How to avoid parasitic effects in power electronic assemblies and improve thermal management
Details
Increasing electrification, especially in electric mobility, growing alternative energy generation and growing demands for energy efficiency are setting new standards for power electronics. This results in new challenges for hardware developers: clock rates are getting higher, switching edges steeper, assemblies smaller and development times shorter. In order to master these requirements, it is essential to make the right design decisions at an early stage of development. This is because design has far-reaching consequences, both in terms of electrical and thermal properties and electromagnetic compatibility. Electrical and thermal simulations are reliable tools for making the right decisions.
Agenda
Effects of parasitic in inverter setups
- Connection of intermediate circuit capacitors
- Switching behavior of IGBTs connected in parallel
Electrical-thermal behavior of planar inductors
- Coupled electrical and thermal simulation
Electrical-thermal load cycles of an inverter system
- Effects of PCB heating on DC supply integrity
Target Group
This webinar is aimed at hardware developers, PCB designers and electrical engineers who want to find out how simulation can be used to make the development process more efficient.
Benefits
This webinar will show how simulation can be used to make the development process of power electronic components more efficient. Parasitic effects, their integration into circuit and system simulation and finally thermal aspects are discussed.
Lecturers
Frank Weiand
Do you have questions concerning the webinar?
Germany
Austria
Switzerland / Liechtenstein
Additional offers
The right training, hardware and software add-ons are key to achieving a successful and swift introduction to simulation