(Technical Problem) To provide a lightweight and highly reliable plug connector for high-speed digital multi-channel transmission. (Technical Solution) A rigid substrate of a plug connector includes a base material having a first surface, including a first side and a second side formed opposite the first side, and a second surface formed opposite the first surface, and a plurality of signal transmission patterns configured to transmit a differential signal, and includes a first signal transmission pattern on the first surface, a second signal transmission pattern on the second surface, a third signal transmission pattern on the first surface and adjacent to the first signal transmission pattern, and a fourth signal transmission pattern on the second surface and adjacent to the second signal transmission pattern. Each signal transmission pattern includes a first conductor pattern, a second conductor pattern forming a differential pair, and a third conductor pattern having a fixed potential. Each of the first conductor pattern, the second conductor pattern, and the third conductor pattern includes a terminal portion electrically connected to a terminal of another connector, a pad portion electrically connected to a cable, and a wiring portion electrically connecting the terminal portion and the pad portion. The terminal portion is formed along the first side, and the pad portion is formed along the second side.

A connector assembly (10) is disclosed in which a connector part (12) and a cable manager part (20) are provided. The cable manager part (20) can be provided with a rear housing (40), a lacing fixture part (30), and a grounding part (50). In one aspect, the grounding part (50) provides grounding contact between an inserted cable (4) and the connector part (12). In one aspect, the grounding part (50) secures the connector part (12) to the rear housing part (40). In one example, a connector assembly (110) is provided with a grounding arrangement (150) including a plurality of deflectable grounding members (152) and provides grounding contact between the inserted cable (4) and the connector part (112). In one aspect, the grounding members (152) each provide two points of contact against the cable (4).

An electrical data connector includes a socket having a socket body that defines a plug connector cavity and electrically conductive shields within the cavity. A plug connector has a plug body telescopically slid into the plug connector cavity. The plug body has an insert cavity and adjacent spring openings, each of the spring openings aligning with a respective one of the shields. A cable head has an insert module telescopically slid into the insert cavity. The cable head includes an electrically conductive fixation element that is fixed to the insert module and fixed to a cable. The fixation element includes integral spring elements that extend generally radially outwardly from the insert module and are each configured to extend through respective spring openings into contact with respective shields.

An electrical data connector includes a socket having a socket body that defines a plug connector cavity and electrically conductive shields within the cavity. A plug connector has a plug body telescopically slid into the plug connector cavity. The plug body has an insert cavity and adjacent spring openings, each of the spring openings aligning with a respective one of the shields. A cable head has an insert module telescopically slid into the insert cavity. The cable head includes an electrically conductive fixation element that is fixed to the insert module and fixed to a cable. The fixation element includes integral spring elements that extend generally radially outwardly from the insert module and are each configured to extend through respective spring openings into contact with respective shields.

A connector assembly is provided and includes a guide shielding cage and a heat sink module. The guide shielding cage has at least one insertion space positioned inside. The heat sink module includes a heat dissipating member, a pressure applying elastic member, a lever member and a supporting elastic member, the heat dissipating member has a thermal coupling portion formed downwardly, the pressure applying elastic member is provided at a side face of the heat dissipating member, the lever member is pivoted to the guide shielding cage, the lever member has a pushed end which is used to be pushed and a pressure applying end which is used to downwardly apply a pressure to the pressure applying elastic member, the supporting elastic member upwardly and elastically supports the heat dissipating member. The heat dissipating member is capable of moving between a releasing position which is higher relative to the insertion space and an acting position which is lower relative to the insertion space and where the thermal coupling portion enters into the insertion space.

A connector assembly is provided and includes a guide shielding cage and a heat sink module. The guide shielding cage has at least one insertion space positioned inside. The heat sink module includes a heat dissipating member, a pressure applying elastic member, a lever member and a supporting elastic member, the heat dissipating member has a thermal coupling portion formed downwardly, the pressure applying elastic member is provided at a side face of the heat dissipating member, the lever member is pivoted to the guide shielding cage, the lever member has a pushed end which is used to be pushed and a pressure applying end which is used to downwardly apply a pressure to the pressure applying elastic member, the supporting elastic member upwardly and elastically supports the heat dissipating member. The heat dissipating member is capable of moving between a releasing position which is higher relative to the insertion space and an acting position which is lower relative to the insertion space and where the thermal coupling portion enters into the insertion space.

An aspect of the present disclosure is directed to a connector. The connector is suited to connectorizing exactly two conductors. The connector includes a forward connector body, a rear connector body, a metal frame and exactly two electrical contacts. The rear connector body interfaces with the forward connector body. Further, the metal frame, which includes a shielding interface, surrounds at least a portion of both the forward and rear connector bodies. The electrical contacts extend from the rear connector body into the forward connector body. A first of the electrical contacts is electrically coupled to a first conductor of a shielded cable and the second of the electrical contacts is electrically coupled to a second conductor of the shielded cable. The shield interface of the metal frame is electrically coupled to the shield of the shielded cable.

A connector assembly includes a receptacle connector, a shielding cage and a partitioning element. The shielding cage has a receiving cavity. The partitioning element is provided to the receiving cavity and partitions the receiving cavity into a first module passageway and a second module passageway, the partitioning element includes a compartment frame and a grounding gasket assembled to a front end of the compartment frame, the compartment frame has a first partitioning wall and a second partitioning wall which respectively correspond to the first module passageway and the second module passageway, the grounding gasket integrally has a front plate, a first panel and a second panel, the first panel and the second panel together clamp the first partitioning wall and the second partitioning wall, the first panel and the second panel and the front plate are integrally connected by bulging portions at certain corners.

A connector assembly includes a connector and a cable connected thereto. First and second inner conductor contacts are disposed within an outer conductor sleeve of the connector. The cable has first and second insulated inner conductors. The inner conductor contacts each have a mating portion, for mating with a mating connector, and a connecting portion, in which the inner conductors are connected, with a transition portion extending therebetween. The inner conductor contacts have a first contact spacing in the mating portion and a smaller second contact spacing in the connecting portion. In the transition portion, a transition from the first to the second contact spacing occurs continuously. In an end portion of the cable, the inner conductors are disposed parallel to each other within the outer conductor sleeve and are spaced apart from each other by a conductor spacing equal to the second contact spacing.

A cable connector assembly includes: an electrical connector; a circuit board electrically connected to the electrical connector and including a first row of pads and a second row of pads located behind the first row of pads and separated from the first row of pads; and a cable electrically connected to the circuit board and including plural coaxial wires each including a center conductor and a shielding layer and plural single core wires each comprising a conductor; wherein the center conductors of the coaxial wires are soldered to the first row of pads of the circuit board, and the conductors of the single core wires and the shielding layers of the coaxial wires are soldered to the second row of pads of the circuit board.