Continental Engineering Services and GROB Italy
From 2035, with legally binding and increasing market shares leading up to that point, electrified passenger vehicles will become the mainstay technology throughout Europe, Japan, and other primary markets worldwide. These regulations and the accompanying adoption of zero tailpipe powertrain technologies will play a vital role in reaching the goal of net zero by 2050.
In this webinar, experts from Continental Engineering Services and GROB Italy explain how a cooperation between machine design and manufacturing experts can help realise goals of unrivalled performance at a cost that helps automakers meet their goals of a sustainable business as we move through one of the largest transformations the automotive industry has known in its 150-year history.Â
Key topics and takeaways:
- Understand current radial and axial flux topologies
- Gain insight into the benefits of linear winding technologies and their key performance and manufacturing advantages
- Discover how engineering services companies can leverage the advantages of linear winding to design cost effective, high-efficiency machines for mainstream adoption
- Find out about the latest manufacturing technologies that can be implemented in your facilityÂ
International Conference on Electrical Machines – Turin, Italy
Andre Marques Silva, engineer at CES, took the stage at the 26th edition of the International Conference on Electrical Machines (ICEM) in Turin, Italy, held on September 3, 2024. Andre presented on the topic of electric motor design, further reinforcing our commitment to innovation and excellence in this field.Â
The conference, known for bringing together the most influential experts in electrical machines, provided a valuable platform to discuss and share the latest advancements in this specialized area of engineering. This engagement complemented our participation at the Mobex webinar on linear windings, held in collaboration with GROB Italy, allowing us to connect with the electric motor community through both events in the same week.