S
Stefan M. Goetz
Researcher at Duke University
Publications - 154
Citations - 2454
Stefan M. Goetz is an academic researcher from Duke University. The author has contributed to research in topics: Modular design & Computer science. The author has an hindex of 17, co-authored 118 publications receiving 1136 citations. Previous affiliations of Stefan M. Goetz include Kaiserslautern University of Technology & University of Cambridge.
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Journal ArticleDOI
Modular Multilevel Converter With Series and Parallel Module Connectivity: Topology and Control
TL;DR: In this paper, a modular multilevel series/parallel converter that allows switching modules dynamically not only in series, as in the traditional modular multi-level converter (M2C), but also in parallel is presented.
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Electric Vehicle Charging Infrastructure: From Grid to Battery
Sebastian Rivera,Samir Kouro,Sergio Vazquez,Stefan M. Goetz,Ricardo Lizana,Enrique Romero-Cadaval +5 more
TL;DR: During the coming decades, electrification is expected to reach further and deeper into the transportation, building, and industry sectors, mainly motivated by the energy transition to a zero-carbonemission-based economy to mitigate climate change.
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Pulse width dependence of motor threshold and input–output curve characterized with controllable pulse parameter transcranial magnetic stimulation
Angel V. Peterchev,Stefan M. Goetz,Stefan M. Goetz,Gregory G. Westin,Bruce Luber,Sarah H. Lisanby +5 more
TL;DR: The authors' strength-duration time constant estimate compares well to published values and may be more accurate given increased sample size and enhanced methodology and Multiplying the IO slope by the motor threshold may provide a sensitive measure of individual differences in corticospinal tract physiology.
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Control of Modular Multilevel Converter With Parallel Connectivity—Application to Battery Systems
TL;DR: In this paper, a real-time controller for a modular multilevel series parallel converter (MMSPC) is presented, which allows the batteries to be dynamically rewired in various series-parallel configurations, generating a wide range of output voltage levels.
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Effect of coil orientation on strength-duration time constant and I-wave activation with controllable pulse parameter transcranial magnetic stimulation.
Kevin D'Ostilio,Kevin D'Ostilio,Stefan M. Goetz,Stefan M. Goetz,Ricci Hannah,Matteo Ciocca,Matteo Ciocca,Raffaella Chieffo,Jui-Cheng Chen,Jui-Cheng Chen,Angel V. Peterchev,John C. Rothwell +11 more
TL;DR: Highlights • S–D time constants are longer for anterior–posterior than posterior–anterior induced currents, and selective stimulation of neural elements may be achieved by manipulating pulse width and orientation.