A multi-socket panel device with an anti-crosstalk shielding structure mainly includes a main base body having an accommodation space inside, and a plurality of through slots are formed on the main base body and penetrate the main base plate. The device further includes a plurality of socket sets, which are correspondingly combined with the main base body. Each socket set further includes a base plate, and a plurality of prick type terminals are arranged on one surface of the base plate and pass through the base plate to another. On one surface of the substrate, a plurality of sockets are provided on the other surface of the substrate, and the corresponding sockets are inserted into the sockets. A plurality of wire terminals are provided at the bottom of the jack and extend to the outside of the sockets to form electrical connection with the prick type terminals. A shield sleeve base is connected to each socket. Each socket is protected by the shield sleeve to prevent crosstalk between the sockets.

A modular electrical connector with modular components suitable for assembly into a right angle connector may also be used in forming an orthogonal connector or connector in other desired configurations. The connector modules may be configured through the user of extender modules. Those connector modules may be held together as a right angle connector with a front housing portion, which, in some embodiments, may be shaped differently depending on whether the connector modules are used to form a right angle connector or an orthogonal connector. When designed to form an orthogonal connector, the extender modules may interlock into subarrays, which may be held to other connector components through the use of an extender shell. The mating contact portions on the extender modules may be such that a right angle connector, similarly made with connector modules, may directly mate with the orthogonal connector.

A modular electrical connector with modular components suitable for assembly into a right angle connector may also be used in forming an orthogonal connector or connector in other desired configurations. The connector modules may be configured through the user of extender modules. Those connector modules may be held together as a right angle connector with a front housing portion, which, in some embodiments, may be shaped differently depending on whether the connector modules are used to form a right angle connector or an orthogonal connector. When designed to form an orthogonal connector, the extender modules may interlock into subarrays, which may be held to other connector components through the use of an extender shell. The mating contact portions on the extender modules may be such that a right angle connector, similarly made with connector modules, may directly mate with the orthogonal connector.

An electrical plug connector has an insulated housing, two elastic buckle elements, multiple plug terminals, and a plug metallic shell. The insulated housing has a terminal portion and two connecting portions. The two elastic buckle elements are respectively mounted in receiving grooves of the two connecting portions of the insulated housing. Multiple plug terminals are arranged on the terminal portion of the insulated housing. An electrical receptacle connector is detachably connected with the electrical plug connector. The electrical receptacle connector has a receptacle insulated housing and multiple receptacle terminals. The receptacle insulated housing has an inserting portion and two receptacle connecting portions. The multiple receptacle terminals are mounted in a mounting slot of the receptacle insulated housing. When the electrical plug connector is connected with the electrical receptacle connector, the multiple plug terminals may contact the multiple receptacle terminals and are conducted.

A power distribution system includes a track having a first end, a second end opposite the first end, and a longitudinal axis extending through the first and second ends. The track defines a channel extending along the longitudinal axis. A plurality of power cables is positioned within the channel. The power distribution system further includes an electrical hub having a body coupled to the second end of the track. A plurality of wafers is supported by the body and stacked on top of each other to define a set of terminals. The set of terminals is electrically connected to the plurality of power cables. A power receptacle is supported by the body and electrically connected to the plurality of wafers.

An example connector assembly includes a guide shielding cage with a cage body and an upper heat sink bracket. The cage body includes upper window. A lower wall of the upper heat sink bracket is formed with a window corresponding to the upper window. The connector assembly also includes an upper heat sink module including a heat dissipating member. The heat dissipating member is capable of moving between a releasing position which is higher and an acting position which is lower relative to the upper insertion space. The cage body further includes fixing pieces positioned at two sides of the top wall and extend upwardly. The lower wall of the upper heat sink bracket engages with the fixing pieces of the cage body, and the upper heat sink bracket further comprises a latching piece which extends from the lower wall and latches into the top wall of the cage body.

An example connector assembly includes a guide shielding cage with a cage body and an upper heat sink bracket. The cage body includes upper window. A lower wall of the upper heat sink bracket is formed with a window corresponding to the upper window. The connector assembly also includes an upper heat sink module including a heat dissipating member. The heat dissipating member is capable of moving between a releasing position which is higher and an acting position which is lower relative to the upper insertion space. The cage body further includes fixing pieces positioned at two sides of the top wall and extend upwardly. The lower wall of the upper heat sink bracket engages with the fixing pieces of the cage body, and the upper heat sink bracket further comprises a latching piece which extends from the lower wall and latches into the top wall of the cage body.

A connector includes a housing, a first sandwich structure, and a support structure. The housing includes two accommodating cavities vertically adjacent to each other, where each accommodating cavity is used for receiving a docking connector. The first sandwich structure is disposed between the two accommodating cavities. The support structure penetrates two side walls of the housing and two side walls of the first sandwich structure to fix the first sandwich structure on the housing.

An electrical connector includes a first conductive terminal, a second conductive terminal, an insulated body integrally molded on the first conductive terminal and the second conductive terminal, and a metallic shell on the insulated body. The insulated body includes a first tongue portion and a second tongue portion aligned side by side. The first conductive terminal is provided with a first contact portion. The second conductive terminal is provided with a second contact portion. The metallic shell includes a first cylinder portion provided with a first space and a second cylinder portion provided with a second space. The first cylinder portion surrounding the first tongue portion and the second cylinder portion surrounding the second tongue portion share a dividing portion for separating the first space from the second space, so that the two electrical connection ports of the electrical connector are independent and avoid mutual influence between the two electrical connection ports.

A connector comprises a cage and a light pipe. The cage has a top wall, a bottom wall, and a pair of side walls between the top wall and the bottom wall. The light pipe is mounted on an outer surface of at least one of the pair of side walls.