Predicting the impact of automotive power electronics topology on e-powertrain performance
Accelerate inverter technology choice and thermal design innovation for improved efficiency and reliability
Power electronics modules for vehicle propulsion play an important role in the success of automotive electrification. OEMs are looking for new technologies and innovations to get the optimal power conversion efficiency set by the performance requirements. Decisions need to integrate the variety of circuit topologies and semiconductor technologies (SiC MOSFET, Sis, etc.) to provide the appropriate voltage levels, as well as the appropriate thermal management system (might it be cold plate, double-side or liquid pin cooling). The combination of those elements will impact the vehicle’s performance during integration with regards to reliability, energy consumption, power and thermal safety. Hence, it is critical to explore the design space early in the development cycle and avoid later performance failure.
This webinar introduces how a continuous digital thread will enable you to explore design possibilities, assess performance levels from component choices to integration, and make the right decisions weighting performances, energy consumption and thermal safety.
Comparing different wide-bandgap (WBG) semiconductors and inverter’s thermal management systems
In this webinar, we explain how to:
- Run thermal and electrical characterization of an electric vehicle’s inverter
- Integrate Reduced Order Models of the inverter into integrated vehicle simulation platform
- Assess the impact of different semiconductors, inverter cooling system, voltage levels on vehicle performance
About the speakers
Product Manager, Siemens Digital Industries Software
Byron is a Product Manager for the Simcenter Flotherm product line at Siemens Digital Industries Software. Byron received a bachelor’s degree in Mechanical Engineering from the Technical University of Nova Scotia in 1998 and a Master’s degree from the University of Alberta in 2000.
Business Developer, Siemens Digital Industries Software
Romain Nicolas ist für Systemsimulation in der Schwermaschinenindustrie zuständig. Er begann seine berufliche Laufbahn 2011 als Ingenieur für Steuerungssysteme bei der Volvo Group. Er entwickelte dort eine Plattform für die Verifizierung von Steuerungsalgorithmen, leitete als Systemverantwortlicher verschiedene Projekte und arbeitete als Softwareentwickler mit der agilen Methode. Er hat einen Abschluss in Maschinenbau von der ESTACA Paris und einen M. Sc.-Abschluss von der IFP School.