Provided is a connector including a surrounding wall with an improved strength against an outward force.

The connector of the invention includes a contact that contacts a counter contact of a counter connector, a housing to which the contact is fitted and attached, and a surrounding wall disposed to surround the housing. A gap is provided between the housing and the surrounding wall, and in a connector fitting state, the surrounding wall is in contact with a counter surrounding wall of the counter connector that has entered the gap. The surrounding wall is provided with a protrusion portion protruding outward in a second direction intersecting a first direction, and an end portion on a board side of the protrusion portion in the first direction is in contact with a board.

A connector includes a heat spreader. The heat spreader is configured to direct heat from ports to a thermal plate that is spaced apart from the connector. A plurality of connectors can be supported and a heat spreader can be associated with each connector. One or more thermal plates can be thermally coupled to the corresponding heat spreader(s) so as to direct thermal energy away from each connector. Cold blocks can be used to thermally couple the heat spreader to the corresponding thermal plates.

A connector includes a heat spreader. The heat spreader is configured to direct heat from ports to a thermal plate that is spaced apart from the connector. A plurality of connectors can be supported and a heat spreader can be associated with each connector. One or more thermal plates can be thermally coupled to the corresponding heat spreader(s) so as to direct thermal energy away from each connector. Cold blocks can be used to thermally couple the heat spreader to the corresponding thermal plates.

Disclosed are a wire joint and a manufacturing method thereof. The wire joint includes a wire and a joint; the wire includes a plurality of strands of core wires and a first wire skin, each strand of the core wires is wrapped by the first wire skin, the first wire skin outside the each strand of the core wires is stripped within a threshold interval, the each strand of the core wires in the threshold interval is subjected to a tin-impregnation treatment, and an insulating wire fastener is provided between the each strand of the core wires in the threshold interval; the joint includes a connection section and an extraposition section, the insulating wire fastener is wrapped in the extraposition section, and the connection section is connected at one end of the extraposition section and wraps outside the first wire skin of the plurality of strands of core wires.

A connector comprising a contact, a plunger, and a spring activated seal is provided. The contact is positioned within the housing and configured to transmit at least one of an electrical signal and an optical signal between the connector and a secondary device. The plunger is positioned within the housing and in communication with the contact. The spring activated seal comprises a flexible portion and a spring configured to urge the flexible portion to contact the housing and at least one of the plunger and a contact of the secondary device to form a fluid tight seal therebetween.

The invention relates to an electrical plug-in connection, comprising an electrical connector and a mating electrical connector, which can be connected to the electrical connector. The mating electrical connector has an actuating element, which can be moved between a home position (P.sub.0) and a locking position (P.sub.1) and is designed to cooperate with a guiding element of the electrical connector in such a way that the plug-in connection, proceeding from a pre-latching position, assumes a locked position when the actuation element is moved from the home position (P.sub.0) into the locking position (P.sub.1). The electrical connector has a toothing and the mating electrical connector has a mating toothing, which corresponds to the toothing of the electrical connector, the toothing and the mating toothing mesh with one another in the locked position of the plug-in connection.

The invention relates to an electrical plug-in connection, comprising an electrical connector and a mating electrical connector, which can be connected to the electrical connector. The mating electrical connector has an actuating element, which can be moved between a home position (P.sub.0) and a locking position (P.sub.1) and is designed to cooperate with a guiding element of the electrical connector in such a way that the plug-in connection, proceeding from a pre-latching position, assumes a locked position when the actuation element is moved from the home position (P.sub.0) into the locking position (P.sub.1). The electrical connector has a toothing and the mating electrical connector has a mating toothing, which corresponds to the toothing of the electrical connector, the toothing and the mating toothing mesh with one another in the locked position of the plug-in connection.

A bulkhead may include a fixed body having a first contact surface and an exterior fixed body surface, a first electrical contact, and a first spring having a first spring end in contact with the first contact surface and a second spring end in contact with the first electrical contact.

A shielded electrical connector system for electrically and mechanically connecting a component to a power source is disclosed. The connector system includes a male connector assembly with a male terminal, a non-conductive internal male housing that receives the male terminal, and a conductive external male housing that receives an extent of the internal male housing. This terminal includes a receiver and side walls with a contact arm that extends across an aperture in the side wall. An internal spring member with at least one spring arm resides within the male terminal receiver. A female connector assembly includes a female terminal with a receptacle that receives both the male terminal and the spring member. A non-conductive internal female housing receives the female terminal and an extent of the male connector assembly. A conductive external female housing that receives: (i) an extent of the internal female housing, (ii) an extent of the internal male housing, and (iii) an extent of the external male housing.

An connector assembly includes a connector header configured to be attached to a mounting substrate by a first mounting stud extending through a first aperture defined by the connector header, a connector configured to mate and unmate with the connector header and having a mating assist lever configured to attach and detach the connector to and from the connector header, and a mounting tab defined by the connector and configured to attach the connector to the first mounting stud extending through a second aperture defined by the mounting tab. Methods of assembling such a connector assembly are also provided.