A Simple Space Vector Modulation Method With DC-Link Voltage Balancing and Reduced Common-Mode Voltage Strategy for a Three-Level T-Type Quasi-Z Source Inverter

A Simple Space Vector Modulation Method With DC-Link Voltage Balancing and Reduced Common-Mode Voltage Strategy for a Three-Level T-Type Quasi-Z Source Inverter

Single-stage converters based on an impedance source (IS) network merged with a multilevel inverter remain a trending research topic, from both the topological and control perspectives, because of their potential in applications involving renewable energy. This paper presents a new, simplified space...

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Main Authors: Nicolas Mayorga, Carlos Roncero-Clemente, Ana M. Llor, Oleksandr Husev
Format: Article
Language:English
Published: IEEE 2021-01-01
Series:IEEE Access
Subjects:
Space vector modulation (SVM)
3-level T-type inverter
impedance source (IS) network
Online Access:https://ieeexplore.ieee.org/document/9447724/
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spelling doaj-9fe0759b193942f5ade4b5158f26adcb2021-06-14T23:00:15ZengIEEEIEEE Access2169-35362021-01-019827478276010.1109/ACCESS.2021.30870359447724A Simple Space Vector Modulation Method With DC-Link Voltage Balancing and Reduced Common-Mode Voltage Strategy for a Three-Level T-Type Quasi-Z Source InverterNicolas Mayorga0https://orcid.org/0000-0002-9655-1880Carlos Roncero-Clemente1https://orcid.org/0000-0001-6852-8600Ana M. Llor2https://orcid.org/0000-0002-5767-8512Oleksandr Husev3https://orcid.org/0000-0001-7810-457XDepartment of Electronics Engineering, Universidad Técnica Federico Santa María, Valparaíso, ChilePower Electrical and Electronic Systems (PE&ES) Research Group, University of Extremadura, Badajoz, SpainDepartment of Electronics Engineering, Universidad Técnica Federico Santa María, Valparaíso, ChileDepartment of Electrical Engineering, Tallinn University of Technology, Tallinn, EstoniaSingle-stage converters based on an impedance source (IS) network merged with a multilevel inverter remain a trending research topic, from both the topological and control perspectives, because of their potential in applications involving renewable energy. This paper presents a new, simplified space vector pulse-width modulation (SVPWM) for a three-phase three-level T-type quasi-impedance source inverter (3L-T-type qZSI). The benefits of the proposed modulation strategy include functionalities, such as boosting the input voltage and controlling the neutral-point (NP) voltage using the redundant small vectors, to mitigate the inner capacitors voltages imbalance. The proposed SVPWM guarantees a minimum common-mode voltage while preserving a very simple implementation, thus reducing the complex computations and cascaded proportional-integral (PI) control loops of the conventional SVPWM methods. The proposed algorithm can be applied to different multilevel inverter configurations combined with an IS network. A comprehensive simulation study and experimental results demonstrated the good performance of the proposed control method for dynamic response and imbalance conditions.https://ieeexplore.ieee.org/document/9447724/Space vector modulation (SVM)3-level T-type inverterimpedance source (IS) network
collection DOAJ
language English
format Article
sources DOAJ
author Nicolas Mayorga
Carlos Roncero-Clemente
Ana M. Llor
Oleksandr Husev
spellingShingle Nicolas Mayorga
Carlos Roncero-Clemente
Ana M. Llor
Oleksandr Husev
A Simple Space Vector Modulation Method With DC-Link Voltage Balancing and Reduced Common-Mode Voltage Strategy for a Three-Level T-Type Quasi-Z Source Inverter
IEEE Access
Space vector modulation (SVM)
3-level T-type inverter
impedance source (IS) network
author_facet Nicolas Mayorga
Carlos Roncero-Clemente
Ana M. Llor
Oleksandr Husev
author_sort Nicolas Mayorga
title A Simple Space Vector Modulation Method With DC-Link Voltage Balancing and Reduced Common-Mode Voltage Strategy for a Three-Level T-Type Quasi-Z Source Inverter
title_short A Simple Space Vector Modulation Method With DC-Link Voltage Balancing and Reduced Common-Mode Voltage Strategy for a Three-Level T-Type Quasi-Z Source Inverter
title_full A Simple Space Vector Modulation Method With DC-Link Voltage Balancing and Reduced Common-Mode Voltage Strategy for a Three-Level T-Type Quasi-Z Source Inverter
title_fullStr A Simple Space Vector Modulation Method With DC-Link Voltage Balancing and Reduced Common-Mode Voltage Strategy for a Three-Level T-Type Quasi-Z Source Inverter
title_full_unstemmed A Simple Space Vector Modulation Method With DC-Link Voltage Balancing and Reduced Common-Mode Voltage Strategy for a Three-Level T-Type Quasi-Z Source Inverter
title_sort simple space vector modulation method with dc-link voltage balancing and reduced common-mode voltage strategy for a three-level t-type quasi-z source inverter
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2021-01-01
description Single-stage converters based on an impedance source (IS) network merged with a multilevel inverter remain a trending research topic, from both the topological and control perspectives, because of their potential in applications involving renewable energy. This paper presents a new, simplified space vector pulse-width modulation (SVPWM) for a three-phase three-level T-type quasi-impedance source inverter (3L-T-type qZSI). The benefits of the proposed modulation strategy include functionalities, such as boosting the input voltage and controlling the neutral-point (NP) voltage using the redundant small vectors, to mitigate the inner capacitors voltages imbalance. The proposed SVPWM guarantees a minimum common-mode voltage while preserving a very simple implementation, thus reducing the complex computations and cascaded proportional-integral (PI) control loops of the conventional SVPWM methods. The proposed algorithm can be applied to different multilevel inverter configurations combined with an IS network. A comprehensive simulation study and experimental results demonstrated the good performance of the proposed control method for dynamic response and imbalance conditions.
topic Space vector modulation (SVM)
3-level T-type inverter
impedance source (IS) network
url https://ieeexplore.ieee.org/document/9447724/
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