Practical Layouts and DC-Rail Voltage Clamping Techniques of Z-Source Inverters

Honnyong Cha; Yuan Li; Fang Zheng Peng

doi:10.1109/TPEL.2016.2518807

Practical Layouts and DC-Rail Voltage Clamping Techniques of Z-Source Inverters

Honnyong Cha, Yuan Li, Fang Zheng Peng

School of Energy Engineering

Research output: Contribution to journal › Article › peer-review

27 Scopus citations

Abstract

The Z-source inverters (ZSIs) have many advantages over the conventional voltage-fed and current-fed inverters, and extensive research works are conducing recently. However, relatively difficult physical layouts of the Z-source networks make them less attractive in the industry applications. A good hardware design is important to handle with the inherent long high-frequency loop in order to avoid generating severe voltage overshoot in the dc-rail voltage of the ZSIs. In this paper, the high-frequency loops in various ZSIs are investigated. A dc-rail voltage clamping technique for magnetically coupled impedance source converters is proposed by using an intuitive circuit modification and addition of a clamping diode. The proposed technique is verified through simulation and experiment.

Original language	English
Article number	7384498
Pages (from-to)	7471-7479
Number of pages	9
Journal	IEEE Transactions on Power Electronics
Volume	31
Issue number	11
DOIs	https://doi.org/10.1109/TPEL.2016.2518807
State	Published - Nov 2016

Keywords

Coupled inductor
DC-AC inverter
high frequency loop
snubber circuit
voltage clamping circuit
Z-source inverter

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10.1109/TPEL.2016.2518807

Cite this

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title = "Practical Layouts and DC-Rail Voltage Clamping Techniques of Z-Source Inverters",

abstract = "The Z-source inverters (ZSIs) have many advantages over the conventional voltage-fed and current-fed inverters, and extensive research works are conducing recently. However, relatively difficult physical layouts of the Z-source networks make them less attractive in the industry applications. A good hardware design is important to handle with the inherent long high-frequency loop in order to avoid generating severe voltage overshoot in the dc-rail voltage of the ZSIs. In this paper, the high-frequency loops in various ZSIs are investigated. A dc-rail voltage clamping technique for magnetically coupled impedance source converters is proposed by using an intuitive circuit modification and addition of a clamping diode. The proposed technique is verified through simulation and experiment.",

keywords = "Coupled inductor, DC-AC inverter, high frequency loop, snubber circuit, voltage clamping circuit, Z-source inverter",

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AB - The Z-source inverters (ZSIs) have many advantages over the conventional voltage-fed and current-fed inverters, and extensive research works are conducing recently. However, relatively difficult physical layouts of the Z-source networks make them less attractive in the industry applications. A good hardware design is important to handle with the inherent long high-frequency loop in order to avoid generating severe voltage overshoot in the dc-rail voltage of the ZSIs. In this paper, the high-frequency loops in various ZSIs are investigated. A dc-rail voltage clamping technique for magnetically coupled impedance source converters is proposed by using an intuitive circuit modification and addition of a clamping diode. The proposed technique is verified through simulation and experiment.

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KW - DC-AC inverter

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KW - snubber circuit

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Practical Layouts and DC-Rail Voltage Clamping Techniques of Z-Source Inverters

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Keywords

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