A method for connecting a ground wire of cable comprises the steps of: receiving a ground wire of the cable, over one or more core signal conductors of the cable, in an open, connection slot or notch of a respective grounding section of a grounding structure; and restraining the ground wire so that the ground wire physically contacts a body of the respective grounding section and forms an electrical ground path with the body of the section.

A connector for use with high-speed signals. The connector may include a row of conductive elements comprising signal conductors and ground conductors. A signal conductor may include a mating end, a mounting end opposite the mating end, and an intermediate portion extending therebetween. A ground conductor may include a shell at least partially encircling intermediate portions of a group of signal conductors, with openings that expose contact surfaces of the signal conductors at the ends. The ground conductors may include contact members aligned with the mating contact surfaces of the signal conductors. Each shell may be coupled to a ground mounting location on each side of a respective group of signal conductors, with adjacent shells sharing a ground mounting location. Such a configuration may meet signal integrity requirements in connectors designed for 64 Gbps and beyond, while conforming to a standard that constrains mating and mounting interfaces.

In a connector assembly in which a first connector that includes a first insulator, first terminals, and a first shell and is mounted on a first board and a second connector that includes a second insulator, second terminals, and a second shell and is mounted on a second board are connected with each other, a first ground pattern that has a frame-like shape and is formed on the first board is soldered to the first shell with first solder, and a second ground pattern that has a frame-like shape and is formed on the second board is soldered to the second shell with second solder. An inner space in which the first terminals and the second terminals are positioned is completely shielded from the outside without any gap.

In a connector assembly in which a first connector that includes a first insulator, first terminals, and a first shell and is mounted on a first board and a second connector that includes a second insulator, second terminals, and a second shell and is mounted on a second board are connected with each other, a first ground pattern that has a frame-like shape and is formed on the first board is soldered to the first shell with first solder, and a second ground pattern that has a frame-like shape and is formed on the second board is soldered to the second shell with second solder. An inner space in which the first terminals and the second terminals are positioned is completely shielded from the outside without any gap.

The present disclosure provides an electrical connection device that includes a shell, a holding member and a light guiding member. The shell has a front end insertion opening and a rear wall. The rear wall is formed with a first clip structure, and the first clip structure has a sheet body which is integrally formed rearwardly by the rear wall. A clip hole is defined between the sheet body and the rear wall. The holding member has a holding body and a second clip structure which is integrally formed from the holding body and correspondingly cooperates with the first clip structure. The second clip structure has a first arm which is inserted into to the clip hole with an interference fit. A plurality of light guiding pipes are inserted into to the holding body of the holding member.

A high frequency cable connector with a plug connector terminating shielded cables via a plurality of cable connection modules attached to a paddle card. The terminations do not significantly disrupt the high integrity signal paths within the cables, even at high frequencies. Various techniques may be used, alone or in combination, to form the termination, including that the wire insulators and shields of the cables extend almost to the point of termination, with a relatively small length of wire extending beyond the insulator and shield; welding of cable wires to signal terminals in the modules; signal terminals and ground terminals held within the modules with a controlled relative spacing; signal terminals of the modules surface mount soldered to pads on the paddle card; narrow pads approximating the width of traces in the paddle card; and short pads, approximating the length of mounting ends of the signal terminals.

A cage includes a cage housing forming an inner area with internal walls that define an upper port and a lower port. Each of the ports include a cap that forms a keyway. The cap in an upper bay can extend from the upper bay in a direction that is opposite a direction the cap in the lower port extends. The cage may include a plurality of spring fingers therein which engage with a conductive bezel. The cage provides EMI shielding for the plug connector.

A cage includes a cage housing forming an inner area with internal walls that define an upper port and a lower port. Each of the ports include a cap that forms a keyway. The cap in an upper bay can extend from the upper bay in a direction that is opposite a direction the cap in the lower port extends. The cage may include a plurality of spring fingers therein which engage with a conductive bezel. The cage provides EMI shielding for the plug connector.

An electrical connector includes a housing defining a base portion and a tongue portion, two rows of terminals and a shielding shell. The tongue portion defines a thickened step at a root to the base portion, the base portion defines a front and a rear side, and an upper and a lower retaining slots. The shell is retained on the base portion and surrounding the tongue portion so as to define a mating cavity between the shell and the tongue portion. The shell defines an upper and a lower-front stopping portions inwardly received in corresponding retaining slots to prevent a forward movement of the housing. The upper and lower front stopping portions extend forwardly into the mating cavity across the front side of the base portion so as to prevent a mating connector from damaging the housing during the mating connector is inserted into the mating cavity.

An electrical connector includes a housing defining a base portion and a tongue portion, two rows of terminals and a shielding shell. The tongue portion defines a thickened step at a root to the base portion, the base portion defines a front and a rear side, and an upper and a lower retaining slots. The shell is retained on the base portion and surrounding the tongue portion so as to define a mating cavity between the shell and the tongue portion. The shell defines an upper and a lower-front stopping portions inwardly received in corresponding retaining slots to prevent a forward movement of the housing. The upper and lower front stopping portions extend forwardly into the mating cavity across the front side of the base portion so as to prevent a mating connector from damaging the housing during the mating connector is inserted into the mating cavity.