The present disclosure relates to a cable connector structure, which includes a housing, a tongue plate, a plurality of cables, and a plurality of heat sinks. The housing includes a docking end and a butting end. One side of the housing includes a top surface, and the top surface protrudingly provided with a hollow stage. The tongue plate is arranged in the housing, one end of the tongue plate is provided with a docking area, and the other end of the tongue plate is provided with a welding area. The plurality of heat sinks is arranged on the top surface of the housing, the hollow stage is arranged toward the docking end and the plurality of heat sinks are arranged toward the butting end.

An electrical connector includes: an insulative base; a center contact secured to the insulative base and extending upward out of the insulative base; and an outer shell secured to the insulative base and extending upward out of the insulative base beyond the center contact, the outer shell having a lower cylindrical part and an upper guiding part, wherein the center contact and the outer shell are insert-molded with the insulative base, the guiding part of the outer shell has an upper free end located inwardly of an interior wall of the lower cylindrical part in a top view, and the insulative base has a through hole encompassing the upper free end of the guiding part in a top view.

An electrical connector includes: an insulative base; a center contact secured to the insulative base and extending upward out of the insulative base; and an outer shell secured to the insulative base and extending upward out of the insulative base beyond the center contact, the outer shell having a lower cylindrical part and an upper guiding part, wherein the center contact and the outer shell are insert-molded with the insulative base, the guiding part of the outer shell has an upper free end located inwardly of an interior wall of the lower cylindrical part in a top view, and the insulative base has a through hole encompassing the upper free end of the guiding part in a top view.

A backplane connector includes a housing and a number of terminal modules. Each terminal module includes a number of conductive terminals, a metal shield surrounding member, a first metal shield and a second metal shield. The conductive terminal includes a mating portion and a tail portion. The conductive terminals include a first signal terminal and a second signal terminal. The metal shield surrounding member surrounds the mating portions of the first signal terminal and the second signal terminal. The first metal shield and the second metal shield are in contact with the metal shield surrounding member. As a result, the shielding area is increased and the shielding effect is improved.

A backplane connector includes a housing and a number of terminal modules. Each terminal module includes a number of conductive terminals, a metal shield surrounding member, a first metal shield and a second metal shield. The conductive terminal includes a mating portion and a tail portion. The conductive terminals include a first signal terminal and a second signal terminal. The metal shield surrounding member surrounds the mating portions of the first signal terminal and the second signal terminal. The first metal shield and the second metal shield are in contact with the metal shield surrounding member. As a result, the shielding area is increased and the shielding effect is improved.

High-speed connectors and connector assemblies that include structures for alignment and/or improved thermal performance.

According to an embodiment, a high-speed transmission connector includes: a row of first contacts, a row of second contacts, a row of third contacts, a row of fourth contacts, an upper housing that supports the row of first contacts, a lower housing that supports the row of second contacts, and an inner housing that supports the row of third contacts and the row of fourth contacts. The upper housing, the lower housing, and the inner housing are assembled in such a manner that the upper housing and the lower housing face each other in a vertical direction with a gap therebetween, and the inner housing is accommodated in the upper housing and the lower housing. The gap forms a slot into which a header of a device as a communicating counterpart is to be fitted.

Systems and methods for a coupler including: a cable comprising a bend relief disposed at an end of the cable and one or more wires; a socket comprising one or more pins and one or more socket terminals, where the one or more pins are electrically connected to the one or more socket terminals; and a housing body disposed between the cable and the socket, where the housing body comprises a portion of the bend relief and the one or more wires connected to the one or more socket terminals, and where at least a portion of the housing body is made of hot melt such that the housing body encapsulates the portion of the bend relief, the one or more socket terminals, and the one or more wires connected to the one or more socket terminals.

A connector comprises an inner structure and an outer molded body. The inner structure comprises an inner molded body, a fit portion and a projecting portion. The fit portion projects forward from the inner molded body and is mated with a mating fit portion of a mating connector when the connector is connected to the mating connector. The projecting portion projects from the fit portion or the inner molded body. At least a part of the projecting portion is located outward of the fit portion in the upper-lower direction. The outer molded body has a rear portion and a front portion. The rear portion covers the inner molded body in a perpendicular plane perpendicular to the front-rear direction. The front portion extends forward from the rear portion and partially covers the fit portion in the perpendicular plane. The projecting portion is, at least in part, embedded in the front portion.

A connector comprises an inner structure and an outer molded body. The inner structure comprises an inner molded body, a fit portion and a projecting portion. The fit portion projects forward from the inner molded body and is mated with a mating fit portion of a mating connector when the connector is connected to the mating connector. The projecting portion projects from the fit portion or the inner molded body. At least a part of the projecting portion is located outward of the fit portion in the upper-lower direction. The outer molded body has a rear portion and a front portion. The rear portion covers the inner molded body in a perpendicular plane perpendicular to the front-rear direction. The front portion extends forward from the rear portion and partially covers the fit portion in the perpendicular plane. The projecting portion is, at least in part, embedded in the front portion.