Berichte aus dem IAL

On the Application of Active Gate Drivers in Electric Vehicle Traction Inverters

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Reihe: Berichte aus dem IAL

Die Reihenfolge beginnt mit dem Buch "On the Application of Active Gate Drivers in Electric Vehicle Traction Inverters". Wer alle Bücher der Reihe nach lesen möchte, sollte mit diesem Band von Alexander Hoffmann beginnen. Der zweite Teil der Reihe "On the Application of Active Gate Drivers in Electric Vehicle Traction Inverters" ist am 25.08.2025 erschienen. Mit insgesamt 2 Bänden wurde die Reihe über einen Zeitraum von ungefähr 2 Jahren fortgesetzt. Der neueste Band trägt den Titel "On the Application of Active Gate Drivers in Electric Vehicle Traction Inverters".

  • Anzahl der Bewertungen für die gesamte Reihe: 1
  • Ø Bewertung der Reihe: 5
  • Start der Reihe: 18.08.2023
  • Neueste Folge: 25.08.2025

Diese Reihenfolge enthält 2 unterschiedliche Autoren.

Cover: On the Application of Active Gate Drivers in Electric Vehicle Traction Inverters
  • Autor: Wiesemann, Julius Martin
  • Anzahl Bewertungen: 1
  • Ø Bewertung: 5.0
  • Medium: Buch
  • Veröffentlicht: 25.08.2025
  • Genre: Sonstiges

On the Application of Active Gate Drivers in Electric Vehicle Traction Inverters

To combat climate change, a shift towards energy-efficient electric vehicles is necessary. Wide-bandgap semiconductors like SiC enable faster switching, resulting in reduced losses in electric vehicle drive inverters, but also cause increased electromagnetic interference and stress on electric machines. This dissertation investigates the use of active gate drivers to mitigate these effects by controlling the switching speed while accounting for the inverter’s varying operating conditions. The performance of an active gate driver is verified through double pulse tests and compared to conventional drivers and dv/dt filters. The comparison shows that an active gate driver offers advantages over other methods of controlling dv/dt with respect to losses, weight, and volume. A test inverter verifies these findings and demonstrates that the active gate driver also functions in a drive system, controlling switching speed, reducing losses, and limiting EMI.

Cover: Electric Potential Distribution in Three-Phase Windings under Pulse Voltage Stress
  • Band: 4
  • Autor: Hoffmann, Alexander
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  • Medium: Buch
  • Veröffentlicht: 18.08.2023
  • Genre: Sonstiges

Electric Potential Distribution in Three-Phase Windings under Pulse Voltage Stress

This research presents a novel method for predicting the potential distribution in electrical machines with random-wound windings under pulse voltage stress. A non-uniform potential distribution is caused by several factors including the introduction of fast-switching power semiconductors, continued improvements in power module design, the need for higher efficiency, and the integration and downsizing of components in new fields of application, such as electric vehicles and all-electric aircrafts.

The contribution is summarized by answering key research questions, including the need for a distributed equivalent circuit network to capture the high-frequency behavior of the electrical machine, the use of Monte-Carlo calculations to account for parameter uncertainties, and modeling the distribution of conductors inside a stator slot using probability density functions. The investigations into the driving factors for non-uniform potential distributions indicate that the winding-to-stator capacitance and the presence of ohmic losses in the winding and stator iron play a significant role.

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