this paper is the complete modeling and simulation of an optimal control system using pra...
This paper presents modelling, simulation and analysis of novel control strategies for variable spee...
This chapter deals with a comprehensive overview study of the direct‐driven (DD) permanent magnet sy...
Various power transfer technology is requested ac/electricity transformation to acquire a constant f...
This paper proposes adaptive Maximum Power Point Tracking (MPPT) controller for Permanent Magnet Syn...
This article presents a method for harmonic mitigation and maximum power point tracking for a variab...
In this research, a predictive speed control (PSC) technique based on permanent magnet synchronous g...
This paper introduces a standalone variable speed wind energy conversion system(WECS) based on perma...
AbstractThis paper develops the model and the control of a Wind Farm System (WFS) based on Permanent...
Wind energy conversion systems (WECSs) are considered green generators, environmentally friendly, an...
The strategy developed also addresses a system start-up problem that prevents the generator from acc...
In this paper, a standalone permanent magnet synchronous generator (PMSG) system is designed to gene...
This paper introduces a new formulated control scheme for enhancing the dynamic performance of a win...
This paper proposes an optimized model of a variable speed wind turbine equipped with permanent magn...
This document is the Accepted Manuscript version of the following article: Kaddour Fouad, Houari Mer...
The aim of this paper is the complete modeling and simulation of an optimal control system using pra...
This paper presents modelling, simulation and analysis of novel control strategies for variable spee...
This chapter deals with a comprehensive overview study of the direct‐driven (DD) permanent magnet sy...
Various power transfer technology is requested ac/electricity transformation to acquire a constant f...
This paper proposes adaptive Maximum Power Point Tracking (MPPT) controller for Permanent Magnet Syn...
This article presents a method for harmonic mitigation and maximum power point tracking for a variab...
In this research, a predictive speed control (PSC) technique based on permanent magnet synchronous g...
This paper introduces a standalone variable speed wind energy conversion system(WECS) based on perma...
AbstractThis paper develops the model and the control of a Wind Farm System (WFS) based on Permanent...
Wind energy conversion systems (WECSs) are considered green generators, environmentally friendly, an...
The strategy developed also addresses a system start-up problem that prevents the generator from acc...
In this paper, a standalone permanent magnet synchronous generator (PMSG) system is designed to gene...
This paper introduces a new formulated control scheme for enhancing the dynamic performance of a win...
This paper proposes an optimized model of a variable speed wind turbine equipped with permanent magn...
This document is the Accepted Manuscript version of the following article: Kaddour Fouad, Houari Mer...