A DC-Autotransformer based Multilevel Inverter for Automotive Applications

This paper proposes a novel multilevel inverter for automotive applications. The topology consists of a modular DCDC converter and a tap selector, where the DC-DC converter provides several DC-output levels and the tap selector produces an AC signal by choosing different DC-output signals from the D...

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Veröffentlicht in:	arXiv.org 2020-11
Hauptverfasser:	Grimm, Ferdinand, Wood, John, Baghdadi, Mehdi
Format:	Artikel
Sprache:	eng
Schlagworte:	Autotransformers Electric converters Energy conversion efficiency Inverters Modular structures Modules Switches Topology Voltage converters (DC to DC)
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creator	Grimm, Ferdinand Wood, John Baghdadi, Mehdi
description	This paper proposes a novel multilevel inverter for automotive applications. The topology consists of a modular DCDC converter and a tap selector, where the DC-DC converter provides several DC-output levels and the tap selector produces an AC signal by choosing different DC-output signals from the DC-DC converter. To produce the DC-levels, the DC-DC converter consists of a modular structure where the modules are connected in series. The novelty is that the modules are connected both, magnetically in the AC-domain and electrically in the DCdomain. Due to the usage of low power switches in the modules, the proposed structure provides high efficiency. Furthermore, the DC-DC converter is capable of self-balancing its modules and thus does not require large capacitors which yields a high power density. A prototype of the proposed converter is built and simulation, as well as experimental results, are used to verify the findings.
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The topology consists of a modular DCDC converter and a tap selector, where the DC-DC converter provides several DC-output levels and the tap selector produces an AC signal by choosing different DC-output signals from the DC-DC converter. To produce the DC-levels, the DC-DC converter consists of a modular structure where the modules are connected in series. The novelty is that the modules are connected both, magnetically in the AC-domain and electrically in the DCdomain. Due to the usage of low power switches in the modules, the proposed structure provides high efficiency. Furthermore, the DC-DC converter is capable of self-balancing its modules and thus does not require large capacitors which yields a high power density. 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subjects	Autotransformers Electric converters Energy conversion efficiency Inverters Modular structures Modules Switches Topology Voltage converters (DC to DC)
title	A DC-Autotransformer based Multilevel Inverter for Automotive Applications
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