A single‐source switched‐capacitor based 13‐level sextuple boost inverter with reduced component count and low THD-Reference-Cited by-同舟云学术

A single‐source switched‐capacitor based 13‐level sextuple boost inverter with reduced component count and low THD

Published:2023-04-21 Issue:11 Volume:17 Page:2587-2599
ISSN:1751-8687
Container-title:IET Generation, Transmission & Distribution
language:en
Short-container-title:IET Generation Trans & Dist

Author:

Hussan Md Reyaz¹^ORCID,Sarwar Adil¹^ORCID,Tayyab Mohammad¹²^ORCID,Tariq Mohd¹³^ORCID,Bakhsh Farhad Ilahi⁴^ORCID,Ahmad Akbar⁵^ORCID

Affiliation:

1. Department of Electrical Engineering Z. H. College of Engineering and Technology Aligarh Muslim University Aligarh Uttar Pradesh India

2. Department of Electrical Engineering Integral University Lucknow Uttar Pradesh India

3. Department of Electrical and Computer Engineering Florida International University Miami Florida USA

4. Department of Electrical Engineering NIT Srinagar Srinagar Jammu and Kashmir India

5. Faculty of Science and Information Technology Mianz International College Male Maldives

Abstract

AbstractA switched‐capacitor‐based 13‐level inverter with a lesser number of components is presented in this article. The 13‐level single‐phase AC output voltage is achieved with a voltage gain of 6 by including a single DC source, 11 switches, 4 capacitors, and 3 diodes in the proposed converter. The self‐voltage balancing is achieved for various types of load without the need for complex control schemes and auxiliary circuits. The proposed topology does not require a back‐end H‐bridge to generate negative polarity. This leads to a reduction in voltage stresses across the switches. Thus, total standing voltage (TSV) and the overall cost of the proposed topology are reduced as compared to the state‐of‐the‐art topologies reported in the literature. Furthermore, an Improved Nearest Level Modulation (INLM) scheme is used to improve the power quality of the output voltage. Using the proposed scheme, the Total Harmonic Distortion (THD) of the output voltage is reduced to 5.08%. The power loss analysis for various elements of the proposed converter is also included. A comparison with recent topologies in reference to various performance parameters is carried out. In addition to the simulation study, a laboratory prototype is prepared to validate the efficacy of the proposed converter.

Publisher

Institution of Engineering and Technology (IET)

Subject

Electrical and Electronic Engineering,Energy Engineering and Power Technology,Control and Systems Engineering

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