We enhance electric vehicles’ efficiency, sustainability and economics by optimizing and accelerating integration from components to entire mobility systems through real-world & lab tests as well as advanced simulations as part of the TUM.Battery network.
Contact: Cristina Grosu, Dr. rer. nat.
In EV Powertrain, research is focused on the high-voltage battery of electric vehicles. How do state-of-the-art battery systems have to be methodically and technically optimized in order to meet the customer requirements of next-gen electric vehicles? We're particularly focusing our current research on battery degradation, battery safety, and ultra-fast charging.
Contact: Jakob Schneider, M.Sc.
EV System Design is all about the vehicle as a system in the conflicting areas of future usage concepts and optimal technical design. How can current and future needs be optimally realized in a vehicle concept while taking ecological, economic and social aspects into account? In doing so, we transfer findings from passenger cars to commercial and special-purpose vehicles in a wide variety of on- and off-road applications.
Contact: Philipp Rosner, M.Sc.
EV Operations creates solutions for the scalable application of electric vehicles - from individual vehicles to entire fleets and all the way from scooters to 40 ton long haul trucks. The eventual user is always at the heart of our analyses. We use big data to determine requirements and needs, design specific (charging) infrastructure for the application geographically and technically, optimize charging strategies both at base and enroute and put our predictions to the test in real world labs to make them tangible for everybody.