Power Cable for (n+1) Redundant Power System
Methode was asked to design a power cable to connect two 48 VDC paralleled (n+1), redundant power supplies to a laminated bus bar situated around a sharp bend.
Methode was asked to design a power cable to connect two 48 VDC paralleled (n+1), redundant power supplies to a laminated bus bar situated around a sharp bend.
Methode was approached to design a 25-foot-long electrical cable that is easily shipped and quickly installed to connect hydrogen fuel cells to a power-distribution bus.
Methode was asked to design a connector for charging a robot battery that integrates power and signal contacts, with low mating force that can be blind-mated without human intervention. The connector is also designed to survive over 3,000 charge cycles and still maintain connection integrity.
Methode was tasked with designing an 800VAC, blind-mate panel-mount connector that included thirteen contacts, each rated for 150A.
Methode was approached to create a solution that would replace a customer’s existing expensive power connector that was overheating.
Replacement of a customer’s existing bus bar and wired connections with a more reliable, quick-connect power-distribution system.