
M.Sc. Simon Frank
- Wissenschaftlicher Mitarbeiter
- Leistungselektronische Systeme (LES), Leistungselektronik bei tiefen Temperaturen, Leistungselektronik für Netzanwendungen
- Gruppe:
Stromrichtersystemtechnik
- Raum: 111
- Tel.: +49 721 608-42465
- s frank ∂does-not-exist.kit edu
Studienberatung
Die Studienberatung findet nach vorheriger Terminvergabe (typischerweise donnerstags von 10:00 Uhr bis 11:30 Uhr) statt, genauere Infos finden sich hier.
Titel | Typ | Semester | Ort |
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Power Electronics | Lecture | SS 2023 | Lectures & Exercises: Hybrid format (Presence on Wednesdays in EAS lecture hall, builduing 11.10, ETI, on Tuesdays in Redtenbach lecture hall (10.91) and online via Zoom) |
Titel | Ansprechperson |
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AppLHy! – Transport und Anwendung von flüssigem Wasserstoff | Prof. Dr.-Ing. Marc Hiller |
SupraGenSys - Entwurf, Optimierung und Bewertung von energieeffizienten, supraleitenden Generatorsystemen | Prof. Dr.-Ing. Martin Doppelbauer Prof. Dr.-Ing. Marc Hiller |
Titel | Bild | Quelle | Kurzbeschreibung |
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Fully Automated Wide Temperature Range Semiconductor Characterization | This paper introduces a fully automated test bench for −75 °C up to 160 °C static and dynamic semiconductor characterization. First measurements performed with a 1.2 kV, 200 A Si-IGBT module and a 1.2 kV, 250 A SiC-MOSFET module show better semiconductor performance at lower temperatures compared to the conventional high temperature operation. |
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A standardized and modular power electronics platform for academic research on advanced grid-connected converter control and microgrids | This paper introduces a multifunctional converter platform rated at 30kW. Individual units allow research |
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An Approach to the Design and the Interactions of a Fully Superconducting Synchronous Generator and Its Power Converter | This study highlights the interdependencies between the design of a fully superconducting 10 MW wind power generator and the corresponding design of its power electronic converter. |
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Design of an Intelligent, Modular IGBT/SiC Inverter Platform up to 400 kW for Fast Realization of New Test-Bench Concepts | This paper presents an intelligent, modular two level, three phase inverter platform for up to 1200 V DC-link voltage and 400 kW continuous power at 10 kHz switching frequency. |