We also develop innovative new manufacturing, testing and control methods. Examples are:

• Algorithms for SOx determination in high-voltage batteries
• Charge improvement on two-cylinder TDI engines
• Concept development for an oxygen engine
• Decentralized self-coordination and motion optimization of modular actuators
• Design and simulation of fluidic oscillators for combustion engines
• Improvement of the adhesion of metallic layers to plastics
• Improvement of the cooling potential of gasoline engines through optimized water injection
• Innovative paste application method
• Method for evaluating charging concepts in hybrid powertrains
• Model development for an electric compressor
• Model development for the simulation of complex states in cable systems
• Numerical detection of battery cell aging
• Optimization of methods / experimental set-up to measure AC losses in Milliken conductors
• Optimization of the membrane air bearing technology
• Parameter and process analysis of Ultrasinth granules
• Prediction of flow noise in pipelines
• Procedure for the diagnosis and maintenance of 110 kV gas pressure cables
• Pump limit determination on the motor
• Simulation tool for predicting the quality of acoustic dampers
• Specific design and manufacture of 6GS/ADCs
• Test procedure for ball bearing axial bearings of turbochargers
• Use of fluidic oscillators in gas turbines
• Wideband high-swing CMOS GaN driver with > 4Vpp swing