A connector includes two insulators which hold contacts connected to lead wires and are arranged on two surfaces of a base end portion of a ceramic element, two spring components which have flat plate portions located on respective outer surfaces of the two insulators and spring portions supported by the flat plate portions, and a cylindrical sleeve. Each spring portion has an inclined surface which inclines in a movement direction in which the sleeve moves toward the spring components. Each spring portion is elastically deformed by the sleeve hanging over the spring portion. The two insulators hold the base end portion from two sides by being pushed by the flat plate portions in directions in which the two insulators are brought closer to each other. The contacts are pushed against the terminal electrodes.

A hermetically-sealed edge-connect header that can withstand high temperatures, high pressures (or high vacuum levels), and high vibration environments, along with two corresponding connectors are disclosed. After brazing the edge-connect header components, the assembly is machined to form a slot with a portion of each of a plurality of electrical conductors removed in the machining process, resulting in a header with a high pin density. During the process of mating the first connector design to the edge-connect header, a plurality of wipers in the connector deflect, thereby causing the wipers to extend from the connector and contact the corresponding electrical conductors in the header. During the process of mating the second connector design to the edge-connect header, each of a plurality of wipers formed of low-mass, compliant metal wool, forms multiple contact points with a corresponding electrical conductor in the header.

A connector includes two insulators which hold contacts connected to lead wires and are arranged on two surfaces of a ceramic element, a spring component which includes two cantilever-shaped spring pieces and has a flexed portion at a middle portion of each spring piece, and a cylindrical sleeve. The two spring pieces are located over two outer surfaces of the two insulators, and are elastically deformed toward the two insulators by the sleeve hanging over the two spring pieces. The two insulators pushed by the flexed portions of the two elastically deformed spring pieces hold the ceramic element from two sides to push the contacts against the terminal electrodes.

A double wiping blade contact assembly has a blade contact and a double wiping contact. The double wiping contact has first and second stage contact wiping areas. The second stage being at a distance from the first stage and wherein the first stage contact wiping area has an upper lead-in flange that guides the blade contact under the first stage contact wiping area and the second stage contact wiping area has a lower lead-in flange that guides the blade contact over the second stage contact wiping area.

A stiffener includes a first upper cover and a second upper cover, a first lateral side cover and a second lateral side cover, and a first longitudinal side cover and a second longitudinal side cover. The first and second upper covers extend in parallel with each other. The first and second lateral side covers are connected to separate, respective covers of the first and second upper covers, and facing each other. The first and second longitudinal side covers are each connected to the both first and second upper covers, the first and second longitudinal side covers facing each other. The first and second upper covers each include a separate plurality of upper elastic portions. Each upper elastic portion of each separate plurality of upper elastic portions has a vertical elasticity.

A stiffener includes a first upper cover and a second upper cover, a first lateral side cover and a second lateral side cover, and a first longitudinal side cover and a second longitudinal side cover. The first and second upper covers extend in parallel with each other. The first and second lateral side covers are connected to separate, respective covers of the first and second upper covers, and facing each other. The first and second longitudinal side covers are each connected to the both first and second upper covers, the first and second longitudinal side covers facing each other. The first and second upper covers each include a separate plurality of upper elastic portions. Each upper elastic portion of each separate plurality of upper elastic portions has a vertical elasticity.

A hermetically-sealed edge-connect header that can withstand high temperatures, high pressures (or high vacuum levels), and high vibration environments, along with two corresponding connectors are disclosed. After brazing the edge-connect header components, the assembly is machined to form a slot with a portion of each of a plurality of electrical conductors removed in the machining process, resulting in a header with a high pin density. During the process of mating the first connector design to the edge-connect header, a plurality of wipers in the connector deflect, thereby causing the wipers to extend from the connector and contact the corresponding electrical conductors in the header. During the process of mating the second connector design to the edge-connect header, each of a plurality of wipers formed of low-mass, compliant metal wool, forms multiple contact points with a corresponding electrical conductor in the header.

A cable socket connector assembly for an electronic system includes a socket assembly having a socket substrate including socket substrate conductors. The socket assembly has socket contacts extending between terminating ends and mating ends with the terminating ends terminated to corresponding socket substrate conductors and the mating ends configured to be terminated to corresponding package contacts of an electronic package of the electronic system. The cable socket connector assembly includes a cable assembly terminated to the socket assembly having an array of cables each having a cable conductor terminated to a corresponding socket substrate conductor. The socket contacts and the corresponding socket substrate conductors define electrical paths between the cable conductors of the cables and the package conductors of the electronic package.

A cable socket connector assembly for an electronic system includes a socket assembly having a socket substrate including socket substrate conductors. The socket assembly has socket contacts extending between terminating ends and mating ends with the terminating ends terminated to corresponding socket substrate conductors and the mating ends configured to be terminated to corresponding package contacts of an electronic package of the electronic system. The cable socket connector assembly includes a cable assembly terminated to the socket assembly having an array of cables each having a cable conductor terminated to a corresponding socket substrate conductor. The socket contacts and the corresponding socket substrate conductors define electrical paths between the cable conductors of the cables and the package conductors of the electronic package.

A hermetically-sealed edge-connect header that can withstand high temperatures, high pressures (or high vacuum levels), and high vibration environments, along with two corresponding connectors are disclosed. After brazing the edge-connect header components, the assembly is machined to form a slot with a portion of each of a plurality of electrical conductors removed in the machining process, resulting in a header with a high pin density. During the process of mating the first connector design to the edge-connect header, a plurality of wipers in the connector deflect, thereby causing the wipers to extend from the connector and contact the corresponding electrical conductors in the header. During the process of mating the second connector design to the edge-connect header, each of a plurality of wipers formed of low-mass, compliant metal wool, forms multiple contact points with a corresponding electrical conductor in the header.