A Single-Stage Three-Phase Bidirectional AC/DC Converter With High-Frequency Isolation and PFC

A Single-Stage Three-Phase Bidirectional AC/DC Converter With High-Frequency Isolation and PFC

This paper presents a novel single-stage ac/dc rectifier with high-frequency isolation and bidirectional power flow capability, which is feasible to connect dc grids to ac ones. A thorough analysis is performed based on the development of an actual model as well as a fundamental one using the double...

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Bibliographic Details
Published in:IEEE transactions on power electronics Vol. 33; no. 10; pp. 8298 - 8307
Main Authors: de Almeida, Bruno R., de Araujo, Jose W. M., Praca, Paulo P., de S. Oliveira, Demercil
Format: Journal Article
Language:English
Published: New York IEEE 01-10-2018
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
AC-DC converters
AC-DC power converters
AC–DC power conversion
Amplitude modulation
bidirectional converters
Commutation
Feasibility studies
high-frequency isolation
Mathematical model
Modulation
power factor (PF) correction
Power flow
Reactive power
Rectifiers
Semiconductor device modeling
single-stage topologies
Topology
Windings
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Description
Summary:This paper presents a novel single-stage ac/dc rectifier with high-frequency isolation and bidirectional power flow capability, which is feasible to connect dc grids to ac ones. A thorough analysis is performed based on the development of an actual model as well as a fundamental one using the double-sideband amplitude modulation equations. The derived models allow the determination of the active and reactive power flow through the transformer as well as defining the operating regions for which soft commutation is achieved. Besides, the current stresses of the semiconductors devices are analyzed in detail. Experimental results obtained from a 5 kW prototype are presented and discussed in order to validate the proposed model as well as demonstrate the converter's performance and claimed advantages. The proposed concept can also be extended to dc/dc, ac/ac, and multilevel topologies.
ISSN:0885-8993
1941-0107
DOI:10.1109/TPEL.2017.2775522