The present application describes a connector assembly, a circuit board assembly, a cable assembly and to a method of manufacturing a connector assembly. A connector assembly comprises a shroud; and a plurality of co-axial radio frequency connectors at least partially received in the shroud such that the shroud extends around each radio frequency connector and between adjacent radio frequency connectors. The shroud comprises at least one piece of radiowave absorption material arranged to absorb radio frequency energy leaking or dispersing from the radio frequency connectors in use. Another connector assembly comprises a body, a plurality of radio frequency connectors at least partially received in the body, and a conductive foil integrally formed with the body and partially extending beyond the body.

The present application describes a connector assembly, a circuit board assembly, a cable assembly and to a method of manufacturing a connector assembly. A connector assembly comprises a shroud; and a plurality of co-axial radio frequency connectors at least partially received in the shroud such that the shroud extends around each radio frequency connector and between adjacent radio frequency connectors. The shroud comprises at least one piece of radiowave absorption material arranged to absorb radio frequency energy leaking or dispersing from the radio frequency connectors in use. Another connector assembly comprises a body, a plurality of radio frequency connectors at least partially received in the body, and a conductive foil integrally formed with the body and partially extending beyond the body.

A cable assembly includes a plug receiver, a conductor interface, a metal shell encasing the conductor interface and a portion of a cable of the cable assembly, a metal foil that wraps conformably around an exterior of the metal shell, wherein the metal foil covers substantially all of the exterior of the metal shell and extends beyond the metal shell onto a cable shielding layer. The cable assembly further includes a solder layer disposed about the metal foil, wherein the solder layer bonds and electrically couples the first foil portion to itself, the second foil portion to cable shielding at the location on the plurality of conductors that is proximate to the conductor interface, and the third foil portion to the plug receiver. The cable assembly further includes an electrically insulating layer that encases the metal shell, the metal foil, and the solder layer.

An electrical connector includes a metallic shell structure having a port, an insulation housing disposed in the metallic shell structure, a shielding plate disposed inside the insulation housing, and two rows of conductive terminal sets disposed on the insulation housing with each on two opposing sides of the shielding plate. A conductive contact portion is formed around the port by the metallic shell structure. Therefore, as the electrical connector is assembled with an external device, the conductive contact portion can be in contact with the external device. Hence, a grounding effect is achieved, and an electromagnetic compatibility is improved.

An electrical connector includes a metallic shell structure having a port, an insulation housing disposed in the metallic shell structure, a shielding plate disposed inside the insulation housing, and two rows of conductive terminal sets disposed on the insulation housing with each on two opposing sides of the shielding plate. A conductive contact portion is formed around the port by the metallic shell structure. Therefore, as the electrical connector is assembled with an external device, the conductive contact portion can be in contact with the external device. Hence, a grounding effect is achieved, and an electromagnetic compatibility is improved.

An electrical connector includes a terminal module, a shielding shell surrounding the terminal module to form a mating cavity opening forwardly and a waterproof member disposed at a rear side of the mating cavity. The terminal module has an insulative housing and a plurality of conductive terminals retained in the insulative housing. The insulative housing has a base portion and a mating portion extending forwardly from the base portion. The shielding shell has a metallic shell and a waterproof shell formed integrally with the metallic shell by insert molding. The mating portion extends into the mating cavity. The waterproof shell defines an opening hole to which the waterproof member is exposed.

An electrical connector includes a terminal module, a shielding shell surrounding the terminal module to form a mating cavity opening forwardly and a waterproof member disposed at a rear side of the mating cavity. The terminal module has an insulative housing and a plurality of conductive terminals retained in the insulative housing. The insulative housing has a base portion and a mating portion extending forwardly from the base portion. The shielding shell has a metallic shell and a waterproof shell formed integrally with the metallic shell by insert molding. The mating portion extends into the mating cavity. The waterproof shell defines an opening hole to which the waterproof member is exposed.

Embodiments of the present disclosure are directed toward techniques and configurations for electrical signal absorption in an interconnect stub. In one instance, a printed circuit board (PCB) assembly may comprise a substrate and an interconnect (such as a via) formed in the substrate to route an electrical signal within the PCB. The interconnect may include a stub formed on the interconnect. At least a portion of the stub may be covered with an absorbing material to at least partially absorb a portion of the electric signal that is reflected by the stub. The absorbing material may be selected such that its dielectric loss tangent is greater than one, for a frequency range of a frequency of the reflected portion of the electric signal. A dielectric constant of the absorbing material may be inversely proportionate to the frequency of the reflected electric signal. Other embodiments may be described and/or claimed.

A connector includes an insulated member, a plurality of first conductive terminals, a plurality of second conductive terminals, a shielding shell, and a metal housing. The first conductive terminals are disposed on an upper surface of the insulated member and extending rearward. The second conductive terminals are disposed on a lower surface of the insulated member, extending rearward, and located below the first conductive terminals. The shielding shell is fitted over the insulated member, and the shielding shell has a plug end and a mounting end. The metal housing has a plurality of grounding structures, the metal housing is fitted over the mounting end of the shielding shell, and the grounding structures are completely located below the second conductive terminals.

A connector includes an insulated member, a plurality of first conductive terminals, a plurality of second conductive terminals, a shielding shell, and a metal housing. The first conductive terminals are disposed on an upper surface of the insulated member and extending rearward. The second conductive terminals are disposed on a lower surface of the insulated member, extending rearward, and located below the first conductive terminals. The shielding shell is fitted over the insulated member, and the shielding shell has a plug end and a mounting end. The metal housing has a plurality of grounding structures, the metal housing is fitted over the mounting end of the shielding shell, and the grounding structures are completely located below the second conductive terminals.