A new three-phase multilevel DC-link inverter topology with reduced switch count for photovoltaic applications
ISSN: 0305-6120
Article publication date: 8 July 2020
Issue publication date: 8 June 2021
Abstract
Purpose
This paper aims to propose a new MLI topology with reduced number of switches for photovoltaic applications. Multilevel inverters (MLIs) have been found to be prospective for renewable energy applications like photovoltaic cell, as they produce output voltage from numerous separate DC sources or capacitor banks with reduced total harmonic distortion (THD) because of a staircase like waveform. However, they endure from serious setbacks including larger number of capacitors, isolated DC sources, associated gate drivers and increased control difficulty for higher number of voltage levels.
Design/methodology/approach
This paper proposes a new three-phase multilevel DC-link inverter topology overpowering the previously mentioned problems. The proposed topology is designed for five and seven levels in Matlab/Simulink with gating pulse using multicarrier pulse width modulation. The hardware results are shown for a five-level MLI to witness the viability of the proposed MLI for medium voltage applications.
Findings
The comparison of the proposed topology with other conventional and other topologies in terms of switch count, DC sources and power loss has been made in this paper. The reduction of switches in proposed topology results in reduced power loss. The simulation and hardware show that the output voltage yields a very close sinusoidal voltage and lesser THD.
Originality/value
The proposed topology can be extended for any level of output voltage which is helpful for sustainable source application.
Keywords
Citation
P., A., V., K., S., R. and S., V. (2021), "A new three-phase multilevel DC-link inverter topology with reduced switch count for photovoltaic applications", Circuit World, Vol. 47 No. 2, pp. 173-183. https://doi.org/10.1108/CW-12-2019-0200
Publisher
:Emerald Publishing Limited
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