Current Source Topologies for Photovoltaic Applications: An Overview

Current source topologies have several advantages compared to conventional voltage systems. Their inherent voltage-boosting function, intrinsic short-circuit protection, no electrolytic capacitor, direct-current control, continuous input current, and high reliability make them exceptional candidates...
Ausführliche Beschreibung

Gespeichert in:

Autor*in:	Oscar Miguel Rodríguez-Benítez [verfasserIn] Juan Antonio Aqui-Tapia [verfasserIn] Isaac Ortega-Velázquez [verfasserIn] Gerardo Espinosa-Pérez [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2022

Schlagwörter:	photovoltaic (PV) systems current-fed multi-stage converter current source converter reliability

Übergeordnetes Werk:	In: Electronics - MDPI AG, 2013, 11(2022), 18, p 2953
Übergeordnetes Werk:	volume:11 ; year:2022 ; number:18, p 2953

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.3390/electronics11182953

Katalog-ID:	DOAJ08482929X

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callnumber-first	T - Technology
author	Oscar Miguel Rodríguez-Benítez
spellingShingle	Oscar Miguel Rodríguez-Benítez misc TK7800-8360 misc photovoltaic (PV) systems misc current-fed misc multi-stage converter misc current source converter misc reliability misc Electronics Current Source Topologies for Photovoltaic Applications: An Overview
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topic_title	TK7800-8360 Current Source Topologies for Photovoltaic Applications: An Overview photovoltaic (PV) systems current-fed multi-stage converter current source converter reliability
topic	misc TK7800-8360 misc photovoltaic (PV) systems misc current-fed misc multi-stage converter misc current source converter misc reliability misc Electronics
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title	Current Source Topologies for Photovoltaic Applications: An Overview
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title_sort	current source topologies for photovoltaic applications: an overview
callnumber	TK7800-8360
title_auth	Current Source Topologies for Photovoltaic Applications: An Overview
abstract	Current source topologies have several advantages compared to conventional voltage systems. Their inherent voltage-boosting function, intrinsic short-circuit protection, no electrolytic capacitor, direct-current control, continuous input current, and high reliability make them exceptional candidates for power generation systems, particularly for photovoltaic applications. This study provides an overview of the current source topologies for multi-stage photovoltaic grid-connected systems by comparing the number of components, performance, power-decoupling techniques, efficiency, and frequency operation. The overview reveals gain, performance, energy quality and lifetime improvements, thereby providing current source systems as an attractive alternative for renewable applications.
abstractGer	Current source topologies have several advantages compared to conventional voltage systems. Their inherent voltage-boosting function, intrinsic short-circuit protection, no electrolytic capacitor, direct-current control, continuous input current, and high reliability make them exceptional candidates for power generation systems, particularly for photovoltaic applications. This study provides an overview of the current source topologies for multi-stage photovoltaic grid-connected systems by comparing the number of components, performance, power-decoupling techniques, efficiency, and frequency operation. The overview reveals gain, performance, energy quality and lifetime improvements, thereby providing current source systems as an attractive alternative for renewable applications.
abstract_unstemmed	Current source topologies have several advantages compared to conventional voltage systems. Their inherent voltage-boosting function, intrinsic short-circuit protection, no electrolytic capacitor, direct-current control, continuous input current, and high reliability make them exceptional candidates for power generation systems, particularly for photovoltaic applications. This study provides an overview of the current source topologies for multi-stage photovoltaic grid-connected systems by comparing the number of components, performance, power-decoupling techniques, efficiency, and frequency operation. The overview reveals gain, performance, energy quality and lifetime improvements, thereby providing current source systems as an attractive alternative for renewable applications.
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title_short	Current Source Topologies for Photovoltaic Applications: An Overview
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