An Enhanced Space Vector PWM Strategies for Three Phase Asymmetric Multilevel Inverter-Reference-Cited by-同舟云学术

An Enhanced Space Vector PWM Strategies for Three Phase Asymmetric Multilevel Inverter

Published:2023-02-20 Issue: Volume:2023 Page:1-21
ISSN:2050-7038
Container-title:International Transactions on Electrical Energy Systems
language:en
Short-container-title:International Transactions on Electrical Energy Systems

Author:

Kumar B. Hemanth¹^ORCID,Janardhan K.¹,Kumar R. Seshu²,Rahul J. Ramesh³,Singh Arvind R.⁴^ORCID,Naidoo Raj⁴^ORCID,Bansal Ramesh C.⁴⁵^ORCID

Affiliation:

1. Department of EEE, Mohan Babu University (Formerly Known as Sree Vidyanikethan Engineering College), Tirupathi, India

2. Department of EEE, KPR Institute of Engineering and Technology, Coimbatore, India

3. Department of EEE, Gayatri Vidya Parishad College of Engineering, Visakhapatnam, India

4. Department of Electrical, Electronic and Computer Engineering, University of Pretoria, South Africa

5. Department of Electrical Engineering, University of Sharjah, Sharjah, UAE

Abstract

This work presents the two space vector pulse width modulation (SVPWM-I and SVPWM-II) strategies for eleven-level (11L) asymmetric cascaded H-bridge (CHB) multilevel inverter (MLI). Depending on the isolated structure and nonappearance of capacitor voltage balancing issues, the CHB MLI structure is favoured. These days, the SVPWM control method is accomplished superior consideration among the diverse PWM methods. In common, the SVPWM strategy is realized based on deteriorating higher-level hexagons into a lower level hexagon (2-level). Compared to the classical SVPWM strategy, the proposed SVPWM-I strategy decreases the memory and mathematical burden necessity included within the demonstration of eleven-level SVPWM devoid of losing the inverter output voltage (AC) contour by diminution the number of two-level hexagons. Also, the SVPWM-II strategy is presented, which incredibly diminishes the mathematical endeavours. The presented two SVPWM methods performed on an eleven-level asymmetric CHB multilevel inverter (MLI) by utilizing SIMULINK/MATLAB program tool and are compared with conventional sinusoidal PWM and Third harmonic injection (THI) PWM methods to confirm the proposed SVPWM methods. The proposed SVPWM methods give higher AC RMS voltage and lower harmonic distortion when compared to SPWM and THIPWM methods. To validate the presented two SVPWM control schemes, hardware results are taken on asymmetric eleven-level CHB MLI.

Funder

SA/China Joint Research Programme 2021

Publisher

Hindawi Limited

Subject

Electrical and Electronic Engineering,Energy Engineering and Power Technology,Modeling and Simulation

Link

http://downloads.hindawi.com/journals/itees/2023/5548828.pdf

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