Transient Response Analysis: Time and Cost Effective Battery Assessment

Commentary Contributed by Dong Woon Kim, M.Sc., Engineer, McScience, Inc.

June 6, 2018 | Electrochemical impedance spectroscopy (EIS), also called Frequency Response Analysis (FRA), is widely used for detailed analysis of battery capability. EIS is a non-invasive technique used to assess secondary battery performance and electrochemical characteristics by measuring resistance and capacitance at various frequencies. Read more about Transient Response Analysis: Time and Cost Effective Battery Assessment

Improve Tab to Terminal Connections in Battery Pack Manufacturing

Geoff Shannon, Amada Miyachi America, Inc.

Battery packs have become an integral part of everyday life, powering a growing range of portable electronic devices, cordless power tools, energy storage, and hybrid and electric vehicles. Tab to terminal connection welding is one of the key battery pack manufacturing applications. Manufacturers need equipment, systems, and automated lines that meet quality and production requirements for these products. Both resistance and laser products are well suited to integration into production lines that may be either standalone or automated operation. To maintain the required throughput that offers high quality and yields, users must have a clear understanding of which process is best for the particular battery pack size, tab and terminal material, type, and thickness. In addition, the selected process and integration solution should include process monitoring, process data management, and weld quality assessment. Read more about Improve Tab to Terminal Connections in Battery Pack Manufacturing

Improve Tab to Terminal Connections in Battery Pack Manufacturing

Geoff Shannon, Amada Miyachi America, Inc.

Battery packs have become an integral part of everyday life, powering a growing range of portable electronic devices, cordless power tools, energy storage, and hybrid and electric vehicles. Tab to terminal connection welding is one of the key battery pack manufacturing applications. Manufacturers need equipment, systems, and automated lines that meet quality and production requirements for these products. Both resistance and laser products are well suited to integration into production lines that may be either standalone or automated operation. To maintain the required throughput that offers high quality and yields, users must have a clear understanding of which process is best for the particular battery pack size, tab and terminal material, type, and thickness. In addition, the selected process and integration solution should include process monitoring, process data management, and weld quality assessment. Read more about Improve Tab to Terminal Connections in Battery Pack Manufacturing