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2018 | OriginalPaper | Buchkapitel

2. A Matrix Based Non-isolated Three Phase AC–DC Converter

verfasst von : Amit Kumar Singh

Erschienen in: Analysis and Design of Power Converter Topologies for Application in Future More Electric Aircraft

Verlag: Springer Singapore

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Abstract

This chapter presents a novel matrix based non-isolated three phase AC–DC converter. The proposed converter topology provides large step down voltage gain than a traditional three phase PWM buck rectifier without compromising input power quality and power conversion efficiency. Section 2.2 presents the brief review of three phase non-isolated buck rectifiers. In Sect. 2.3, the new contributions of this chapter are discussed. Section 2.4 describes the topology, modulation scheme and principle of operation of the proposed converter in details. Steady state analysis and design are presented in Sect. 2.5 which includes voltage and current stress calculation on the semiconductor devices, accurate estimation of input and output voltage/current ripple, filter design and effect of modulation index on input current THD. In Sect. 2.6, digital simulation of the converter is carried out and results are discussed. In Sect. 2.7, small signal modeling followed by closed loop PI controller is presented for the proposed converter. A comparative evaluation of the proposed converter with the traditional six switch buck rectifier is carried out in Sect. 2.8. Subsequently, experimental results are presented in Sect. 2.9. Section 2.10 provides the conclusion.

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Metadaten
Titel
A Matrix Based Non-isolated Three Phase AC–DC Converter
verfasst von
Amit Kumar Singh
Copyright-Jahr
2018
Verlag
Springer Singapore
DOI
https://doi.org/10.1007/978-981-10-8213-9_2