A header power connector includes a header housing assembly including an outer housing having an outer wall forming a cavity configured to receive upper and lower busbars. The header housing assembly includes an inner housing received in the cavity having a terminal channel holding a terminal assembly including a plurality of terminals arranged in a terminal stack. Each terminal includes upper and lower sockets at upper and lower mating ends configured to receive the upper and lower busbars, respectively. The header power connector includes a choke received in the cavity having a chock body with an opening therethrough receiving the terminal assembly. The header power connector includes a choke positioner in the cavity interfacing with the choke to position the choke relative to the outer housing.

A cable socket connector assembly for an electronic system includes a socket assembly having a socket substrate including socket substrate conductors. The socket assembly has socket contacts extending between terminating ends and mating ends with the terminating ends terminated to corresponding socket substrate conductors and the mating ends configured to be terminated to corresponding package contacts of an electronic package of the electronic system. The cable socket connector assembly includes a cable assembly terminated to the socket assembly having an array of cables each having a cable conductor terminated to a corresponding socket substrate conductor. The socket contacts and the corresponding socket substrate conductors define electrical paths between the cable conductors of the cables and the package conductors of the electronic package.

A socket connector includes a socket assembly having a socket substrate and socket contacts. The socket substrate has first and second upper mating areas and a first lower mating area. The socket substrate has first and second socket substrate conductors at the first and second upper mating areas, respectively, and third socket substrate conductors at the first lower mating area electrically connected to corresponding first socket substrate conductors. The first socket substrate conductors are electrically connected to an electronic package, the second socket substrate conductors are electrically connected to an electrical component and the third socket substrate conductors are electrically connected to a host circuit board. The socket assembly is configured to electrically connect the electronic package with both the host circuit board and the electrical component. The socket contacts have a terminating end terminated to corresponding first socket substrate conductors and a mating end mated to package contacts.

A socket connector includes a socket substrate having first socket substrate conductors and second socket substrate conductors, receptacle contacts electrically coupled to corresponding first socket substrate conductors and socket contacts electrically coupled to corresponding second socket substrate conductors. The receptacle contacts have receptacles receiving pin contacts of an electronic package and the socket contacts have terminating ends and mating ends with deflectable spring beams terminated to package contacts of the electronic package. At least one of the first socket substrate conductors and the second socket substrate conductors are configured to electrically connect the electronic package with the host circuit board.

A socket connector includes a socket assembly having a socket frame, a socket substrate coupled to the socket frame and socket contacts terminated to the socket substrate. The socket substrate has first and second upper mating areas including first and second socket substrate conductors for mating with an electronic package and an electrical component, respectively. The socket contacts define an interface with the electronic package. The socket assembly is configured to electrically connect the electronic package with both a host circuit board and the electrical component.

The present disclosure relates to a power connector which comprises an insulative housing and a terminal. The insulative housing defines a terminal receiving groove therein and comprises a stopping wall. The terminal is positioned in the terminal receiving groove and comprises a mating portion, a stopping portion and a wire connecting portion. The stopping portion abuts against the stopping wall and comprises a first horizontal portion and a second horizontal portion. The first horizontal portion comprises a first front end edge. The second horizontal portion comprises a second front end edge. A portion of a front end of the first horizontal portion and a portion of a front end of the second horizontal portion are cut off, therefore when the terminal clamps the wire, the first front end edge and the second front end edge do not splay forwardly and outwardly to protrude forwardly, but are parallel to each other or respectively extend backwardly, which thus can avoid the first front end edge and the second front end edge of the stopping portion from abutting against the stopping wall first due to the protruding.

Systems and devices for distributing electric power. An electrical power distribution module includes a housing enclosing an interconnection member, a first main connector formed in the housing having a first plurality of module contacts, a second main connector formed in the housing having a second plurality of module contacts. The first main connector and the second main connector may connect to electrical conductors to receive an electrical current from a power source. At least two conductive paths on the interconnection member connect to at least two of the first plurality of module contacts and to at least two of the second plurality of module contacts. At least one output port is formed in the housing with a pair of output port contacts connected to the at least two conductive paths connected to the module contacts.

A power distribution assembly with boltless busbar system for electrically and mechanically connecting a component to a power source is disclosed. The power distribution assembly includes an interconnecting busbar segment that connects two boltless busbar system together. Each boltless busbar system includes a male busbar assembly and a female busbar assembly. The male busbar assembly includes a male terminal, internal spring member, internal male housing, and external male housing that receives an extent of the male terminal, the internal spring member, and the internal male housing. This male terminal includes a side wall arrangement that defines a receiver and further includes at least one contact arm. An internal spring member with at least one spring arm resides within the male terminal receiver. The female busbar assembly includes a female terminal with a receptacle that is dimensioned to receive both the male terminal and the spring member in a connected position to secure the female busbar assembly to the male busbar assembly.

In the process of mounting a joint terminal (5) into a first terminal accommodating portion (16) of a housing (15), tab terminals (6) of the joint terminal (5) move forward along tab entrance paths (26) formed in the housing (15). The tab entrance path (26) is formed with a cam portion (27) spiral about an axis thereof. As the tab terminal (6) moves forward in the tab entrance path (26), a follower portion (8) formed at an intermediate position of the tab terminal (6) is guided by the cam portion (27). Thus, the tab terminal (6) is twisted about an axis. In this way, resilient contact pieces (14) of female terminals (9A, 9B) face the tab terminals (6) in a plate surface direction of the tab terminals (6) and are connected to the tab terminals (6).

An electrical connector assembly for electrically and mechanically connecting a component to a power source is disclosed. The connector assembly includes a male terminal with side walls defining a receiver. The side wall includes a contact arm that extends across an aperture in the side wall. The assembly also includes an internal spring member dimensioned to reside within the receiver of the male terminal. The spring member has at least one spring arm that extends from a base portion. The assembly further includes a female terminal with a receptacle dimensioned to receive both the male terminal and the spring member residing within the receiver of the male connector to define a connected position. In the connected position, the spring arm exerts an outwardly directed biasing force on the contact arm of the male terminal to outwardly displace it into engagement with an inner surface of the receptacle to ensure connectivity.