M
Marco Liserre
Researcher at University of Kiel
Publications - 696
Citations - 40149
Marco Liserre is an academic researcher from University of Kiel. The author has contributed to research in topics: Power electronics & Transformer. The author has an hindex of 76, co-authored 604 publications receiving 33175 citations. Previous affiliations of Marco Liserre include Aalborg University & University of Bari.
Papers
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Proceedings ArticleDOI
Integrated voltage control and line congestion management in Active Distribution Networks by means of smart transformers
TL;DR: The benefits, in terms of ADNs voltage and line flows controls, achieved by interfacing distributed generators with the power grid by means of a smart transformer are discussed.
Journal ArticleDOI
On-Board Microgrids for the More Electric Aircraft
TL;DR: An overview of technology related to on-board microgrids for the more electric aircraft, where security of supply and power density represents the main requirements, is presented.
Journal ArticleDOI
A Family of Series-Resonant DC–DC Converter With Fault-Tolerance Capability
TL;DR: In this paper, a fault-tolerant series-resonant dc-dc converter (SRC) is proposed to reduce the need of redundancy by reconfiguring the SRC in a half-bridge topology.
Journal ArticleDOI
Zero-Sequence Voltage Modulation Strategy for Multiparallel Converters Circulating Current Suppression
TL;DR: An improved SVM scheme is proposed that can effectively realize the ZSCC suppression, even though the parallel converter modules have asymmetrical current references and filter inductances.
Journal ArticleDOI
Soft-Start Procedure for a Three-Stage Smart Transformer Based on Dual-Active Bridge and Cascaded H-Bridge Converters
Sante Pugliese,Giampaolo Buticchi,Rosa Anna Mastromauro,Markus Andresen,Marco Liserre,Silvio Stasi +5 more
TL;DR: A soft-shift start modulation technique is proposed that allows to limit the inrush current in the dc/dc isolation stage during the dc-link capacitors precharging, and a fast voltage-balancing control is introduced to avoid overvoltages and unbalanced voltage conditions among the different power cells.