In 2021, we invested a new energy factory which specialized in the production of new energy battery connectors. Main products includes laminated copper connectors, copper busbar, aluminium busbar, laminated aluminum busbar, and various kinds of new energy batteries, power equipment transmission connectors.
Copper busbar technology is widely used to achieve electrical connections with power distribution systems due to their flexibility and compactness.
What is the current carrying capacity of copper bus bars?
The current carrying capacity of copper busbar is dependent and the cross sectional area, shape, insulation material, spacing, number of phases, cooling, voltage, AC or DC, and quite a few other factors. It is (like most electrical engineering) not a simple thing to design bus bars.
Are busbars the future of EV battery interconnects?
Today, busbars are already proving to be valuable as battery interconnects, linking the short distances between battery cell modules in modern EVs. As busbars expand beyond the battery, OEMs must weigh design decisions in the context of their full electrical/electronic architectures.
Copper busbars are conductive because copper is one of the most conductive metals. Aside from its relative cheapness, copper busbars have several other advantages over other types of busbars.
Continuing its efforts in the innovation and development of technologies for energy storage applications, Mersen has developed a new laminated bus bar technology called Infini-Cell bus bar that offers a safe, reliable and cost-effective solution for cylindrical and prismatic cells interconnection.
New battery modules are sources of technical challenges where safety, reliability, weight and cost are main drivers. To address these challenges, Mersen, a worldwide expert in electrical power devices, develops and provides new generations of interconnection bus bars, cold plates, and electrical protection devices.