A cover of a connector has axis portions and first and second cover contact points. A housing has axis receiving portions and first through third contact portions. The axis portions are received by the axis receiving portions, and the cover is attached to the housing to be placed at any one of an open position, a closed position and a locked position. The first contact portions are exposed in the axis receiving portions. When the cover is placed at the locked position, the axis portions are face the first contact portions from beneath, and the second cover contact points are face the second contact portions from beneath. When the cover is placed at the closed position, the first cover contact points do not touch the third contact portions. When the cover is placed at the locked position, the first cover contact points touch the third contact portions.

A cover of a connector has axis portions and first and second cover contact points. A housing has axis receiving portions and first through third contact portions. The axis portions are received by the axis receiving portions, and the cover is attached to the housing to be placed at any one of an open position, a closed position and a locked position. The first contact portions are exposed in the axis receiving portions. When the cover is placed at the locked position, the axis portions are face the first contact portions from beneath, and the second cover contact points are face the second contact portions from beneath. When the cover is placed at the closed position, the first cover contact points do not touch the third contact portions. When the cover is placed at the locked position, the first cover contact points touch the third contact portions.

Sockets that have a simplified design and are readily manufactured, and also provide easy access for users to change cards while allowing the use of thinner device enclosures.

A low insertion force connector assembly includes a first connector and a second connector which are detachably coupled to each other, wherein the first connector and the second connector are easily assembled to prevent contact failure and are firmly assembled to each other to improve dimensional stability, and it is easy to assemble and manufacture the connectors.

A low insertion force connector assembly includes a first connector and a second connector which are detachably coupled to each other, wherein the first connector and the second connector are easily assembled to prevent contact failure and are firmly assembled to each other to improve dimensional stability, and it is easy to assemble and manufacture the connectors.

An electrical connector for a circuit card assembly includes a receptacle housing and a mating housing movable relative to the receptacle housing in a connector mating direction. The electrical connector includes contact modules each having a leadframe having signal contacts with a mating conductor, a mounting conductor and a flexible conductor between the mating conductor and the mounting conductor. Each contact module includes an inner dielectric body and an outer dielectric body separate and discrete from the inner dielectric body. The flexible conductors extend between the inner and outer dielectric bodies to allow relative movement of the inner dielectric body in the connector mating direction relative to the outer dielectric body.

An electrical connector for a circuit card assembly includes a receptacle housing and a mating housing movable relative to the receptacle housing in a connector mating direction. The electrical connector includes contact modules each having a leadframe having signal contacts with a mating conductor, a mounting conductor and a flexible conductor between the mating conductor and the mounting conductor. Each contact module includes an inner dielectric body and an outer dielectric body separate and discrete from the inner dielectric body. The flexible conductors extend between the inner and outer dielectric bodies to allow relative movement of the inner dielectric body in the connector mating direction relative to the outer dielectric body.

Embodiments include devices, systems, and methods relating to removing heat from a memory module in a connector. One embodiment relates to a memory module connector comprising a first arm, a second arm, and a body portion positioned between the first arm and the second arm, the body portion configured to accept a memory module therein. The memory module connector includes a structure coupled to the first arm and configured to be electrically coupled to a printed circuit board. The memory module connector also includes a heat spreader coupled to the first arm, the heat spreader configured to be brought into thermal contact with a memory module component. Other embodiments are described and claimed.

A cover of a connector has axis portions and first and second cover contact points. A housing has axis receiving portions and first through third contact portions. The axis portions are received by the axis receiving portions, and the cover is attached to the housing to be placed at any one of an open position, a closed position and a locked position. The first contact portions are exposed in the axis receiving portions. When the cover is placed at the locked position, the axis portions are face the first contact portions from beneath, and the second cover contact points are face the second contact portions from beneath. When the cover is placed at the closed position, the first cover contact points do not touch the third contact portions. When the cover is placed at the locked position, the first cover contact points touch the third contact portions.

A drive loading jig, drive carrier assembly and method of using the same to insert and remove a drive from a host reduce the likelihood of a drive being damaged during insertion or removal. Such a drive loading jig has side walls with respective slots and a rear wall joining the side walls. Each of the slots includes multiple restraining walls to restrain a drive, when positioned in the jig, from bending with respect to a plane parallel to a major surface of the drive and from moving in a direction substantially perpendicular to the major surface. Stoppers formed in the side walls or rear wall define a maximum insertion depth of the drive. An alignment key-way on the loading jig is used to align the drive in the proper orientation prior to inserting the drive into the loading jig.