An electrical contact includes a retention section of an outer part and an extension section of an inner part parallel to each other and linked to each other via a transverse bridge located in another vertical plane perpendicular to both the retention section and the extension section. An upper contacting arm extends, toward the extension section, from an upper end of the retention section with an upper mating apex and an upper abutment tip region, and a lower contacting arm extends, toward the extension, from a lower end of the retention section with a lower mating apex and a lower abutment tip region. An upper abutment tab upwardly and obliquely extends from an upper end of the extension section toward the retention section and adapted to be mated with the upper abutment tip region when the upper contacting arm is downwardly depressed by the CPU.

An electrical connector comprises a substrate, a datum reference position, a first plurality of intermediary members, and a first plurality of contact members. Each contact member has first and second arms extending away from a base towards opposite side surfaces to form a letter V with an opening facing the datum reference position. A connector array comprises one or more of the electrical connectors. A testing apparatus comprises a tester base, a supporting member, a frame, one or more of the connector arrays, and an upper cover.

An electrical connector for connecting an electronic package to a printed circuit board, includes an insulative housing with a plurality of passageways therein, and a plurality of contacts are retained in the corresponding passageways, respectively. Each contact has a main body and opposite upper and lower contacting arms extending therefrom in a symmetrical manner in the vertical direction. Each of the upper contacting arm and the lower contacting arm has a pair of spring beams spaced from each other. Each beam includes an extension section directly extending from and coplanar with the main body, an oblique section extending from the extension section and a contacting section extending from the oblique section. The distance between the oblique sections of the pair of beams is essentially same with that of the extension sections thereof, while larger than that of the contacting sections thereof.

A contact unit for use within a connector includes a primary piece essentially composed of an upper part and a lower part coupled with each other. The upper part includes an upper retaining section and a resilient upper contacting arm with an upper contacting section and an upper abutment section at a free end thereof. The lower part includes a lower retaining section and a resilient lower contacting arm extending downwardly with a lower contacting section and a lower abutment section at a free end thereof. A secondary piece is spaced from and opposite to the primary piece in a horizontal direction of the contacting arm, and includes an upper abutment region adapted to be abutted against by the upper abutment section of the upper contacting arm, and a lower abutment region adapted to be abutted against by the lower abutment section of the lower contacting arm.

An electrical connector includes an insulative housing, and plural rows of contact modules therein. Each contact module includes plural contacts integrally formed within an insulator/wafter which extends in a longitudinal direction. In each contact module, each contact includes a main body with opposite contacting arms on upper and lower sections wherein the contacts in the same contact carrier are originally linked with the neighboring contacts around lateral sides of the main body for insert-molding consideration, and the corresponding linking sections are removed for disconnecting the neighboring the contacts after insert-molding to form the final complete contact module. Each contacting arm forms a hole with two spaced beams by two sides of the hole. The contact may further include a holding tab exposed in the hole so as to allow a gripping tool to be engaged thereon for assembling the contact module into the channel of the housing.

An electrical connector includes a body having an accommodating hole. The body has a protruding block and a platform protruding into the accommodating hole. The platform is located below the protruding block. A conductive terminal is accommodated in the accommodating hole. The conductive terminal has a base, which bends to form an accommodating space to accommodate the protruding block. The base has a through slot, and first and second branches located at two sides of the through slot. A lower section of the first branch is limited between the first protruding block and the platform. A method for manufacturing the electrical connector includes inserting the conductive terminal with the accommodating space opening upward into the accommodating hole by the strip, and rotating the conductive terminal with the protruding block as an axis, until the lower section of the first branch is located between the platform and the first protruding block.

The disclosure includes a housing including a first plate, a second plate, and a side member surrounding a space between the first and second plates, a printed circuit board disposed in the space and including an opening, a first conductive structure disposed in the space, a second conductive structure disposed in the space, and a flexible conductive member located between the first and second conductive structures through the opening to construct an electrical path between the first and second conductive structures. The flexible conductive member may include a base, a first flexible portion having a first height from the base, protruding from the base toward the first plate, and in contact with the first conductive structure, and a second flexible portion having a second height from the base, protruding from the base toward the second plate, and in contact with the second conductive structure.

Connectors with a staggered pin orientation can reduce crosstalk amongst signal pins. In one example, a connector to couple a card or module to a motherboard includes connector housing and a plurality of pins. Each of the plurality of pins includes two ends including a card or module-facing end to couple with the card or module and a motherboard-facing end to couple with the motherboard. Each of the plurality of pins includes a middle section in the connector housing. One or both of the ends include one or more bends relative to the middle section. The plurality of pins includes alternating signal pins and ground pins, wherein the signal pins having an opposite orientation relative to the ground pins.

An electrical connector includes an insulative housing with opposite upper and lower surfaces thereon, a plurality of passageways arranged in matrix and extending through the housing in a vertical direction, and plural pairs of contacts retained in the corresponding passageways, respectively. Each passageways receives a pair of contacts reversely arranged with each other. Each contact has a main body extending in a vertical plane, opposite upper contact arm and lower contact arm extending from opposite upper and lower ends of the main body and out of the corresponding upper surface and lower surface with corresponding opposite upper contacting section and lower contacting section thereon for respectively contacting the corresponding PCBs.

An electrical connector includes an insulating body provided with a accommodating hole, and a terminal and an electrical conductor accommodated in the accommodating hole and separately provided. The terminal includes a base provided in the corresponding accommodating hole, and two elastic arms respectively formed by bending and extending from the base. Each elastic arm extends to form a contact portion. Each contact portion extends to form an extending arm. Each extending arm has a first side edge, a second side edge and an end edge. Each first side edge has an abutting portion for abutting the corresponding electrical conductor. Each first side edge has a first guide portion extending between a corresponding contact portion and a corresponding abutting portion, and a second guide portion extending between the corresponding abutting portion and a corresponding end edge.