EV Powertrain Design & Architectures: How can efficiency and performance of EV powertrain systems be enhanced? What are best practices for integrating inverters, converters, and thermal management systems? How can advanced control algorithms optimize energy usage in powertrains?
E-Motor Technologies & Innovations: How do hairpin winding and concentrated winding compare in terms of motor performance? What new materials and manufacturing techniques are reducing costs and improving efficiency? What are the latest developments in e-motor design and topologies, and how can they be optimized at the system level?
Lightweight E-Machines: What materials and designs are used to create lightweight e-machines? How can power density and torque density be maximized while reducing costs? What are the trade-offs involved in designing lightweight e-machines for EVs?
Thermal Management in EV Systems: What are the latest advancements in thermal simulation tools for e-powertrain components? How can cooling strategies be optimized for inverters, converters, and e-motors? What are the best practices for managing thermal loads in hybrid systems?
Noise, Vibration, Harshness: What are the key NVH challenges in EV powertrains? How can the interaction between powertrain and brake systems be optimized to reduce NVH? What strategies can be implemented to address NVH issues in EVs?
Converter & Power Delivery: What are the benefits of using variable inductors in DC-DC converters for EVs? How can performance and efficiency of DC-DC converters be maximized in powertrain systems? What design considerations are essential for integrating converters into EV architectures?