Techniques and mechanisms for providing socket connection to a substrate. In an embodiment, a socket device includes a first socket body portion that is to provide for signal exchanges as part of a socket connector including the first socket body portion and a second socket body portion. The first socket body portion and the second socket body portion comprise respective zones, wherein, of the two zones, only one such zone has a first electro-mechanical characteristic. The first electro-mechanical characteristic is selected from the group consisting of an interconnect dimension, an interconnect material, an interconnect structure, a socket body material, and a shielding structure. In another embodiment, modular socket sub-assemblies each comprise a respective one of the first zone and the second zone.

An electrical connector for electrically connecting a chip module to a circuit board includes: a body, configured to upward support the chip module, where the body is provided with a plurality of accommodating holes; and multiple terminals, respectively accommodated in the accommodating holes correspondingly. Each of the terminals includes a flat plate portion along a vertical direction and a connecting portion connected to the flat plate portion. An elastic arm is formed by bending and extending from at least one end of the connecting portion so as to abut the chip module or the circuit board. When the chip module presses the terminal downward, a side edge of the elastic arm abuts the flat plate portion. The structure of an elastic arm can be simplified to reduce the processing difficulty thereof.

The socket of the present disclosure includes: a terminal unit assembly with a plurality of terminal units, each extending in a longitudinal direction, arranged along a lateral direction orthogonal to the longitudinal direction; and a frame member including an assembly accommodating recess that accommodates the terminal unit assembly. The terminal units each include: a terminal holding part extending in the longitudinal direction; a plurality of terminals; and a side wall. The plurality of terminals each includes a body held by the terminal holding part, a contact part protruding upward beyond an upper surface the terminal unit or protruding downward beyond a lower surface of the terminal unit, and a contact arm connecting the body and the contact part; and the side wall extends in the longitudinal direction, includes a plurality of abutting parts capable of abutting the contact arm, and is arranged adjacent to the terminal holding part in the lateral direction. When the contact part receives force in a vertical direction orthogonal to the lateral direction and the longitudinal direction, the side wall receives force toward one side in the longitudinal direction.

An electrical connector includes an insulating body, multiple terminals respectively correspondingly accommodated in the insulating body, and a shielding member provided on the insulating body. The terminals includes at least one grounding terminal and at least one signal terminal having identical structures. Each terminal includes a base, an elastic arm bending upward and extending from the base for being conductively connected with a chip module, and at least one strip connecting portion formed by extending upward from the base for being connected with a strip. The shielding member is provided with multiple holes for the grounding terminal and the signal terminal to pass therethrough, and at least one abutting portion corresponding to the strip connecting portion of the grounding terminal and protrudingly extending toward at least one of the holes so as to be in contact with the strip connecting portion of the grounding terminal.

An electrical connector includes an insulating body, provided with multiple accommodating holes penetrating therethrough, multiple terminals, and multiple solder posts. Each terminal is located in a corresponding accommodating hole and provided with a retaining portion. Each solder post is provided with a base, a fixing portion extending upward from the base, and a welding portion extending downward from the base. The base has a first surface, the welding portion has a second surface, and the first surface and the second surface are connected to form an intersecting angle. A width of the base is greater than a width of the fixing portion, and the width of the base is greater than a width of the welding portion. A corresponding retaining portion retains the fixing portion, and the welding portion is located outside the corresponding retaining portion.

An electrical connector includes an insulating body, which has at least two body units. Each two body unit accommodates and is fixed with multiple terminals, and the at least two body units are spliced to each other. Each body unit has at least two edge portions, and the insulating body is provided with at least four fixing portions such that each of the edge portions is provided with at least one fixing portions. At least four metal members are correspondingly and fixedly provided on the at least four fixing portions respectively. At least two metal sheets are provided outside the at least two body units. Each metal sheet is soldered and fixed to at least one metal member provided on each body unit. By soldering and fixing the metal members and the metal sheets together, the overall structure of the electrical connector is firmer, and flatness is higher.

An electrical connector is used to be electrically connected with a chip module having multiple contact pads. The electrical connector includes an insulating body, provided with multiple accommodating grooves. Multiple terminals are accommodated in the accommodating grooves respectively. Each terminal has a main body portion located in a corresponding accommodating groove. An extending arm is connected with one end of the main body portion, and is used to be electrically connected with one of the contact pads upward. At least one metal connecting portion is provided on the insulating body and located at one side of the extending arm. One end of the metal connecting portion has an insulating supporting portion. The insulating supporting portion is used to abut the chip module upward, and is not in contact with or not electrically connected with the contact pads.

An electrical connector includes an insulating body having multiple receiving slots, and multiple first terminals and multiple second terminals respectively received in the receiving slots. Each first terminal has a first connecting portion, a first elastic arm bending and upward extending from the first connecting portion, and a first conducting arm bending and extending from the first connecting portion. Each second terminal has a second connecting portion, a second elastic arm bending and extending upward from the second connecting portion, and a second conducting arm bending and extending from the second connecting portion. A bent position between each of the first connecting portions and a corresponding one of the first elastic arms is higher than a bent position between each of the second connecting portions and a corresponding one of the second elastic arms.

A floating connector assembly device is provided. An electronic component is mounted directly or indirectly to a chassis of an electronic device. At least one conductive contact spring is mounted to the electronic component and configured to electrically couple to the electronic component. A printed circuit board having a fixed end and a free end with an electrical contact positioned between the two ends is positioned against the conductive contact spring, the contact spring being biased so that a contacting portion of the contact spring contacts the electrical contact to form an electrical connection. The electrical connection is maintained during relative movement of the conductive contact spring and the electrical contact of the printed circuit board by a bias force of the conductive contact spring.

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.