Some embodiments are directed to a connector-type female plug including a body; a module including a plurality of slots, each of the slots configured to receive an end of a strand of a cable and arranged so as to be plugged into by a rear face of the body; a lever pivotably mounted on the body in such a way as to be able to move between an open position and a closed position attained after lowering the lever in such a way as to grasp a rear face of the module and to push same into a completely plugged-in position; and a lock that can move along a sliding mechanism between a locked position, in which the lock is arranged in such a way as to hold the lever in the closed position, and an unlocked position.

Some embodiments are directed to a connector-type female plug including a body; a module including a plurality of slots, each of the slots configured to receive an end of a strand of a cable and arranged so as to be plugged into by a rear face of the body; a lever pivotably mounted on the body in such a way as to be able to move between an open position and a closed position attained after lowering the lever in such a way as to grasp a rear face of the module and to push same into a completely plugged-in position; and a lock that can move along a sliding mechanism between a locked position, in which the lock is arranged in such a way as to hold the lever in the closed position, and an unlocked position.

A cable terminating assembly for terminating a cable having a wire includes a wire manager having an end face facing in an insertion direction and a connector housing with a reception opening receiving at least a part of the wire manager. The end face holds the wire in a predetermined position along the insertion direction. The connector housing has a cutting blade formed by an electrically insulating material. The cutting blade cuts the wire upon insertion of the wire manager into the connector housing.

An electrical component includes a housing having a mounting end configured to be mounted to a structure and an electrical shield held by the housing and providing electrical shielding. The electrical shield is configured to be electrically grounded to the structure. The electrical shield has a mounting tab having a mounting area including an opening therethrough and a grounding feature in the mounting area near the opening. The grounding feature is configured to cut through a coated surface of the structure to directly engage a conductive layer of the structure to electrically connect the electrical shield to the structure through the coated surface.

An electrical component includes a housing having a mounting end configured to be mounted to a structure and an electrical shield held by the housing and providing electrical shielding. The electrical shield is configured to be electrically grounded to the structure. The electrical shield has a mounting tab having a mounting area including an opening therethrough and a grounding feature in the mounting area near the opening. The grounding feature is configured to cut through a coated surface of the structure to directly engage a conductive layer of the structure to electrically connect the electrical shield to the structure through the coated surface.

A plug connector device includes one or more wiring block(s) which is provided for receiving one or more multi-wire data cable(s). The wiring block includes one or more receiving region(s) for receiving one or more wire(s) of the multi-wire data cable(s). The receiving region is at least partly delimited by one or more receiving element, which is at least partly deformable. The one or more receiving element(s) includes one or more first receiving piece(s), which is implemented at least partly elastically and/or plastically deformable. The receiving region(s) includes one or more second receiving piece(s) including one or more holding lug(s), which is at least partly provided for fastening respectively one wire of the multi-wire data cable(s) in a form-fit manner. The first receiving piece at least partly has a first rigidity, the second receiving piece at least partly has a second rigidity different from the first rigidity.

A plug connector device includes one or more wiring block(s) which is provided for receiving one or more multi-wire data cable(s). The wiring block includes one or more receiving region(s) for receiving one or more wire(s) of the multi-wire data cable(s). The receiving region is at least partly delimited by one or more receiving element, which is at least partly deformable. The one or more receiving element(s) includes one or more first receiving piece(s), which is implemented at least partly elastically and/or plastically deformable. The receiving region(s) includes one or more second receiving piece(s) including one or more holding lug(s), which is at least partly provided for fastening respectively one wire of the multi-wire data cable(s) in a form-fit manner. The first receiving piece at least partly has a first rigidity, the second receiving piece at least partly has a second rigidity different from the first rigidity.

A telecommunications plug includes a housing having an insertion portion sized to be received in a telecommunications jack, and a circuit board at least partially disposed within the housing. The circuit board includes a plurality of contacts exposed through the insertion portion to electrically connect to contact springs of the telecommunications jack and a plurality of wire connections receiving wires of a telecommunications cable. The plug further includes a switching mechanism movable relative to the circuit board and configured to switch between first and second positions, wherein the first and second positions selectably provide capacitive crosstalk between wire pairs within the plug.

A telecommunications plug includes a housing having an insertion portion sized to be received in a telecommunications jack, and a circuit board at least partially disposed within the housing. The circuit board includes a plurality of contacts exposed through the insertion portion to electrically connect to contact springs of the telecommunications jack and a plurality of wire connections receiving wires of a telecommunications cable. The plug further includes a switching mechanism movable relative to the circuit board and configured to switch between first and second positions, wherein the first and second positions selectably provide capacitive crosstalk between wire pairs within the plug.

An adapter assembly includes an elongated body, a switch, a sensor link, and an annular member. The elongated body includes a proximal portion configured to couple to a handle assembly and a distal portion configured to couple to a surgical loading unit. The switch is configured to be toggled in response to the surgical loading unit being coupled to the distal portion of the adapter assembly. The sensor link is disposed within the distal portion of the adapter assembly and biased toward a distal position. The sensor link is longitudinally movable between a proximal position and the distal position. The annular member is disposed within the distal portion and is rotatable between a first orientation, in which the annular member prevents distal movement of the sensor link, and a second orientation, in which the sensor link moves distally to toggle the switch.