A connector assembly includes a connector, a circuit board having a first soldering pin and a second soldering pin electrically connected with the first soldering pin, a cable having a wire with a conductor, and an outer shield housing mounted on the circuit board and covering the connector, the cable, and the circuit board. The connector includes a shield housing, an insulation body disposed in the shield housing, and a conductive terminal held in the insulation body. The conductive terminal is soldered to the first soldering pin. The conductor is soldered to the second soldering pin.

A cable connector includes an insulator, an electrical connection portion, a cable and a latch, wherein the electrical connection portion is disposed in the insulator, and one end of the cable is electrically connected to the electrical connection portion; a front end of the insulator is provided with a projecting portion extending toward a bottom end of the insulator, the latch is disposed on the projecting portion, and a latch projection is disposed on a surface of the latch; a rear end of the insulator is provided with a first positioning post projecting toward the bottom end of the insulator; and the projecting portion and the first positioning post of the cable connector are respectively cooperated with a docking connector. The cable connector can implement forward and reverse plug of the cable connector; thereby facilitating wiring of the customer on the mainboard.

A power receptacle assembly includes a power supply cradle, a circuit subassembly, and a housing. The power supply cradle has a base member and two sidewalls. The base member and sidewalls of the power supply cradle are configured to include one or more protrusions. The circuit subassembly includes a base plate and at least one low voltage power output receptacle electrically connected to the base plate. The base plate is secured to the power supply cradle by the one or more protrusions. With the base plate secured to the power supply cradle, the power supply cradle is arranged within the at least one cavity of the housing, such that base plate of the low voltage power supply circuit subassembly does not directly contact any of the inner surface that forms the at least one cavity of the housing.

An electrical connector includes a housing, a plurality of contacts arranged in the housing, an actuator mounted to the housing and configured to move relative to the housing, and a locking terminal mounted to the housing, the locking terminal comprising a locking arm extending through an interior portion of the actuator and into a cavity within the housing, the cavity having an upper surface and a lower surface. Movement of the actuator relative to the housing may cause the interior portion of the actuator to push against at least part of the locking arm and rotate the at least part of the locking arm. When the actuator is in a first position, the locking arm may contact a surface of the cavity within the housing, which may inhibit the actuator from rotating in a first direction.

A connector comprises a housing having at least a pair of legs extending from a bottom thereof, and at least one conductive terminal arranged in the housing. Each of the legs includes a body connected to the bottom of the housing and extending downward in a height direction of the housing. A conical guide is connected to a lower end of the body of each leg for guiding the leg into a hole formed in a circuit board. A positioning end is connected to a lower end of the conical guide of each leg and includes a positioning surface extending in the height direction for contacting an inner wall of the hole.

This disclosure provides a method and apparatus for a single pair Ethernet (SPE) wire-to-board connector. The SPE connector may include a female connector portion and a male connector portion. The female connector portion may include a first electrical contact having a first press-fit pin and a first female portion, a second electrical contact having a second press-fit pin and a second female portion, and a first outer shield, the first outer shield mechanically secured to the first insulative housing. The first and second electrical contacts may be positioned partially within the first insulative housing. The male connector portion includes a third electrical contact comprising a first insulation displacement contact (IDC) portion and a first male portion, a fourth electrical contact comprising a second DC portion and a second male portion, and a second outer shield, the second outer shield mechanically secured to a second insulative housing.

A harness component includes a plurality of male terminals, a housing, a plurality of female terminals and a plurality of wires. The plurality of male terminals are connected to a circuit board. The housing includes a plurality of insertion holes and a plurality of female terminal accommodation holes. The male terminals are inserted through the insertion holes. The terminal accommodation holes communicate with the respective insertion holes and include openings on sides opposite to the insertion holes. The plurality of female terminals are inserted and arranged in the respective terminal accommodation holes through the respective openings. The female terminal contacts each male terminal while applying a resilient force in a direction intersecting an axial direction X of the terminal accommodation hole. The plurality of wires are electrically connected to the respective female terminals.

Embodiments include a carrier assembly, a method of forming the carrier assembly, and a semiconductor package. A carrier assembly includes a socket on a package substrate, and a carrier having a transparent material, a first opening, first alignment openings, and barbs. The carrier assembly also includes an electronic device embedded into the first opening of carrier and coupled to the carrier by barbs. The carrier assembly further includes a bolster plate on the package substrate, the bolster plate having a second opening, loading studs, and second alignment openings, and the second opening surrounds the socket. Each loading stud is positioned on a corner edge of the bolster plate. The carrier assembly may align the first alignment openings above the second alignment openings to couple the carrier onto the bolster plate. The carrier assembly may include a heat sink disposed on the electronic device, carrier, and bolster plate.

A connector including a housing mounted on a printed circuit board (PCB) and including a sidewall having an empty space that is open to one side and a fixing portion extending from an outer surface of the sidewall, the fixing portion passing through the PCB, a connection terminal having a part passing through the sidewall of the housing and the other part passing through the PCB and configured to be electrically connected to the PCB, and a connection unit including a terminal receiving portion and a coupling portion extending from an outer surface of the terminal receiving portion toward a position of the fixing portion to be mechanically coupled with a part of the fixing portion extending out of the PCB.

A connector 10 includes a housing 11 to be installed on a circuit board 80. The housing 11 includes a first locking portion 21 and a second locking portion 22. Each of the first and second locking portions 21, 22 includes a resiliently deformable leg portion 27, 28 projecting from a front side to a back side of the circuit board 80 and a locking body 31, 32 protruding from the leg portion 27, 28 in a direction intersecting a projecting direction of the leg portion 27, 28. The locking body 31, 32 has a locking surface 33, 34 lockable to the circuit board 80. The locking surfaces 33, 34 of the first and second locking portions 21, 22 are at different heights in the projecting direction.