M
Martin Marz
Researcher at University of Erlangen-Nuremberg
Publications - 104
Citations - 1974
Martin Marz is an academic researcher from University of Erlangen-Nuremberg. The author has contributed to research in topics: Voltage & Capacitor. The author has an hindex of 14, co-authored 104 publications receiving 1432 citations. Previous affiliations of Martin Marz include Siemens & Fraunhofer Society.
Papers
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Journal ArticleDOI
The 2018 GaN power electronics roadmap
Hiroshi Amano,Yannick Baines,Matteo Borga,T Bouchet,Paul R. Chalker,Matthew Charles,Kevin J. Chen,Nadim Chowdhury,Rongming Chu,Carlo De Santi,Maria Merlyne De Souza,Stefaan Decoutere,L. Di Cioccio,Bernd Eckardt,Takashi Egawa,Patrick Fay,Joseph J. Freedsman,Louis J. Guido,Oliver Häberlen,Geoff Haynes,Thomas Heckel,Dilini Hemakumara,Peter A. Houston,Jie Hu,Mengyuan Hua,Qingyun Huang,Alex Q. Huang,Sheng Jiang,Hiroji Kawai,Dan Kinzer,Martin Kuball,Ashwani Kumar,K. B. Lee,Xu Li,Denis Marcon,Martin Marz,Robert McCarthy,Gaudenzio Meneghesso,Matteo Meneghini,Erwan Morvan,Akira Nakajima,Ekkanath Madathil Sankara Narayanan,Stephen Oliver,Tomas Palacios,Daniel Piedra,Marc Plissonnier,Rekha Reddy,Min Sun,Iain G. Thayne,A. Torres,Nicola Trivellin,Vineet Unni,Michael J. Uren,Marleen Van Hove,David J. Wallis,David J. Wallis,Jingshan Wang,Jinqiao Xie,Shuichi Yagi,Shu Yang,Chris Youtsey,Ruiyang Yu,Enrico Zanoni,Stefan Zeltner,Yuhao Zhang +64 more
TL;DR: This collection of GaN technology developments is not itself a road map but a valuable collection of global state-of-the-art GaN research that will inform the next phase of the technology as market driven requirements evolve.
Proceedings ArticleDOI
COOLMOS/sup TM/-a new milestone in high voltage power MOS
TL;DR: The CoolMOS/sup TM/ as discussed by the authors, a new high voltage power MOSFET based on the concept of charge compensation, has been introduced, which shows both a very small input capacitance and a strongly nonlinear output capacitance.
Power electronics system integration for electric and hybrid vehicles
TL;DR: In this paper, the basic requirements, concepts, and trends regarding a system integration of power electronics in hybrid (HEV) and electric vehicles (EV) are discussed, where the focus is on power modules and passive components.
Patent
Switch mode power supply with reduced switching losses
TL;DR: In this paper, the authors proposed a switching transistor with reduced switching losses, where the output capacitance is very high when drain/source voltages are low and falls to such low values that the energy stored in the transistor becomes very low.
Proceedings ArticleDOI
Novel cost-efficient contactless distributed monitoring concept for smart battery cells
Vincent Lorentz,Martin Wenger,J.L. Grosch,M. Giegerich,Michael P. M. Jank,Martin Marz,Lothar Frey +6 more
TL;DR: The proposed concept provides a contactless cost-efficient data transmission interface with capacitive coupling, thus making the development of a battery monitoring circuit for each battery module type needless.