• Aucun résultat trouvé

Design of a Voltage Controller for a DC-DC BuckConverter Using Fractional-Order TerminalSliding Mode Control Strategy

N/A
N/A
Info
Télécharger
Protected

Academic year: 2021

Partager "Design of a Voltage Controller for a DC-DC BuckConverter Using Fractional-Order TerminalSliding Mode Control Strategy"

Copied!
1
0
0

Chargement.... (Voir le texte intégral maintenant)

Texte intégral

(1)

International Conference on Advanced Electrical Engineering 2019 (ICAEE 2019) 2019

Design of a Voltage Controller for a DC-DC Buck Converter Using Fractional-Order Terminal

Sliding Mode Control Strategy

B. Babes, A. Boutaghane, N.Hamouda, M. MEZAACHE

Abstract : This paper suggests a fractional-order terminal sliding mode control (FO-TSMC) method for the output voltage regulation of a DC-DC buck converter influenced by disturbances, such as the variations of load resistance and input voltage. A this kind of a new fractional-order (FO) dynamic sliding surface is designed to avoid the drawback on integer-order (IO) terminal sliding mode control (IO-TSMC) method and guarantee the converter reach steady-state quickly without chattering even if it undergoes arbitrary random disturbances. The proposed FO-TSMC controller’s performance is compared against to both IO-TSMC and traditional SMC control approaches. Computer simulation results display that the novel FO-TSMC approach results in evenhanded output voltage regulation performance under widely input voltage variations and load changes.

Keywords : Sliding Mode Control (SMC), terminal sliding mode control (TSMC), fractional-order (FO), DC-DC buck converter

Centre de Recherche en Technologies Industrielles - CRTI - www.crti.dz

Powered by TCPDF (www.tcpdf.org)

Références

Télécharger maintenant ( PDF - 1 Page - 7.81 KB )

Documents relatifs

Quelques applications des techniques robotiques d'identification à des problèmes du Génie Civil

Grâce à ce partenariat, j’ai coencadré une thèse CIFRE sur l’établissement d’un modèle de consommation pour les trains à grande vitesse tenant compte des paramètres

Unprecedented and highly stable lithium storage capacity of (001) faceted nanosheet-constructed hierarchically porous TiO2/rGO hybrid architecture for high-performance Li-ion batteries

Unprecedented and highly stable lithium storage capacity of (001) faceted nanosheet- constructed hierarchically porous TiO2/rGO hybrid architecture for high-performance

Design of a bidirectional on-board charger and a DC-DC converter for low voltage battery in Electric Vehicles

Grâce au couplage, la somme des ampères x tours moyens est théoriquement nulle (pas tout à fait en pratique car le rendement de conversion ne peut pas être égal..

Bilinear and nonlinear control algorithms for a DC/DC converter for Multi-Terminal HVDC networks

Abstract: This paper presents the modeling and control of a multilevel DC/DC bidirectional converter suitable for medium voltage and medium power applications, with a special

A Detailed Study on a DC-Voltage-Based Control Scheme Using a Multi-Terminal HVDC System for Frequency Control

Ernst, “Impact of delays on a consensus-based primary frequency control scheme for AC systems connected by a multi-terminal HVDC grid,” in Proceedings of the 2010 IREP Symposium -

Feedback linearization for the DC voltage control of a VSC-HVDC terminal

In the next section, we develop a new control law based on a simplified model and feedback linearization technique such that the stability of the converter in rectification mode can

Robust Intelligent Controller for Voltage Stabilization of dc-dc Boost Converters

In this paper, motivated by the learning capabilities of Brain Emotional Learning method, a robust intelligent controller for voltage stabilization of dc-dc boost

A DC/DC Buck Converter Voltage RegulationUsingAn Adaptive Fuzzy Fast TerminalSynergetic Control

Abstract : In this paper, an adaptive fuzzy fast terminalsynergetic voltage regulation for DC/DC buck converter isdesigned based on recently developed synergetic theory and