Switched capacitor-based quadruple boost multilevel inverter topology with reduced switch count and its extension

Abstract

ABSTRACT Power converters enhance the DC-AC power supply by using multi-level inverters based on switched capacitor technology. The voltage stress on the switches in switched capacitor-based multi-level inverters decreases as the number of switches rises, and vice versa when the number of switches falls. This paper suggests a quadruple boost nine-level inverter based on a switched capacitor with a single voltage source to address this issue. Only nine switches are used in the suggested architecture to implement the inverter with two diodes and two capacitors. Since the diodes and capacitors are linked to the low voltage input side, the total voltage stress of the inverter is kept low even at the elevated for quadruple boost output voltage. The theoretical study, computations, and design parameters of the nine-level inverter are presented in this paper. The switching specifics of the seven-level boost extension topology are also reported in this work. Simulations and laboratory tests on a 120 W inverter prototype have confirmed the viability of the suggested topology.