An apparatus and method for reducing differential cross-talk in a pin arrangement of a socket are described. Socket pins within a differential pair use a modified shape to tighten the intra-pair pin coupling to reduce the crosstalk without changing the pin map. The middle vertical segment of one pin of a diagonally adjacent differential pin pair is modified to be closer to the other pin than other corresponding locations of the pins. The spring beam that extends from the middle vertical segment of the one pin is modified to accommodate the package landing pad that the spring beam contacts to maintain a uniform pitch.

An electrical connector is used to be electrically connected to a mating component. The electrical connector includes one or more shielding members, forming multiple receiving holes; and multiple terminals, including at least one signal terminal and at least one ground terminal correspondingly accommodated in the receiving holes. The ground terminal has a mating portion upward abutting the mating component, an elastic portion pressed vertically to elastically deform, and a positioning portion having a cross-section in a circular shape. The positioning portion and the shielding members are conductively connected to each other by at least three conductive portions, and the three conductive portions are provided to form a triangle. An insulating block is between the signal terminal and a corresponding shielding member to be accommodated in a corresponding receiving hole. The positioning portion with a circular cross-section has a larger area when the volume of the receiving hole remains unchanged.

A socket includes a housing and a plurality of contacts. The housing has a bottom plate with a first face and a second face that are parallel to each other. Contact supporting holes penetrate the first face and the second face. The housing has a frame body disposed upright on an edge of the first face and extending along the edge. The contacts are disposed in the contact supporting holes and supported by the bottom plate in a state in which the contacts protrude from both the first face and the second face. The contacts include a first contact having a first base inserted into one of the contact supporting holes, a first contact portion having a pair of first protrusions protruding from one edge of the first base, and a second contact portion having a pair of second protrusions protruding from another edge of the first base.

A circuit arrangement (1), in particular for an electrically driven motor vehicle, has at least one bus bar (5) which is connected electrically to a supplier (2) and which is connected to a first consumer (3) at a first transfer point (6) and to a second consumer (4) at a second transfer point (7). Both the first and the second transfer point (6, 7) are formed as flexible contact points.

An electrical connector assembly includes an electrical connector and a CPU. The electrical connector includes an insulative housing defining a receiving cavity, and a plurality of contacts retained to the housing with corresponding contacting sections exposed in the receiving cavity. A first securing piece is attached upon the CPU, and a second securing piece is attached upon the housing. When the CPU is received within the receiving cavity, the first securing piece is locked with the second securing piece so as to have the CPU retained to the connector in position wherein the corresponding contacts of the electrical connector are mechanically and electrically connected to the corresponding contacting pads of the CPU in a compression manner reliably.

According to a certain embodiment, a pin plunger includes: a first contact member; a second contact member that faces the first contact member and is apart from the first contact member; a spring arranged between the first contact member and the second contact member; and a housing that houses the first contact member, the second contact member, and the spring. The housing comprises a bimetal inside or outside the housing. The bimetal comprises a first metal and a second metal, the first metal having a thermal expansion coefficient different from a thermal expansion coefficient of the second metal. The elastic force decreased or increased by contracting or expanding of the spring due to a temperature change is compensated with a warping force due to stretching of the first metal and the second metal.

An electrical connector includes an insulating body with multiple accommodating slots, and multiple terminals accommodated in the accommodating slots. Each terminal has an elastic arm, a floating contact portion and a conducting portion. The elastic arm and the floating contact portion are provided at an interval. One end of the elastic arm is connected with the floating contact portion through an insulating block. When each terminal is mated with a first electronic component and a second electronic component, the conducting portion is electrically connected to the first electronic component, the floating contact portion is electrically connected to the second electronic component, the elastic arm provides an elastic force such that the floating contact portion moves downward, and the floating contact portion and the conducting portion are directly electrically connected.

A socket connector includes a housing that is made of insulating resin and have a peripheral wall and a bottom plate, the peripheral wall projecting upward from an edge of the bottom plate, a plurality of contacts that are held by the bottom plate, an upper cover member that is disposed above a semiconductor package accommodated in the housing, holds the semiconductor package downward and thereby brings the semiconductor package into electrical contact with the plurality of contacts, and a block and a block that project upward beyond the peripheral wall. The upper cover member has relief holes in which the block and the block is to be inserted at positions opposed to the block and the block in a vertical direction.

An electronic assembly includes an electronic package connected to a host circuit board. The electronic assembly includes interposer assemblies electrically connected to the electronic package. The electronic assembly includes cable modules coupled to upper separable interface of the interposer assemblies. The electronic assembly includes carrier assemblies configured to be coupled to an upper surface of the electronic package. Each carrier assembly includes a carrier base block and a carrier lid configured to hold at least one interposer assembly and at least one cable module. The carrier assemblies hold the cable modules with the module contacts in electrical connection with upper mating interfaces of the interposer contacts. The carrier assemblies hold lower mating interfaces of the interposer contacts in electrical connection with upper package contacts of the electronic package. The carrier assemblies are separately removable from the electronic package to separate the interposer assemblies from the electronic package.

A piston assembly for a spring-loaded contact, comprising a piston body, arranged to be received into a guiding cylinder of the spring loaded contact, a piston head, with a contacting surface arranged for contacting an external part, a clip arranged to mate with a conductive portion of the spring loaded contact, wherein the piston body comprises a through hole, the clip being arranged into the through hole, and wherein the piston head is attached to the piston body by an ultrasonic welded portion.