Summary
- Explore critical dust and fume control strategies in Li-ion battery manufacturing
- Discuss key design considerations such as centralized and decentralized systems
- Advantages of a hybrid approach for flexibility in future battery technology advancements
- Cover a range of dust collector types suited for different applications in battery manufacturing
- Join the Virtual Conference on EV Engineering to learn more about various topics in the EV engineering supply chain and ecosystem.
Article
The presentation discusses critical dust and fume control strategies in Li-ion battery manufacturing, focusing on key design considerations such as centralized systems for mixing and coating processes, as well as decentralized solutions like small, process-specific collectors for cell manufacturing. The advantages of a hybrid approach, which offers flexibility for future advancements in battery technology, are also highlighted. Various dust collector types are explored, including large cartridge collectors for centralized systems and plug-and-play cartridge collectors for localized applications, showcasing their suitability for different stages of the battery manufacturing process.
The Virtual Conference on EV Engineering, presented by Donaldson, will cover a range of sessions including the implementation of a dynamic voltage control within an X-in-1 powertrain domain controller. The grouping of electric power control functions in powertrain domain controllers allows for system downsizing, weight reduction, bill of material reduction, and more affordable powertrain systems for NEVs. The Adaptive Control Solution from Intel Automotive, featuring the ACU U310 chip and Adaptive Control App software platform, will be explored in detail to understand how it ensures freedom of interference among multiple applications within a single chip and enables energy savings through real-time energy supervision, dynamic voltage scaling, and optimal control strategies.
The conference content, scheduled to be broadcast live on March 10-13, 2025, will encompass the entire EV engineering supply chain and ecosystem. Topics to be covered include motor and power electronics design and manufacturing, cell development, battery systems, testing, powertrains, thermal management, circuit protection, wire and cable, EMI/EMC, and more. Attendees can expect to gain insights into the latest advancements and innovations in the EV industry, with a focus on sustainability, efficiency, and technological developments that are shaping the future of electric vehicles.
Participants are encouraged to reserve their spot at the Virtual Conference on EV Engineering, as attendance is free. By joining the sessions, attendees will have the opportunity to engage with industry experts, learn about cutting-edge technologies, and network with like-minded professionals in the field of EV engineering. Whether interested in dust and fume control strategies in battery manufacturing or the implementation of dynamic voltage control in powertrain domain controllers, the conference offers a wealth of valuable information and insights to those involved in the electric vehicle industry.
Overall, the Virtual Conference on EV Engineering promises to be a comprehensive and engaging event that will address key challenges and opportunities in the EV engineering sector. With a diverse range of sessions covering various aspects of EV technology, attendees can expect to gain valuable knowledge and practical insights that can help drive innovation and advancements in the field. By participating in this virtual conference, industry professionals, researchers, and enthusiasts can stay informed about the latest trends and developments in electric vehicle engineering, contributing to the ongoing growth and evolution of sustainable transportation solutions. Reserve your spot today to be a part of this exciting event that is poised to shape the future of electric mobility.
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