Dipl.-Ing. Nathan Tröster

Dipl.-Ing. Nathan Tröster
Tel.: +49 (0)711 685 67372
Dipl.-Ing. Nathan Tröster  
Fax: +49 (0)711 685 67378
Raum: 1.252
E-Mail: nathan.troester [at] ilea.uni-stuttgart.de
Postanschrift: Institut für Leistungselektronik und Elektrische Antriebe
Pfaffenwaldring 47
70550 Stuttgart
Deutschland
Hausanschrift: Institut für Leistungselektronik und Elektrische Antriebe
Pfaffenwaldring 47
70569 Stuttgart
Deutschland
Funktion: Akademischer Mitarbeiter

 

Forschungsschwerpunkt
Hochdynamische Strommessung in der Leistungselektronik

 

Ansprechpartner für
Strommesszangen

 

Veröffentlichungen
[1] N. Tröster, T. Eisenhardt, M. Zehelein, J. Wölfle, J. Ruthardt, J. Roth-Stielow: "Improvements of a Coaxial Current Sensor with a Wide Bandwidth Based on the HOKA Principle", EPE 2018, Riga, Lettland
[2] J. Ruthardt, J. Wölfle, N. Tröster, M. Fischer, J. Roth-Stielow: "Dead Time as a Correction Variable for Junction Temperature Control", EPE 2018, Riga, Lettland
[3] N. Tröster, J. Ruthardt, M. Nitzsche, J. Wölfle, J. Roth-Stielow: "Wide Bandwidth Current Sensor combining a Coreless Current Transformer and TMR Sensors", PCIM 2018, Nürnberg, Deutschland
[4] J. Ruthardt, M. Fischer, J. Wölfle, N. Tröster, J. Roth-Stielow: "Three-Level-Gate-Driver to Run Power Transistors in the Saturation Region for Junction Temperature Control", PCIM 2018, Nürnberg, Deutschland
[5] M. Nitzsche, M. Zehelein, N. Tröster, J. Roth-Stielow. "Precise Voltage Measurement for Power Electronics with High Switching Frequencies", PCIM 2018, Nürnberg, Deutschland
[6] M. Fischer, R. Malić, N. Tröster, J. Ruthardt, J. Roth-Stielow: "Design of a Three-Phase 100 Ampere Linear Amplifier for Power-Hardware-in-the-Loop Machine-Emulation", PEMD 2018, Liverpool, England
[7] N. Tröster, B. Dominkovic, J. Wölfle, M. Fischer, J. Roth-Stielow: "Wide Bandwidth Current Probe for Power Electronics Using Tunneling Magnetoresistance Sensors", PEDS 2017, Honolulu, USA
[8] J. Wölfle, M. Nitzsche, N. Tröster, J. Ruthardt, M. Stempfle, J. Roth-Stielow: "Combination of Two Variables in a Junction Temperature Control System to Elongate the Expected Lifetime of IGBT-Power-Modules", PEDS 2017, Honolulu, USA
[9] N. Tröster, J. Wölfle, J. Ruthardt, J. Roth-Stielow: "High Bandwidth Current Sensor with a low Insertion Inductance based on the HOKA Principle", EPE 2017, Warschau, Polen
[10] J. Wölfle, T. Röser, M. Nitzsche, N. Tröster, M. Stempfle, J. Ruthardt, J. Roth-Stielow: "Model Based Temperature Control System to Increase the Expected Lifetime of IGBT Power Modules Executed on a Neutral Point Diode Clamped Three Level Inverter", EPE 2017, Warschau, Polen
[11] J. Ruthardt, F. Blank, J. Wölfle, N. Tröster, J. Roth-Stielow: "Power Supply with Active Energy Storage to reuse the Braking Energy for Servo Drives", EPE 2017, Warschau, Polen
[12] N. Tröster, D. Bura, J. Wölfle, M. Stempfle, J. Roth-Stielow: "Design of a 300 Amps Pulsed Current Source with Slopes up to 27 Amps per Nanosecond for Current Probe Analysis", PCIM 2017, Nürnberg, Deutschland
[13] J. Wölfle, M. Nitzsche, N. Tröster, M. Stempfle, J. Roth-Stielow: "Comparison of Three Model Based Junction Temperature Control Systems to Increase the Lifetime of IGBT-Power- Modules", PCIM 2017, Nürnberg, Deutschland
[14] M. Stempfle, Y. Han, J. Wölfle, N. Tröster, J. Roth-Stielow: "Influence of Different Switching Frequencies and Modulation Techniques on IPMSM and Inverter Losses Optimizing the Overall Drive Train Efficiency", PCIM 2017, Nürnberg, Deutschland
[15] N. Tröster, D. Beilharz, J. Roth-Stielow: "A novel Algorithm for Position Estimation in Coreless Current Measurement Applications", EPE 2016 ECCE Europe, Karlsruhe, Deutschland