The present application relates to an electrical connector and an electronic product. The electrical connector includes a metal terminal; an insulating body configured to fixing the metal terminal; a metal shield covering an outer side of at least a portion of the insulating body; a metal latch connected to the insulating body, and provided with a ground terminal thereon, and wherein the insulating body, the metal shield, and the metal latch enclose an accommodating space; and a brazing solder disposed at least partially within the accommodating space, and the brazing solder being configured to be melted during welding and to fixedly connect the metal shield and the metal latch after being cooled, such that the metal shield is electrically connect to the metal latch.

A cable retainer insert for a multi-strand cable includes a cable contact portion and a plurality of cable receptacles in the cable contact portion circumferentially spaced from each other. Each of the cable receptacles receives a strand of the multi-strand cable. Each of the cable receptacles has a cable strand insertion opening at a radially outward end and a bottom at an opposite radially inward end. A circle inscribed in each of the cable receptacles and touching the bottom of the cable receptacle extends radially outward beyond the cable strand insertion opening.

A wafer includes a number of conductive terminals and an insulating frame. The conductive terminals include differential signal terminals, a first ground terminal and a second ground terminal. Each conductive terminal includes a connection portion and a contact portion. The connection portions of the differential signal terminals, the first ground terminal and the second ground terminal are located in a first plane. The first ground terminal includes a first torsion portion and the second ground terminal includes a second torsion portion. The contact portion of the first ground terminal and the contact portion of the second ground terminal are both perpendicular to the first plane. This present disclosure can provide better shielding effect, reduce crosstalk and improve the quality of signal transmission. In addition, the present disclosure also relates to a backplane connector having the wafer.

A wafer includes a number of conductive terminals and an insulating frame. The conductive terminals include differential signal terminals, a first ground terminal and a second ground terminal. Each conductive terminal includes a connection portion and a contact portion. The connection portions of the differential signal terminals, the first ground terminal and the second ground terminal are located in a first plane. The first ground terminal includes a first torsion portion and the second ground terminal includes a second torsion portion. The contact portion of the first ground terminal and the contact portion of the second ground terminal are both perpendicular to the first plane. This present disclosure can provide better shielding effect, reduce crosstalk and improve the quality of signal transmission. In addition, the present disclosure also relates to a backplane connector having the wafer.

A wire harness including a wire and a connector, wherein the connector includes a connector main body that is partially or entirely made of a conductive resin or is partially formed by a conductive portion, a shield that is made of a conductive metal and covers a periphery of the connector main body, and a conductive elastic member that is provided between the connector main body and the shield, a circumference of the wire is covered by a tube, the tube including a heat-shrinkable shielding tube having a conductive portion that is configured to surround the circumference of the wire, and in a state in which the tube is attached to an attachment of the connector main body, the conductive portion of the tube, the connector main body, the conductive elastic member, and the shield are electrically connected to each other.

The first connector includes a first inner conductor, a first outer conductor, a first outer conductor cover and a first dielectric. The second connector includes a second inner conductor, a second outer conductor, a second outer conductor cover and a second dielectric. The second outer conductor includes a second outer conductor connecting portion overlapping the first outer conductor in a radial direction. The first outer conductor includes a first outer conductor body portion, a first outer conductor connecting portion for covering the outer periphery of the second outer conductor connecting portion and contacting the second outer conductor connecting portion, and a constricted portion reduced in dimensions from the first outer conductor connecting portion to the first outer conductor body portion. The first outer conductor cover and the second outer conductor cover have the same shape.

A mating module includes a conductive terminal, a cable, a first metal shield member and a second metal shield member. The cable includes a core electrically connected to the conductive terminal, an insulating layer wrapped on the core, and a shielding layer wrapped on the insulating layer. The first metal shield member includes a first mounting piece. The second metal shield member includes a second mounting piece. The cable further includes a protruding piece connected to the shielding layer. The protruding piece is directly or indirectly clamped by the first mounting piece and the second mounting piece. As a result, the shielding effect of the mating module is improved. The present disclosure also relates to a cable connector having the mating module.

A mating module includes a conductive terminal, a cable, a first metal shield member and a second metal shield member. The cable includes a core electrically connected to the conductive terminal, an insulating layer wrapped on the core, and a shielding layer wrapped on the insulating layer. The first metal shield member includes a first mounting piece. The second metal shield member includes a second mounting piece. The cable further includes a protruding piece connected to the shielding layer. The protruding piece is directly or indirectly clamped by the first mounting piece and the second mounting piece. As a result, the shielding effect of the mating module is improved. The present disclosure also relates to a cable connector having the mating module.

A holding device and a method for mounting such a holding device on a cable having a braid situated externally at least in certain regions. The holding device includes a base element (4) with a base (9) for fastening the base element (4) to a housing, and a bracing element (5) for operative connection to the base element (4), and also a crimp element (6) with an outer crimp sleeve (10), and, arranged therein, an inner supporting sleeve (11). In a state in which the cable (2) is mounted in the holding device (1), the braid (3) is arranged between the crimp sleeve (10) and the supporting sleeve (11), and the shield braid (4) is crimped between the crimp sleeve (10) and the supporting sleeve (11).

A backplane connector includes a housing and a number of wafers assembled to the housing. Each wafer includes a number of conductive terminals, an insulating frame and a metal shield. The housing includes an insulating housing and a metal shell fixed to the insulating housing. The insulating housing includes a number of slots for positioning the wafers. The metal shell is provided with a mating surface and a number of terminal receiving grooves. The contact portions of the conductive terminals are exposed in the corresponding terminal receiving grooves. The present disclosure improves the structural strength of the backplane connector and reduces the risk of damage the mating surface due to the push or collision of a mating connector.