An electronic module includes a module substrate has an upper surface and a lower surface. The module substrate has a package pad array having package contact pads at the upper surface. The module substrate has a socket pad array having socket contact pads at the upper surface. The module substrate has guide pin locating pads associated with the socket pad array. The electronic module has an electronic package coupled to the package contact pads at the package pad array. The electronic module has guide pins surface mounted to the guide pin locating pads. The electronic module has a socket assembly coupled to the module substrate. The socket assembly has a socket housing holding socket contacts. The socket contacts are coupled to the socket contact pads at the socket pad array. The socket frame including pockets receiving the guide pins to locate the socket assembly relative to the module substrate.

An electronic module includes a module substrate has an upper surface and a lower surface. The module substrate has a package pad array having package contact pads at the upper surface. The module substrate has a socket pad array having socket contact pads at the upper surface. The module substrate has guide pin locating pads associated with the socket pad array. The electronic module has an electronic package coupled to the package contact pads at the package pad array. The electronic module has guide pins surface mounted to the guide pin locating pads. The electronic module has a socket assembly coupled to the module substrate. The socket assembly has a socket housing holding socket contacts. The socket contacts are coupled to the socket contact pads at the socket pad array. The socket frame including pockets receiving the guide pins to locate the socket assembly relative to the module substrate.

An electrical connector is provided. The electrical connector capable of electromagnetic interference (EMI) shielding may include a female connector including a female portion in which a plurality of terminals are disposed; a male connector including a male portion including a plurality of pins electrically connected with the terminals; and a shielding member disposed between the female connector and the male connector, wherein the male portion includes an inner surface forming a space in which the pins are positioned and an end surface connected to the inner surface, the shielding member is formed of a conductive elastic body, a portion of the shielding member is disposed between the inner surface of the male portion and an outer surface of the female portion so as to be in contact with the inner surface of the male portion and the outer surface of the female portion.

An electrical connector is provided. The electrical connector capable of electromagnetic interference (EMI) shielding may include a female connector including a female portion in which a plurality of terminals are disposed; a male connector including a male portion including a plurality of pins electrically connected with the terminals; and a shielding member disposed between the female connector and the male connector, wherein the male portion includes an inner surface forming a space in which the pins are positioned and an end surface connected to the inner surface, the shielding member is formed of a conductive elastic body, a portion of the shielding member is disposed between the inner surface of the male portion and an outer surface of the female portion so as to be in contact with the inner surface of the male portion and the outer surface of the female portion.

-- A high-voltage connector of a novel structure is disclosed which achieves an improvement in electrical conductivity, a reduced amount of heat generation and the like while realizing stable connection to a mating terminal by a simple structure having a small number of components. A high-voltage connector 10 is provided with a terminal fitting 16 including a terminal body portion 34 in the form of a flat plate to be overlapped on a mating terminal 76 in the form of a flat plate in a plate thickness direction, and a resilient contact portion 38 integrally provided to the terminal body portion 34 and inclined to an overlapping side with the mating terminal 76.

-- A high-voltage connector of a novel structure is disclosed which achieves an improvement in electrical conductivity, a reduced amount of heat generation and the like while realizing stable connection to a mating terminal by a simple structure having a small number of components. A high-voltage connector 10 is provided with a terminal fitting 16 including a terminal body portion 34 in the form of a flat plate to be overlapped on a mating terminal 76 in the form of a flat plate in a plate thickness direction, and a resilient contact portion 38 integrally provided to the terminal body portion 34 and inclined to an overlapping side with the mating terminal 76.

A system and method for an electrically enhanced surgical implant comprising: an implant body that includes an inner frame, wherein the inner frame includes a set electrode sites, and an over-coating that is formed over the inner frame, leaving the electrode sites exposed on the surface of the implant body; a circuitry casing, electrically and mechanically connected to the implant body, implant circuitry, situated at least partially within the implant casing, comprising receiver circuitry, effective to convert an electromagnetic field to electric current, control circuitry, and a power source; a set of conductive paths, wherein each conductive path has a first portion, electrode, situated on an electrode site, and a second portion, electrical conduit, that extends on and through the inner frame and electrically connects the electrode to the implant circuitry in the circuitry casing. The system functions as an electrically enabled surgical implant, such that the surgical implant can provide precisely determined and localized electrical stimulus as part of the implant operation.

An electrical connector assembly includes an electrical plug connector and an electrical receptacle connector. The electrical plug connector includes plug fixation members. The electrical receptacle connector includes receptacle fixation members. Through the engagement between the plug fixation member and the receptacle fixation member, upon using the electrical connector assembly, the electrical plug connector can be ensured not to detach from the electrical receptacle connector. Moreover, with simple operations of the plug fixation member and the receptacle fixation member, the electrical plug connector can be detached from the electrical receptacle connector smoothly.

An electrical connector assembly includes an electrical plug connector and an electrical receptacle connector. The electrical plug connector includes plug fixation members. The electrical receptacle connector includes receptacle fixation members. Through the engagement between the plug fixation member and the receptacle fixation member, upon using the electrical connector assembly, the electrical plug connector can be ensured not to detach from the electrical receptacle connector. Moreover, with simple operations of the plug fixation member and the receptacle fixation member, the electrical plug connector can be detached from the electrical receptacle connector smoothly.

A terminal with a connecting end, a midsection, and a crimping end is disclosed. The midsection is adapted to prevent damage to the terminal. The connecting end is configured to be received in a housing. The crimping end is configured to be connected to a substrate. At least two of the connecting end, the midsection, and the crimping end are conductive and formed as a single, unitary component.