An electrical connector includes: an insulative housing having a base and a tongue forwardly extending from the base; plural conductive terminals insert-molded with the insulative housing; an insulative shell enclosing the insulative housing and having a top wall, a bottom wall opposite to the top wall, a pair of side walls connecting the top wall and the bottom wall, and a glue filling chamber formed at a rear side thereof; a metal reinforcement being insert-molded with the bottom wall of the insulative shell for mounting on an external circuit board; and a fluidal type waterproofing glue being injected into the glue filling chamber to form a waterproof rubber plate, wherein the bottom wall of the insulative shell is provided with a mold hole that runs through a rear end surface thereof and the mold hole is blocked from the glue filling chamber in a vertical direction.

An electrical connector includes: an insulative housing having a base and a tongue forwardly extending from the base; plural conductive terminals insert-molded with the insulative housing; an insulative shell enclosing the insulative housing and having a top wall, a bottom wall opposite to the top wall, a pair of side walls connecting the top wall and the bottom wall, and a glue filling chamber formed at a rear side thereof; a metal reinforcement being insert-molded with the bottom wall of the insulative shell for mounting on an external circuit board; and a fluidal type waterproofing glue being injected into the glue filling chamber to form a waterproof rubber plate, wherein the bottom wall of the insulative shell is provided with a mold hole that runs through a rear end surface thereof and the mold hole is blocked from the glue filling chamber in a vertical direction.

An electrical connector, comprising a plurality of first terminals, a plurality of second terminals, and a partitioning member. The plurality of first terminals comprise at least one pair of first differential signal terminals and at least one first ground terminal. The plurality of second terminals comprise at least a pair of second differential signal terminals. The partitioning member is disposed between the first terminals and the second terminals. The partitioning member is grounded and comprises a partitioning member body and at least one first bump. The first bump is disposed at the partitioning member body. The partitioning member body is at least disposed between the pair of first differential signal terminals and the pair of second differential signal terminals to shield the pair of first differential signal terminals and the pair of second differential signal terminals. The first bump is electrically connected with the at least one first ground terminal.

A connector lock structure includes an insulating body, a plurality of terminals, a shell, a locking assembly, a sliding board, a pressing element and an unlocking tool. The insulating body is molded around the plurality of the terminals. The shell surrounds the insulating body. The locking assembly includes at least one lacking groove, and at least one elastic arm formed in the at least one lacking groove. The at least one elastic arm has a hook structure. The hook structure is cooperated with a blocking groove of a docking connector. The pressing element is mounted in the insulating body. The sliding board is slidably mounted under the pressing element. One end of the pressing element has a locking portion. The locking portion has a keyhole. The unlocking tool is inserted in the keyhole.

A semiconductor package includes a package substrate, a semiconductor chip on the package substrate, the semiconductor chip including a logic chip and a memory stack structure on the logic chip, a connector and a connector terminal below the package substrate, a molding layer that covers the semiconductor chip, the molding layer having a recess region on a top surface of the molding layer, a housing that covers the molding layer, and an air gap on the semiconductor chip, the air gap being defined by the housing and the recess region of the molding layer, and the molding layer separating the air gap from the memory stack structure of the semiconductor chip.

Data/telecommunication cables that include one or more layers of an integral, bonded electromagnetic shield are described. The shield may be configured to form an electrical ground path.

An electrical connector includes: an insulative housing having a top wall and a pair of side walls; and a substrate secured to the insulative housing to constitute a bottom wall of the insulative housing, the substrate having plural front conductive pads at an upper face thereof and plural rear conductive pads at a lower face thereof in electrical connection with the plural front conductive pads.

An electrical connector includes: an insulative housing having a top wall and a pair of side walls; and a substrate secured to the insulative housing to constitute a bottom wall of the insulative housing, the substrate having plural front conductive pads at an upper face thereof and plural rear conductive pads at a lower face thereof in electrical connection with the plural front conductive pads.

An electrical connector assembly that can quickly and easily be secured to two electrically conductive structures, such as a flat flexible conductor having multiple electrically conductive traces and a printed circuit board having multiple electrically conductive traces, without the use of specialized tools and/or methods is disclosed. The electrical connector assembly includes a housing having a plurality of slots defined therein. An electrical contact is disposed within each of the plurality of slots. Each electrical contact includes a first portion engaged with the housing, a second portion adapted to engage the first electrically conductive structure when inserted within the housing, and an intermediate portion located between the first portion and the second portion and adapted to engage the second electrically conductive structure when inserted within the housing.

The disclosure relates to a connection component, a connector, a patch cord and a connector inner shell. The connection component is configured to achieve electric connection and includes two connectors. The two connectors have same butt-joint structures and are in a butt joint through the butt-joint structures, the connectors have locking mechanisms, in a locking state, the locking mechanisms lock the two connectors, and the two connectors may be separated after the locking mechanisms are switched to an unlocking state.