A power connector includes a first printed circuit board (PCB) to connect to a plurality of power cables and receive power from the plurality of power cables. The power connector also includes a plug, which is electrically connected to the first PCB, to connect to a graphics card and provide the power to the graphics card. The power connector may further include a second PCB electrically connected between the first PCB and the plug, a casing to house the first PCB and/or the second PCB, and/or light-emitting diodes (LEDs) to be illuminated during operation of the graphics card.

A connector includes plural terminals, a housing holding the terminals, and an inner shield. The connector is configured to be connected to a mating connector by moving toward the mating connector in a first direction relatively with respect to the mating connector. The terminals include two terminals arranged on both sides of the inner shield in a second direction perpendicular to the first direction. The inner shield includes a base extending in a third direction perpendicular to the first direction and the second direction, and an extension protruding from the base. The housing includes a shield holder holding the extension. This connector reduces noise propagation between the terminals.

A staggered press-fit fish-eye connector for an information handling system includes multiple ground press-fit connectors and multiple signal press-fit connectors. The ground press-fit connectors include first, second, and third ground press-fit connectors. The signal press-fit connectors include first, second, third and fourth signal press-fit connectors. The ground press-fit connectors are substantially longer than the signal press-fit connectors. The first and second signal press-fit connectors are located between the first and second ground press-fit connectors, and the third and fourth signal press-fit connectors are located between the second and third ground press-fit connectors.

An electrical terminal includes a base, a first elastic arm and a second elastic arm formed side by side by extending upwardly from an upper end of the base, and a protruding portion. The first elastic arm has a mating portion, and the second elastic arm has a contact portion. The protruding portion protrudes and extends from a first side of the first elastic arm, and the first side of the first elastic arm is adjacent to the second elastic arm. A lower surface of the protruding portion has a contact surface overlapping with the contact portion in a vertical direction, such that the contact portion upwardly abuts the contact surface. When the chip module presses downwardly on the electrical terminal, the contact portion can move on the contact surface, such that the chip module does not need to press downwardly on the contact portion with a relatively large pressure.

The present disclosure pertains to a board connector comprising a plurality of RF contacts; an insulating part; a plurality of transmission contacts coupled to the insulating part between a first RF contact and a second RF contact, such that the RF contacts are spaced from each other in a first axial direction; and a ground housing to which the insulating part is coupled, the ground housing comprising a ground inner wall, a ground outer wall, and a ground connection wall coupled to each of the ground inner and outer walls, wherein the ground inner and outer walls are double-shielding walls surrounding the side of an inner space, the RF contacts are located in the inner space surrounded by the double-shielding walls, and each of the ground inner and outer walls contacts the ground housing of a counter connector inserted into the inner space.

A receptacle assembly includes: a receptacle connector for mounting to a printed circuit board; a holder mounted atop the receptacle connector; and a cage enclosing the receptacle connector and the holder, the cage having a main cage body and a cage top detachably secured to a rear portion of the main cage body.

A connector includes a housing having an accommodation space with an opening on a front surface facing a mating connector side and a rear surface facing away from the mating connector side, an outer shell covering the housing including the rear surface of the housing, a contact accommodated in the accommodation space, and an inner shell positioned in the accommodation space and covering the contact. A spring portion that elastically presses the inner shell forward is provided between a portion of the outer shell along the rear surface of the housing and the inner shell.

An electrical connector includes an insulating body and a first terminal module. The first terminal module includes a first insulating portion and a number of first terminals. The first terminals include a number of pairs of first signal terminals and a number of first ground terminals. The first insulating portion has a first side surface and a second side surface. The electrical connector includes a first metal shield mounted to the second side surface. The first metal shield is located between the second side surface and the insulating body. The first metal shield is in contact with the first ground terminals. The present disclosure increases the shielding area and improves the quality of signal transmission. The present disclosure also relates to an electrical connector assembly and an electrical connector module including the above-mentioned electrical connector.

A surface mount technology (SMT) terminal header is described for providing an electrical connection to a first printed circuit board (PCB). The SMT terminal header includes multiple first electrically conductive connector elements each having a base configured for surface mount attachment to the first PCB, and an insulative housing having multiple cells and a fixation member configured to attach the housing to the first PCB. Each of the multiple cells is configured to at least partially house one of the multiple first electrically conductive connector elements. Each of the first electrically conductive connector elements includes a position assurance member configured to attach the first electrically conductive connector element to at least one of the multiple cells of the insulative housing.

An electrical connector includes an insulative housing defining a vertical mating direction, a plurality of contacts secured to the insulative housing, and a metallic shield secured to the insulative housing and surrounding the plurality of contacts, wherein the metallic shield and the plurality of contacts are insert-molded with the insulative housing, and the metallic shield has a pair of substantially vertical side walls, a pair of substantially vertical end walls respectively connected between the pair of side walls, and a pair of bottom walls connected between the pair of side walls.