December 22, 2024
Valiollah Ghaffari

Valiollah Ghaffari

Academic Rank: Associate professor
Address: Persian Gulf University
Degree: Ph.D in Electrical Engineering
Phone: 07733442269
Faculty: Faculty of Intelligent Systems and Data Science

Research

Title Composite nonlinear feedback control of a DC-DC boost converter under input voltage and load variation
Type Article
Keywords
Composite Nonlinear Feedback Boost Converter Model Predictive Control Input Voltage Variation
Journal INTERNATIONAL JOURNAL OF ELECTRICAL POWER & ENERGY SYSTEMS
DOI https://doi.org/10.1016/j.ijepes.2023.109562
Researchers hamid mirshekali (Second researcher) , Nenad Mijatovic (Third researcher) , Valiollah Ghaffari (Fourth researcher) , Rahman Dashti (Fifth researcher) , hamid reza shaker (Not in first six researchers) , Mohammad Mehdi Mardani (Not in first six researchers) , Tomislav Dragičević (Not in first six researchers)

Abstract

Voltage boost converters are one of the most important components of DC microgrids, since they are used to enhance the voltage of naturally intermittent energy sources such as solar panels in order to feed unknown demands. In this work, a novel tuning algorithm for Composite Nonlinear Feedback (CNF) is studied in depth to improve transient performance and address output voltage regulation for a DC-DC boost converter in the presence of DC input uncertainty. The proposed CNF controller comprises both linear and nonlinear feedback terms. The linear part contributes to the stability and output tracking with a small damping ratio and a quick response. The nonlinear part, i.e., damping term, reduces the overshoot stemming from the linear feedback law and increases the damping ratio of the overall closed-loop system. The nonlinear part is automatically tuned whereby the transient performance of the DC-DC boost converter improves significantly. To assess the performance of the proposed technique, a boost converter is simulated in MATLAB Simulink considering different scenarios such as changing load, DC input, and voltage reference. The numerical results demonstrate that the tuned CNF controller outperforms the linear controller in the DC boost converter. Additionally, several experiments are conducted to validate the efficacy of the suggested technique.