A Three-Phase Single-Stage AC-DC Wireless-Power-Transfer Converter With Power Factor Correction and Bus Voltage Control

Wireless power transfer (WPT) technology has been a research and industrial hotspot with applications in many areas, such as wireless electric vehicle charging system that requires high power, high efficiency, and high power factor (PF). Usually, the power is drawn from a 50/60 Hz single-phase or th...

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Veröffentlicht in:	IEEE journal of emerging and selected topics in power electronics 2020-06, Vol.8 (2), p.1782-1800
Hauptverfasser:	Liu, Junwei, Xu, Wenzheng, Chan, Ka Wing, Liu, Ming, Zhang, Xian, Chan, Nelson Hon Lung
Format:	Artikel
Sprache:	eng
Schlagworte:	Capacitors Electric converters Electric potential Electric vehicle charging Energy conversion efficiency Inverters Power factor Power factor (PF) correction (PFC) Power harmonic filters Production costs Rectifiers Resonant converters single stage three-phase Topology Voltage wireless power transfer (WPT)
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container_title	IEEE journal of emerging and selected topics in power electronics
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creator	Liu, Junwei Xu, Wenzheng Chan, Ka Wing Liu, Ming Zhang, Xian Chan, Nelson Hon Lung
description	Wireless power transfer (WPT) technology has been a research and industrial hotspot with applications in many areas, such as wireless electric vehicle charging system that requires high power, high efficiency, and high power factor (PF). Usually, the power is drawn from a 50/60 Hz single-phase or three-phase ac power source. For a high power application, a three-phase ac source is commonly used. In this paper, a three-phase single-stage WPT resonant converter with PF correction (PFC) and bus voltage control is proposed to improve efficiency and power quality of three-phase input and reduce production cost and complexity for a high power WPT system. A T-type topology is applied as the common part to perform both the PFC and dc-dc WPT functionalities simultaneously. The proposed converter is much more advantageous than a conventional three-phase two-stage WPT converter with individual PF corrector. In addition, three-phase single-stage topologies have better power quality than single-phase single-stage topologies because zero-sequence components can be naturally eliminated.
doi_str_mv	10.1109/JESTPE.2019.2916258
format	Article
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subjects	Capacitors Electric converters Electric potential Electric vehicle charging Energy conversion efficiency Inverters Power factor Power factor (PF) correction (PFC) Power harmonic filters Production costs Rectifiers Resonant converters single stage three-phase Topology Voltage wireless power transfer (WPT)
title	A Three-Phase Single-Stage AC-DC Wireless-Power-Transfer Converter With Power Factor Correction and Bus Voltage Control
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