A connector assembly includes a card connector and a first backplane connector. The card connector includes a first terminal module, a second terminal module and a circuit board card. The circuit board card connects the first terminal module and the second terminal module to form a receiving cavity. The first backplane connector is received in the receiving cavity. The present disclosure can make full use of space to improve space utilization of the connector assembly.

A stiffener device is suitable for use with an assembly that includes an electronic mother board, an electronic daughter board, a connector for connecting the daughter board parallel to the mother board, and an element for holding in position the daughter board in relation to the mother board. The stiffener device has a main clamp configured to hold tightly the upper surface and the lateral vertical surfaces of the connector.

A stiffener device is suitable for use with an assembly that includes an electronic mother board, an electronic daughter board, a connector for connecting the daughter board parallel to the mother board, and an element for holding in position the daughter board in relation to the mother board. The stiffener device has a main clamp configured to hold tightly the upper surface and the lateral vertical surfaces of the connector.

A computing card for an information handling system, the computing card system including a computing card, including: a first side including: a first body surface, the first body surface including a first plurality of conductive pads configured to connect respectively with a first set of pins of a computing card receptacle; a first indented surface configured to connect with a second set of pins of the computing card receptacle; a first connecting surface defined between the first body surface and the first indented surface; a bottom surface; and a plurality of internal layers, wherein one or more of the internal layers are exposed at the first indented surface, and are connected to the bottom surface.

Providing a housing including an insulating material and a terminal integrated with the housing and including a conductive material, wherein the housing includes a protrusion extending in the longitudinal direction of the connector, the terminal includes a plate portion that extends in the vertical direction, the surface thereof exposed to one side surface of the protrusion; an opposing plate portion that extends in the vertical direction, the surface thereof exposed to another side surface of the protrusion; a coupling portion that couples the upper end of the plate portion and the upper end of the opposing plate portion; and a securing portion connected to the lower end of the plate portion, and a stepped portion is formed at the boundary of the surface of the plate portion and the surface of the coupling portion and the surface of the securing portion is covered by the insulating material.

Electrical connection system comprising a primary connection device and a secondary connection device, the primary connection device comprising a shielded cap and primary conductive contacts which extend at least partially inside the shielded cap, the secondary connection device comprising a secondary electrical board which has a secondary mass surface, secondary conductive contacts which extend from an installation surface of the secondary electrical board which is surrounded by the secondary mass surface, and a resilient conductive material which is attached to the secondary mass surface, the electrical connection system being arranged so that the primary conductive contacts are electrically connected to the secondary electrical contacts inside the shielded cap and the shielded cap extends on the resilient conductive material by compressing it.

Provided is a matable electrical connection structure including a female connection member and a male connection member respectively including a plurality of first connection portions and a plurality of second connection portions, and a plurality of matable connection portions configured to detachably couple the female connection member and the male connection member, and respectively and electrically connect the plurality of first connection portions to the plurality of second connection portions, and the matable connection portions include inner conductive materials respectively and electrically connected to the plurality of first connection portions and provided on inner walls of a plurality of insertion holes formed in the female connection member, columns respectively and electrically connected to the plurality of second connection portions and configured to protrude from the male connection member to be inserted into the insertion hole, and elastic fins configured to extend outside the column to elastically contact the inner conductive material, and at least one of the female connection member and the male connection member is divided into a plurality of areas, and the plurality of matable connection portions are disposed to form a group in each of the areas.

Provided is a matable electrical connection structure including a female connection member and a male connection member respectively including a plurality of first connection portions and a plurality of second connection portions, and a plurality of matable connection portions configured to detachably couple the female connection member and the male connection member, and respectively and electrically connect the plurality of first connection portions to the plurality of second connection portions, and the matable connection portions include inner conductive materials respectively and electrically connected to the plurality of first connection portions and provided on inner walls of a plurality of insertion holes formed in the female connection member, columns respectively and electrically connected to the plurality of second connection portions and configured to protrude from the male connection member to be inserted into the insertion hole, and elastic fins configured to extend outside the column to elastically contact the inner conductive material, and at least one of the female connection member and the male connection member is divided into a plurality of areas, and the plurality of matable connection portions are disposed to form a group in each of the areas.

Provided is a method of manufacturing an electrical connection structure which includes a female connection structure having an inner conductive material inside an insertion hole of a female connection member, and a male connection structure having a conductive column configured to be inserted into and fixed to the insertion hole to be in contact with the inner conductive material, and formed to protrude from a male connection member. The method includes preparing insulating members used for the female connection member and the male connection member, and forming the inner conductive material and the column by patterning a conductive material on each of the insulating member using a photolithography process.

To provide an electric component socket in which a pressing surface of a pressing member is prevented from contacting a contact pin when the socket is pressed by the pressing surface in a state where a first electric component is not housed in the socket. A pressing surface of a pressing mechanism contacts a first electric component when the pressing mechanism is moved downward in a state where the first electric component is housed in a plate. On the other hand, when the pressing mechanism is moved downward in a state where the first electric component is not housed in the plate, a push-up member is lifted up with the plate to push up the pressing surface. Therefore, the pressing surface is moved upward to prevent the pressing surface from contacting the contact pin.