高效能電源模組推動電池生命週期的發展
瞭解電池的生命週期,以及如何使用高效能、功率密度高的模組來降低成本、减小體積和提高效率
Conserving energy and increasing throughput in all stages of the battery lifecycle
Maximizing throughput
To minimize capital equipment costs, a large increase in operational capability must be accomplished without expanding existing equipment footprints or facilities.
Recycling energy drives lower costs
To be competitive in the market, it’s necessary to recycle as much of the power used in the battery formation, testing and recycling processes to be as efficient and cost-effective as possible.
通過功率密度實現最大輸送量和可靠性
手心裏的千瓦電源
With industry leading power density, the three compact modules shown are capable of handling up to 6kW of power which is significantly higher than the closest competitive solution. Our high performance power modules provide the flexibility and scalability to design and manufacture systems that form, test and recycle a greater number of devices in parallel without having to expand operational footprint.
模組化供電方案
高效能電源模組
使用密度高達 5 倍的最小化電源模組,模組化方法可使用更少的基板,從而可為其他功能留出更多空間。高效率模組不僅需要更簡單的散熱管理,而且還支持靈活、可擴充的設計,可使設計與更新更便捷。
高效率供電網路
與複雜的分立式解決方案及死板的“銀盒”電源系統不同,使用電源模組的供電網路,設計和實施都非常簡單、快捷。 通過更換或新增模組,可以很容易適應新負載或設計電源中的需求變化。
