Telles Brunelli Lazzarin

TL;DR: A novel transformerless high gain step-up dc–dc converter based on an active switched-inductor and a passive switched-capacitor networks that has the main advantages of the high voltage gain (>10), the reduced voltage stresses across the switches and the reduced number of components when compared to topologies that provide the same voltage gain using similar principles.

TL;DR: The proposed control strategy ensures the proper sharing of the load current and avoids current circulation among the inverters during transient and steady-state operation and its design and implementation are very simple.

TL;DR: In this article, the authors proposed a new ac-ac static power converter based on the switched-capacitor (SC) principle, intended to replace the conventional autotransformer in commercial and residential applications.

TL;DR: The principle of operation, theoretical analysis, design methodology, and a comparison of the proposed topology regarding other converters from the literature that use similar principles are approached.

TL;DR: A bidirectional three-phase direct ac-ac converter, with only capacitors and switches in its power circuit and with its operation based on the switched-capacitor principle, suitable to replace the conventional three- phase autotransformer in industrial, commercial, and residential applications.