Single‐stage microinverter with current sensorless control for BIPV system

Single‐stage microinverter with current sensorless control for BIPV system

Abstract Building Integrated Photovoltaic (BIPV) microinverter system needs lower component counts and high efficiency at low power levels. In this context, this paper proposes a single‐phase Transformerless Single‐stage Buck‐Boost Microinverter with sensorless control for the Grid‐integrated BIPV s...

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Main Authors: Derick Mathew, Rani Chinnappa Naidu, Yue Wang, Krishna Busawon
Format: Article
Language:English
Published: Wiley 2021-08-01
Series:IET Renewable Power Generation
Online Access:https://doi.org/10.1049/rpg2.12177
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spelling doaj-3818194fcb494ac1920832d29d7ca7ee2021-08-26T08:35:36ZengWileyIET Renewable Power Generation1752-14161752-14242021-08-0115112468247910.1049/rpg2.12177Single‐stage microinverter with current sensorless control for BIPV systemDerick Mathew0Rani Chinnappa Naidu1Yue Wang2Krishna Busawon3Electrical Engineering VIT University Vellore Tamil Nadu IndiaElectrical Engineering VIT University Vellore Tamil Nadu IndiaDepartment of Engineering University of Chichester West Sussex UKMechanical and Construction Engineering Northumbria University Newcastle upon Tyne NE1 8ST UKAbstract Building Integrated Photovoltaic (BIPV) microinverter system needs lower component counts and high efficiency at low power levels. In this context, this paper proposes a single‐phase Transformerless Single‐stage Buck‐Boost Microinverter with sensorless control for the Grid‐integrated BIPV system. The current estimation strategy is used to control the PV system, which reduces the costs and volume of the system. The leakage current of the system is reduced within the limits. It operates at a high level of efficiency, using an optimized number of active and passive components. In the absence of shoot‐through problems, reliability is high for the proposed topology. MATLAB/Simulink simulation with a laboratory experimental setup for the proposed inverter for the First Solar BIPV module is designed to validate the results. Finally, the proposed inverter was compared to different Buck‐Boost inverters at a power level of 70 W.https://doi.org/10.1049/rpg2.12177
collection DOAJ
language English
format Article
sources DOAJ
author Derick Mathew
Rani Chinnappa Naidu
Yue Wang
Krishna Busawon
spellingShingle Derick Mathew
Rani Chinnappa Naidu
Yue Wang
Krishna Busawon
Single‐stage microinverter with current sensorless control for BIPV system
IET Renewable Power Generation
author_facet Derick Mathew
Rani Chinnappa Naidu
Yue Wang
Krishna Busawon
author_sort Derick Mathew
title Single‐stage microinverter with current sensorless control for BIPV system
title_short Single‐stage microinverter with current sensorless control for BIPV system
title_full Single‐stage microinverter with current sensorless control for BIPV system
title_fullStr Single‐stage microinverter with current sensorless control for BIPV system
title_full_unstemmed Single‐stage microinverter with current sensorless control for BIPV system
title_sort single‐stage microinverter with current sensorless control for bipv system
publisher Wiley
series IET Renewable Power Generation
issn 1752-1416
1752-1424
publishDate 2021-08-01
description Abstract Building Integrated Photovoltaic (BIPV) microinverter system needs lower component counts and high efficiency at low power levels. In this context, this paper proposes a single‐phase Transformerless Single‐stage Buck‐Boost Microinverter with sensorless control for the Grid‐integrated BIPV system. The current estimation strategy is used to control the PV system, which reduces the costs and volume of the system. The leakage current of the system is reduced within the limits. It operates at a high level of efficiency, using an optimized number of active and passive components. In the absence of shoot‐through problems, reliability is high for the proposed topology. MATLAB/Simulink simulation with a laboratory experimental setup for the proposed inverter for the First Solar BIPV module is designed to validate the results. Finally, the proposed inverter was compared to different Buck‐Boost inverters at a power level of 70 W.
url https://doi.org/10.1049/rpg2.12177
work_keys_str_mv AT derickmathew singlestagemicroinverterwithcurrentsensorlesscontrolforbipvsystem
AT ranichinnappanaidu singlestagemicroinverterwithcurrentsensorlesscontrolforbipvsystem
AT yuewang singlestagemicroinverterwithcurrentsensorlesscontrolforbipvsystem
AT krishnabusawon singlestagemicroinverterwithcurrentsensorlesscontrolforbipvsystem
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