A separable clasp connector is provided that has first and second parts that are pivotable with respect to one another by a die set. The clasp connector includes one or more die alignment features to ensure proper alignment with the die set so as to apply an unlocking force in a predetermined direction. Die sets and methods also provided to move a separable clasp connector back-and-forth among a locked position and an unlocked position.

A separable clasp connector is provided that has first and second parts that are pivotable with respect to one another by a die set. The clasp connector includes one or more die alignment features to ensure proper alignment with the die set so as to apply an unlocking force in a predetermined direction. Die sets and methods also provided to move a separable clasp connector back-and-forth among a locked position and an unlocked position.

In accordance with embodiments of the present disclosure, a connector may include a housing and an electrically-conductive pin housed in the housing and configured to electrically couple to a corresponding electrically-conductive conduit of an information handling resource comprising the connector. The pin may include a beam extending from the housing and a stub terminating the pin, the stub having a per-unit-length surface area greater than that of the beam.

In accordance with embodiments of the present disclosure, a connector may include a housing and an electrically-conductive pin housed in the housing and configured to electrically couple to a corresponding electrically-conductive conduit of an information handling resource comprising the connector. The pin may include a beam extending from the housing and a stub terminating the pin, the stub having a per-unit-length surface area greater than that of the beam.

An electrical connector has a first wafer having a first housing with a first plurality of contact beams extending from the first housing in a first plane. A second wafer has a second housing with a second plurality of contact beams extending from said second housing in a second plane substantially parallel to the first plane. A dividing panel member extends from the insulative housing between the first plurality of contact beams and the second plurality of contact beams. Each of the contact beams extending from the wafer pair is configured to mate with a corresponding backplane contact in a backplane connector. The contact beams extending from the wafer pair and the backplane contacts are configured such that each pair of corresponding contacts includes a first contact point and a second contact point. When the wafer pair is fully received by the backplane connector, contact between the contact beam and the backplane contact is maintained at both the first and second contact points. Each of the contact beams includes a pivot member configured such that the electrical connector has a low initial insertion force, but a high normal force when fully mated with the backplane connector.

Locking structure includes a first connector, a second connector, a locking member, a sliding member, and a holding member. The first connector includes a first cavity and a first protrusion in the first cavity. The second connector includes a second cavity and a second protrusion in the second cavity. The locking member is slidably received in the second cavity and extends into the first cavity. A peripheral wall of the locking member defines a fastening groove. The sliding member extends into the second cavity and abuts the locking member to drive the locking member to move toward the first protrusion and the second protrusion so that two opposite side walls of the fastening groove press against opposite sides of the first protrusion and the second protrusion. The sliding member defines a latching slot. The holding member includes a latching member for latching in or disengaging from the latching slot.

A shielded electrical connector assembly includes an electromagnetic shield integrally formed from a single sheet of conductive material. The shield has a main wall and four side walls surrounding the main wall. The shield defines an opening opposite the main wall having an opening perimeter that is greater than or equal to a main wall perimeter. One of the four side walls defines at least one side wall opening that is configured to receive a shielded wire cable. A method of manufacturing the shielded electrical connector assembly includes the steps of providing a single planar sheet of conductive material, providing a die and a punch, forming the sheet into a cupped shape having a main wall and four side walls surrounding the main wall using the die and the punch, and forming a side wall opening in one of the four side walls.

A connector part includes: a plurality of hermaphroditic contact elements for contacting associated hermaphroditic contact elements of a mating connector part, each of the plurality of hermaphroditic contact elements having a body, a first contact lug extending from the body along a first direction, and a second contact lug extending from the body along the first direction. The first contact lug and the second contact lug are offset from each other along a second direction that extends transversely to the first direction, and along a third direction that extends transversely to the first direction and transversely to the second direction. The connector part has, for each hermaphroditic contact element, a hermaphroditic contact element mirror-inverted to a first mirror plane spanned by the first direction and the third direction and a hermaphroditic contact element mirror-inverted to a second mirror plane spanned by the first direction and the second direction.

A connector part includes: a plurality of hermaphroditic contact elements for contacting associated hermaphroditic contact elements of a mating connector part, each of the plurality of hermaphroditic contact elements having a body, a first contact lug extending from the body along a first direction, and a second contact lug extending from the body along the first direction. The first contact lug and the second contact lug are offset from each other along a second direction that extends transversely to the first direction, and along a third direction that extends transversely to the first direction and transversely to the second direction. The connector part has, for each hermaphroditic contact element, a hermaphroditic contact element mirror-inverted to a first mirror plane spanned by the first direction and the third direction and a hermaphroditic contact element mirror-inverted to a second mirror plane spanned by the first direction and the second direction.

A hermaphroditic connector for use in single or multiple twisted-pair connectivity applications is constructed using a small number of parts having a simple but durable assembly. The connector housing comprises an elongated form factor that, when mated with a similar hermaphroditic connector, forms a rigid overlapping shield around the electrical contacts of the two connectors. While unmated, the conductive tines within the connector have a default curved profile that facilitates reliable connectivity with tines of a mating connector. When the connector is mated with a similar connector, the tines are deformed to a flatter profile by support plates within the connectors, yielding a shape more conducive to high-frequency signal applications. The shape of the tines also yields multiple in-line redundant contact points to ensure reliable connectivity without adding to the width of the connector.