In this paper, three topologies of quadratic buck DC-DC converters were proposed that are
capable of reconfiguring to semi-quadratic buck-boost converters, in case of an open-circuit …

Modern DC-DC power conversion represents an important challenge because connected
loads are not purely resistive as it has been conventionally considered. Furthermore, the …

Constant power loads (CPLs) pose a challenge for the control system of power electronic
converters due to their negative damping characteristic. In this article, a fast and robust …

This document introduces a rapid control prototyping (RCP) approach applied to the
industrial sector using a non-linear Quadratic Buck Converter (QBC) DC-DC. The goal is to …

This manuscript offers an in‐depth exploration of electrolysis, focusing on the various types
of electrolyzers and providing a detailed analysis of their respective advantages and …

A CLLC resonant converter's gain is easily influenced by the operating frequency, and when
the operating frequency is adjusted over a wide range, the efficiency of the converter is …

Over the past few years, the use of DC-DC buck-boost converters for Photovoltaic (PV) in
renewable energy applications has increased for better results. One of the main issues with …

To improve the performance of photovoltaic-electrolyzer (PV-EL) systems, it is key to operate
them at the right operating conditions, not only at design point but also at off-design. In …

In this paper, the quadratic buck converter (QBC) is proposed as competitive alternative to
implement a battery charger. Since QBC is a high order system, the required control is …

Abstract A power DC‐DC Buck‐Boost converter is controlled using a Lyapunov‐based
Adaptive Backstepping Control (ABSC) technique. It exhibits unfavorable behavior due to its …