A High-Voltage AC/DC Resonant Converter Based on PRC With Single Capacitor as an Output Filter

One of the major drawbacks of high-ratio step-up transformers is the high value of their secondary-side capacitor. This value is reflected at the primary side, giving rise to a nondesirable one. There are some converters which include this capacitor in the topology and can cope with it, and even mor...

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Veröffentlicht in:	IEEE transactions on industry applications 2010-11, Vol.46 (6), p.2134-2142
Hauptverfasser:	Diaz, Juan, Villegas Saiz, Pedro Jose, Martin-Ramos, Juan A, Martin-Pernia, Alberto, Martinez, Juan A
Format:	Artikel
Sprache:	eng
Schlagworte:	Capacitors Converters Electric converters Frequency control High-frequency power converter high-voltage power converters modeling Power transformer insulation resonant converter Switches Switching Topology Transformers Voltage Voltage control Zero voltage switching
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creator	Diaz, Juan Villegas Saiz, Pedro Jose Martin-Ramos, Juan A Martin-Pernia, Alberto Martinez, Juan A
description	One of the major drawbacks of high-ratio step-up transformers is the high value of their secondary-side capacitor. This value is reflected at the primary side, giving rise to a nondesirable one. There are some converters which include this capacitor in the topology and can cope with it, and even more, they need it. In particular, in high-voltage applications, we will find transformers with a large capacitance value since they use high-ratio step-up transformers. In this kind of applications, it is always interesting not to have inductors at the output filter, with single-capacitor filters being preferred instead. Thus, one of the simplest topologies is the parallel resonant converter (PRC) with a single-capacitor output filter. It can be controlled by the switching frequency and/or duty cycle, which makes zero voltage switching feasible in the power switches. In this paper, the PRC modeling and design and the experimental results are shown in a prototype delivering 3.5 kV and 260 W.
doi_str_mv	10.1109/TIA.2010.2070053
format	Article
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This value is reflected at the primary side, giving rise to a nondesirable one. There are some converters which include this capacitor in the topology and can cope with it, and even more, they need it. In particular, in high-voltage applications, we will find transformers with a large capacitance value since they use high-ratio step-up transformers. In this kind of applications, it is always interesting not to have inductors at the output filter, with single-capacitor filters being preferred instead. Thus, one of the simplest topologies is the parallel resonant converter (PRC) with a single-capacitor output filter. It can be controlled by the switching frequency and/or duty cycle, which makes zero voltage switching feasible in the power switches. 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subjects	Capacitors Converters Electric converters Frequency control High-frequency power converter high-voltage power converters modeling Power transformer insulation resonant converter Switches Switching Topology Transformers Voltage Voltage control Zero voltage switching
title	A High-Voltage AC/DC Resonant Converter Based on PRC With Single Capacitor as an Output Filter
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