An electrical connector is mounted on a circuit board for mating with a chip module. The electrical connector includes: an insulating body, provided with an accommodating hole; a conductive terminal, accommodated in the accommodating hole, and having a conducting portion; and an electrical conductor, provided below the conducting portion to be in contact with the conducting portion and electrically connected to the circuit board. The electrical conductor is received in a receiving groove of the insulating body. The positions of the electrical conductor and the conductive terminal are relatively fixed in a horizontal direction, and the electrical conductor is more wear-resistant. Thus, the electrical conductivity of the electrical conductor will not be affected due to the electrical conductor and the conductive terminal scratching with each other.

An electrical connector includes an insulating body. At least one accommodating hole runs through the insulating body vertically, and each accommodating hole has a stopping portion and a position limiting portion. Each accommodating hole accommodates a terminal and an electrical conductor. The terminal is in contact with the electrical conductor. The terminal upward abuts the stopping portion. The terminal is connected to a first strip downward, and is mounted into the accommodating hole upward from bottom. The electrical conductor upward abuts the position limiting portion. The electrical conductor is connected to a second strip downward, and is mounted into the accommodating hole upward from bottom. The terminal upward abuts the stopping portion and thus does not excessively move upward, and the electrical conductor upward abuts the position limiting portion and thus does not excessively move upward.

A plurality of module housings extending in a lateral direction and arranged in a longitudinal direction orthogonal to the lateral direction, and terminals attached to the module housings are included. The terminals each include a pair of contact parts respectively projecting upward above an upper surface and downward below a lower surface of each of the module housings, and a first direction conversion mechanism configured to convert at least some of displacement and a force received by the pair of contact parts in an upper-lower direction orthogonal to the lateral direction and the longitudinal direction into displacement and a force in the longitudinal direction. The module housings each include a second direction conversion mechanism configured to convert at least some of displacement and a force received from each of the terminals in the longitudinal direction into displacement and a force in the upper-lower direction.

A socket assembly includes a socket substrate and socket contacts mounted to the socket substrate and extending through through holes of the socket substrate. Each socket contact includes a fixed end mounted to the socket substrate, a free end independently movable relative to the fixed end, a first mating beam, a second mating beam and a transition beam between the first mating beam and the second mating beam being a monolithic structure. The transition beam passes through the through hole and is flexible to allow relative flexing of the first mating beam and the second mating beam for compression of the socket contacts between an electronic package and a host circuit board.

An electrical connector, used for electrically connecting a chip module to a circuit board, includes: an insulating body, provided with multiple accommodating grooves penetrating through the insulating body; and multiple conductive terminals, correspondingly accommodated in the accommodating grooves. Each conductive terminal includes a first terminal and a second terminal independently provided. The first terminal has a first connecting portion and an elastic arm, and the elastic arm has a contact portion to be in contact with the chip module. The second terminal has a second connecting portion and a conducting portion to be electrically connected with the circuit board. At least one fixing groove is provided on at least one of the first connecting portion and the second connecting portion, and the first terminal and the second terminal are mated and fixed along a vertical direction by the at least one fixing groove.

A terminal fitting (T) includes an inner conductor (11) and an outer conductor (12). The inner conductor (11) has a mating connecting portion (15) to be connected to a mating terminal fitting and a center conductor crimping portion (16) to be crimped to a center conductor of a shielded cable. The outer conductor (12) has a tubular portion (19) configured to surround the mating connecting portion (15). A coupling (21) is behind the tubular portion (19). The center conductor crimping portion is inside the coupling (21). A shield crimping portion (22) is behind the coupling (21) and is to be crimped to a shield layer of the shielded cable. A conductive member (60) extends in a front-rear direction and includes a bridge (61) to electrically contact the tubular portion (19) and the shield crimping portion (22) across the coupling (21).

An electrical connector is configured to electrically connect to a chip module, where a bottom surface of the chip module is provided with at least one conductive sheet. The electrical connector includes: an insulating body, configured to sustain the chip module, and provided with at least one accommodating hole penetrating through the insulating body vertically; and at least one terminal, correspondingly accommodated in the at least one accommodating hole, and having at least two elastic arms. Two inner sides of two adjacent elastic arms of the at least two elastic arms are protrudingly provided with two contact portions upward, so that each of the contact portions is located higher than an upper surface of each of the two adjacent elastic arms. An outer side of each elastic arm is spaced from each of the contact portions. The two contact portions upward abut a same conductive sheet of the chip module.

An electrical connector allowing a connection between two substantially facing electrical contacts respectively pertaining to a housing and a support, and including a main body including a first end for secure connection thereof to the housing and a second end for secure connection thereof to the support, the main body being bent in at least one bending area.

For an electrical component socket including a socket base having a frame shape to which a contact module is to be inserted and attached from below, an embodiment has an objective to allow contact pins to be in contact with a circuit board with stability. The electrical component socket is configured such that the upper-side plate is caused to ascend to an uppermost position by elastic force of urging means in a state where the contact module is not attached to the socket base. In a state where the contact module is attached to the socket base and disposed on the circuit board, the upper-side plate moves down toward a lower-side plate side against elastic force of the contact pins to be positioned at a predetermined base position, so that lower-side contact portions of the contact pins are brought into contact with the circuit board at a predetermined contact pressure.

An electrical connector or electrical connector assembly that has a housing, a contact carrier, one or more spring members, and an interposer. The contact carrier is movable with respect to the housing between unmated and mated electrical positions.