Mixed MOSFET-IGBT bridge for high-efficient Medium-Frequency Dual-Active-Bridge converter in Solid State Transformers

High power DC-DC conversion is a key element within the Solid-State-Transformer concept. In order to reduce the switching losses of the Medium-Voltage side semiconductors, a Triangular-Current-Mode modulation scheme presents an attractive option. This modulation scheme, however introduces considerab...

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Hauptverfasser:	Ortiz, G., Gammeter, C., Kolar, J. W., Apeldoorn, O.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Bridge circuits Bridges Insulated gate bipolar transistors Modulation MOSFET Switches Zero current switching
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creator	Ortiz, G. Gammeter, C. Kolar, J. W. Apeldoorn, O.
description	High power DC-DC conversion is a key element within the Solid-State-Transformer concept. In order to reduce the switching losses of the Medium-Voltage side semiconductors, a Triangular-Current-Mode modulation scheme presents an attractive option. This modulation scheme, however introduces considerable challenges in the design of the low-voltage side power electronic bridges, which need to deal with high conducted and high switched currents. In order to increase the converter's efficiency, a combination of IGBTs and MOSFETs in a full-bridge configuration is considered. Practical hardware realizations are utilized in order to quantify the improvements introduced by the combination of these switches. Furthermore, the MOSFET's current conduction phase is supported by parallel connected IGBTs, which are used in order to further increase the full-bridge's efficiency, as shown by the provided experimental verification.
doi_str_mv	10.1109/COMPEL.2013.6626461
format	Conference Proceeding
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subjects	Bridge circuits Bridges Insulated gate bipolar transistors Modulation MOSFET Switches Zero current switching
title	Mixed MOSFET-IGBT bridge for high-efficient Medium-Frequency Dual-Active-Bridge converter in Solid State Transformers
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