EV Powertrain Design & Architectures: How can EV powertrain efficiency and performance be improved? What are best practices for integrating inverters, converters, and thermal management systems? How can advanced control algorithms optimize energy usage?

New E-Motor Technologies: What new materials and manufacturing techniques are reducing costs and improving efficiency? What are the latest developments in e-motor design and topologies?

E-Motor Winding: What advancements in winding technologies are necessary for next-generation e-motors? How do hairpin winding and concentrated winding compare in terms of motor performance?

Lightweight E-Machines: What advanced materials and innovative designs are being developed to create them? 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?

Noise, Vibration, Harshness: What are the key NVH challenges, and what strategies address them? How can powertrain and brake system interactions be optimized to reduce NVH?

Converter & Power Delivery: What are the benefits of using variable inductors in DC-DC converters? How can their performance and efficiency be maximized in powertrain systems? What design considerations are essential for integrating converters into EV architectures?

Inverter Advancements: What inverter innovations will boost power conversion efficiency in EVs? What technologies will improve inverter reliability under high-power conditions?