An electrical ferrule for an electrical cable comprises a body defining a circumferential center portion connecting a first flank and a second flank, the first and second flanks arranged opposite one another in a radial direction of the ferrule. At least one latch or lock is defined on at least one of the flanks for selectively fixing the flanks together and closing the ferrule in a manner in which a diameter of the ferrule may be varied during its installation onto an electrical cable.

A cable connector includes a contact module, wires and grounding bars. The contact module includes a pair of subunits commonly sandwiching a metallic shielding plate. Each subunit includes contacts integrally formed within an insulator, the contacts includes a plurality of differential-pair contacts and grounding contacts alternately arranged with each other. Each contact includes a front contacting section and a rear tail section, the tail sections of the grounding contacts being unified with a transverse bar. Each wire has a pair of inner conductors respectively soldered to the tail sections of the corresponding differential-pair contacts, and an outer braiding layer surrounding the pair of inner conductors and mechanically and electrically connected to the transverse bar. Each grounding bar includes a plurality of rear tabs respectively connected to the braiding layers, and a plurality of front tabs respectively connected to the tail sections of the corresponding grounding contacts.

An electrical connector assembly comprising: an insulative housing with a front mating slot and a rear receiving cavity; a combo contact module assembly received within the receiving cavity and including a sideband contact module sandwiched between a pair of high speed contact modules; each high speed contact module including an upper unit and a lower unit assembled with each other in a vertical direction; each of the upper unit and the lower unit including a front subunit and a rear subunit; each of the front subunit and the rear subunit includes differential pair contacts alternately arranged with grounding contacts in a transverse direction; and a metallic grounding bar discrete from the grounding contacts mechanically and electrically connecting to the grounding contacts.

An electrical connector includes an insulating body and a terminal module. The terminal module includes a first terminal module, a second terminal module, and a shielding piece. The first terminal module includes a number of first conductive terminals. Each first conductive terminal includes a first elastic contact arm and a first tail portion. The second terminal module includes a number of second conductive terminals. Each second conductive terminal includes a second elastic contact arm and a second tail portion. The shielding piece includes a connecting portion and a number of ground terminals. The ground terminals include a number of first ground elastic arms arranged in a same row as the first elastic contact arms and a number of second ground elastic arms arranged in a same row as the second elastic contact arms. As a result, the shielding performance of the electrical connector is improved.

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).

A cable card assembly includes a circuit card and cables terminated to the circuit card. Each cable has signal conductors, an insulator, and a cable shield. The cable card includes conductor holders forward of the insulators manufactured from a dielectric material and having conductor channels that receive the signal conductors. The cable card assembly includes ground shields coupled to the circuit card providing electrical shielding for the cables. Each ground shield includes a side walls and an end wall. The end wall has an end wall connecting portion coupled to the cable shield. The first side wall has a first side wall connecting portion coupled to the cable shield. The second side wall has a second side wall connecting portion coupled to the cable shield.

A cable assembly comprising a termination with at least one conductive, compressible member and a conductive ground shield. The conductive, compressible member may be held within a connector module forming the termination such that the conductive compressive member is pressed against, and therefore makes electrical contact with, both an outer conductive layer of the cable and ground structures within the connector module. In some embodiments, these connections may be formed using a conductive, compressible member with an opening configured to receive the end of the cable therethrough. The conductive ground shield may be configured to compress the conductive, compressible member, and to cause the conductive, compressible member to electrically contact the cable's conductive layer. The conductive, compressible member may be formed from a compressible material and may comprise a plurality of conductive particulates configured to provide electrically conductive paths.

The present invention relates to an electrical shielding member that includes a receiving portion for receiving a cable end of a shielded cable at least partially, wherein the receiving portion is adapted to be in contact with a shielding of the cable, and wherein the receiving portion comprises at least one coupling element, protruding outwardly from the receiving portion. The coupling element is adapted to be coupled to a corresponding coupling element of a network connector housing. The electrical shielding member further comprises an engagement element, protruding inwardly into the receiving portion, wherein the engagement element is adapted to be engaged with the cable. The electrical shielding member further comprises at least one contact beam, extending from the receiving portion, wherein the contact beam is adapted to be electrically connected to a counter electrical shielding member of a counter connector.

A housing for an electrical connector includes a housing body having an opening receiving a cable in an insertion direction and a pair of cable covers hinged to the housing body at a proximal end of each cable cover of the pair of cable covers. The pair of cable covers extend away from the opening. Each of the cable covers is pivoted away from the other cable cover in a cable mounting position and each cable cover is pivoted toward the other cable cover to form a cable support sleeve supporting the cable in an operating position.

A Peripheral Component Interconnect Express/Serial Attached SCSI (PSAS) female connector includes a frame member, a terminal member, and a cover member; the frame member including a terminal groove disposed in the frame member and a tilt portion disposed in the terminal groove adjacent to a plug end; the terminal member inserted in the frame member and including a Serial Advanced Technology Attachment (SATA) 7 pin terminal, a Serial Attached SCSI (SAS) 40 pin terminal, a 15 Pin signal terminal, a 6 Pin terminal, and a 4 Pin terminal. When the PSAS female connector is engaged with the male connector, the SATA 7 Pin terminal and the SAS 40 Pin terminal are pressed by a terminal of the male connector to be bent toward an outer lateral side of the terminal groove to contact the elastic plate of the cover member. The present invention effectively improves the cross interference during high speed transmission, thereby achieving the Generation 5 performance requirement.