Dead-Time Effect of the High-Frequency Isolated Bidirectional Full-Bridge DC-DC Converter: Comprehensive Theoretical Analysis and Experimental Verification

As the development of isolated bidirectional full-bridge dc-dc converter (IBDC), the dead-time effect has become an apparent issue. This paper presents a comprehensive theoretical analysis and experimental verification of dead-time effect in the IBDC. Besides the internal power transfer and phase dr...

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Veröffentlicht in:	IEEE transactions on power electronics 2014-04, Vol.29 (4), p.1667-1680
Hauptverfasser:	Zhao, Biao, Song, Qiang, Liu, Wenhua, Sun, Yandong
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences Circuit properties Convertors Dc-dc converter dead timed Disturbances. Regulation. Protection Electric currents Electric, optical and optoelectronic circuits Electrical engineering. Electrical power engineering Electrical machines Electrical power engineering Electricity distribution Electronic circuits Electronics Exact sciences and technology phase-shift control Power networks and lines Power supply Regulation and control Signal convertors silicon carbide switching transmission power
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container_title	IEEE transactions on power electronics
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creator	Zhao, Biao Song, Qiang Liu, Wenhua Sun, Yandong
description	As the development of isolated bidirectional full-bridge dc-dc converter (IBDC), the dead-time effect has become an apparent issue. This paper presents a comprehensive theoretical analysis and experimental verification of dead-time effect in the IBDC. Besides the internal power transfer and phase drift phenomena mentioned in previous works, there are also many other novel phenomena caused by the dead time, such as voltage polarity reversal and voltage sag phenomena, etc. The paper gives a detailed switching characterization of the IBDC with dead-time effect in all operation states. On this basis, the transmission power characterization is analyzed comprehensively. Compared to the traditional theoretical model, the transmission power model with dead-time effect is not a strictly monotone increasing function, the relation curve is not symmetric around the median axis, and the zero point is not achieved at zero phase-shift ratio. In addition, in different operation states, the characterization is also different. Finally, experimental results verify the theoretical analysis.
doi_str_mv	10.1109/TPEL.2013.2271511
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This paper presents a comprehensive theoretical analysis and experimental verification of dead-time effect in the IBDC. Besides the internal power transfer and phase drift phenomena mentioned in previous works, there are also many other novel phenomena caused by the dead time, such as voltage polarity reversal and voltage sag phenomena, etc. The paper gives a detailed switching characterization of the IBDC with dead-time effect in all operation states. On this basis, the transmission power characterization is analyzed comprehensively. Compared to the traditional theoretical model, the transmission power model with dead-time effect is not a strictly monotone increasing function, the relation curve is not symmetric around the median axis, and the zero point is not achieved at zero phase-shift ratio. In addition, in different operation states, the characterization is also different. Finally, experimental results verify the theoretical analysis.</description><identifier>ISSN: 0885-8993</identifier><identifier>EISSN: 1941-0107</identifier><identifier>DOI: 10.1109/TPEL.2013.2271511</identifier><identifier>CODEN: ITPEE8</identifier><language>eng</language><publisher>New York, NY: IEEE</publisher><subject>Applied sciences ; Circuit properties ; Convertors ; Dc-dc converter ; dead timed ; Disturbances. Regulation. Protection ; Electric currents ; Electric, optical and optoelectronic circuits ; Electrical engineering. 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This paper presents a comprehensive theoretical analysis and experimental verification of dead-time effect in the IBDC. Besides the internal power transfer and phase drift phenomena mentioned in previous works, there are also many other novel phenomena caused by the dead time, such as voltage polarity reversal and voltage sag phenomena, etc. The paper gives a detailed switching characterization of the IBDC with dead-time effect in all operation states. On this basis, the transmission power characterization is analyzed comprehensively. Compared to the traditional theoretical model, the transmission power model with dead-time effect is not a strictly monotone increasing function, the relation curve is not symmetric around the median axis, and the zero point is not achieved at zero phase-shift ratio. In addition, in different operation states, the characterization is also different. 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This paper presents a comprehensive theoretical analysis and experimental verification of dead-time effect in the IBDC. Besides the internal power transfer and phase drift phenomena mentioned in previous works, there are also many other novel phenomena caused by the dead time, such as voltage polarity reversal and voltage sag phenomena, etc. The paper gives a detailed switching characterization of the IBDC with dead-time effect in all operation states. On this basis, the transmission power characterization is analyzed comprehensively. Compared to the traditional theoretical model, the transmission power model with dead-time effect is not a strictly monotone increasing function, the relation curve is not symmetric around the median axis, and the zero point is not achieved at zero phase-shift ratio. In addition, in different operation states, the characterization is also different. 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subjects	Applied sciences Circuit properties Convertors Dc-dc converter dead timed Disturbances. Regulation. Protection Electric currents Electric, optical and optoelectronic circuits Electrical engineering. Electrical power engineering Electrical machines Electrical power engineering Electricity distribution Electronic circuits Electronics Exact sciences and technology phase-shift control Power networks and lines Power supply Regulation and control Signal convertors silicon carbide switching transmission power
title	Dead-Time Effect of the High-Frequency Isolated Bidirectional Full-Bridge DC-DC Converter: Comprehensive Theoretical Analysis and Experimental Verification
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