FCI, a leading supplier of power products and interconnect systems, and 3M have entered into a second-source agreement covering the High Power Card Edge (HPCE ®) and HP2 ™ power product families.
“We are excited about this opportunity,” said Dong Yu, global power portfolio director at FCI. “Working with 3M will drive the standard for low-profile, high-efficiency power connectors and cable assemblies. HPCE already has great traction in the market and HP2 will further extend the family with innovative, two-piece solutions for board-to-board and cable-to-board applications.”
“3M is extremely pleased to work with FCI by providing the industry with a second source of FCI’s innovative HPCE and HP2 power connectors and cable assemblies,” said David Schneider, global business manager for interconnect, 3M Electronic Solutions Division. “FCI’s expertise in power product design and 3M’s expertise in connector technology and material science is a good match to offer a standard, dual-sourced power solution.”
The HPCE connector is a next-generation power card edge connector for demanding applications requiring high linear current density and low power loss. HPCE offers a low profile height (2.8 mm for straddle mount and 7.5 mm for right angle) and is based on very cost-effective and highly reliable stamped-and-formed power contact technology similar to other power solutions from FCI.The HPCE connector incorporates an innovative power contact and housing design that permits a more compact and lower profile package for demanding AC and DC power supply and/or add-in card applications. HPCE’s low profile height (for maximized airflow), significantly increased linear current density and low contact resistance characteristics are ideal for next generation 1U/2U servers, storage enclosures, telecommunications equipment and datacom/networking equipment. The innovative HPCE cable-to-card edge is available with the same desirable features as the standard HPCE board mount product but is focused on power distribution applications via cabling. It includes high power (10 – 14 AWG wire) and low power (14 – 16 AWG wire) contact options as well as integrated signal contacts (22 – 26 AWG wire). The modular tooling approach maximizes flexibility to meet a wide range of power distribution requirements including bus bar attachment. The integrated latching option makes it ideal for high shock-and-vibration environments.