An electrical connector includes a plurality of cylindrical electrical terminals connected to ends of a plurality of first electrical cables, a housing defining a plurality of housing terminal cavities in which the plurality of cylindrical electrical terminals is disposed, and a cover attached to the housing having a plurality of cover cavities that is axially aligned with the plurality of housing terminal cavities. The plurality of cover cavities is configured to receive the plurality of cylindrical electrical terminals as it is inserted within the plurality of housing terminal cavities.

An electrical connector includes a plurality of cylindrical electrical terminals connected to ends of a plurality of first electrical cables, a housing defining a plurality of housing terminal cavities in which the plurality of cylindrical electrical terminals is disposed, and a cover attached to the housing having a plurality of cover cavities that is axially aligned with the plurality of housing terminal cavities. The plurality of cover cavities is configured to receive the plurality of cylindrical electrical terminals as it is inserted within the plurality of housing terminal cavities.

By a simple configuration, contact members can be well retained with a housing in a mutually opposed state, and productivity can be improved. When the contact members in the mutually opposed state are to be attached to the housing, a contact retainer prepared by molding in advance is used by disposing the contact retainer in part of the contact opposed region. As a result, the contact members are stably retained in the mutually opposed state even in injection molding molds. Even in a case in which the contact members normally cannot be retained in the mutually opposed state in the injection molding molds, the housing and the contact members can be integrally molded by well retaining the contact members in the mutually opposed state by using the contact retainer and a contact retainer auxiliary and executing an injection molding process.

A docking station a first connector, a post, and a pop-out cover. The first connector is mounted to float within a first opening of a case of the docking station. The post is in physical communication with the case. The post provides a first alignment between the first connector and a second connector of an information handling system. The pop-out cover is in physical communication with the case and the post. The pop-out cover is biased in a first alignment stage, and transitions from the first alignment stage to a second alignment stage in response to a force exerted on the pop-out cover by a weight of the information handling system. The first connector is joined with the second connector in response to pop-out cover being placed in the second alignment stage.

An electrical receptacle including a body having a first cavity and a second cavity, a plurality of first electrical connections in the first cavity and a plurality of second electrical connections in the second cavity, at least one electrical plug sensing device in the first cavity, and wherein electrical continuity to the plurality of first electrical connections from the plurality of second electrical connections only occurs when the at least one electrical plug sensing device senses a presence of an electrical plug in the first cavity.

A plug receptacle is disclosed, comprising a receptacle housing having a passage configured to receive at least a part of a plug of a plug connector, a front side having a first opening and a top side having a second, elongated opening that intersects the first opening, the passage opening to the front side via the first opening and to the top side via the second opening. The plug receptacle also comprises at least one plug receptacle cover that is reversibly extendable between a cover position and an open position. In the cover position, the at least one plug receptacle cover covers the second opening at least partially. In the open position, at least a part of the at least one plug receptacle cover is extended outwards, so that the at least the part of the plug partially extends through the second opening.

A plug receptacle is disclosed, comprising a receptacle housing having a passage configured to receive at least a part of a plug of a plug connector, a front side having a first opening and a top side having a second, elongated opening that intersects the first opening, the passage opening to the front side via the first opening and to the top side via the second opening. The plug receptacle also comprises at least one plug receptacle cover that is reversibly extendable between a cover position and an open position. In the cover position, the at least one plug receptacle cover covers the second opening at least partially. In the open position, at least a part of the at least one plug receptacle cover is extended outwards, so that the at least the part of the plug partially extends through the second opening.

An electrical connector can include a male blade terminal protector that protects one or more male blade terminals from external objects before, during, and after coupling of the male connector to a female connector. The male blade terminal protector can be slidably disposed within a housing of the male connector and configured to retract when the female connector is coupled to the male connector and extend when the female connector is decoupled from the male connector. The male blade terminal protector is moveable from an extended position to a retracted position when a ledge is disengage from a catch by a ramped surface of a female housing and a retraction tab of the female housing is configured to move the male blade terminal protector from the retracted position to the extended position as the female connector is disengaged from the male connector.

A safety socket device includes a carrier, a first movable assembly and a second movable assembly. The carrier has a first plug hole and a second plug hole. The first movable assembly including a first moving element is transversely movably disposed in the carrier. The first moving element has two first guide portions, and the two first guide portions are moved for exposing the first plug hole from the first moving element by an external pushing force. The second movable assembly including a second moving element is longitudinally movably disposed in the carrier. The second moving element has a second guide portion, and the second guide portion is moved for exposing the second plug hole from the second moving element by the external pushing force.

An assembly includes a light source holding component sized and arranged to securely receive a source of light. The light source holding component may include a displaceable protective device that functions to generally protect against an accidental touching of electrical terminals of the light source holding component. An accessory mounting feature may also be provided to the light source holding component, The accessory mounting feature is adapted to cooperate with an accessory to provide a seal against a surface to which the light source holding component is attached. The light source holding component may have wire ports that are formed within an overall general outer diameter of the light source holding component. By way of example, the wire ports may include wire contacts having wires pre-attached thereto or the wire ports may include electrical connectors of the push-in type for receiving and thereupon holding wires inserted therein.