A connector assembly for connecting an upper circuit board to a lower circuit board is disclosed. The upper circuit board includes a series of fastener holes for a fastening device allowing attachment to the lower circuit board. The connector assembly has a support bracket with access holes aligned with the holes of the upper circuit board. The support bracket is configurable to be positioned over the upper circuit board. The connector assembly has a moveable cover bracket having a series of access holes. The cover bracket is suspended between the support bracket and the cover bracket. The cover bracket is moveable between an open position aligning the access holes with the access holes of the support bracket, and a closed position. In the closed position, the cover bracket blocks access between the access holes of the support bracket and the holes of the upper circuit board.

A lens assembly includes a lens, a lens barrel, and a heater element. The lens has an inner surface and an outer surface. The lens barrel supports the lens and defines an optical axis, the lens arranged along the optical axis such that the inner surface of the lens is within the lens barrel and the outer surface of the lens is outside the lens barrel. The heater element is in intimate mechanical communication with the inner surface of the lens and has a heater element electrical lead extending radially therefrom to provide power to the heater element. Lens heating methods are also described.

In one embodiment, an apparatus includes an integrated circuit (IC) socket and an interposer. The IC socket includes a cavity to receive an IC package including first and second sets of IC contacts, the cavity defined by a base including a set of IC socket interconnects and a frame extending from the base with at least one opening through the frame. The interposer includes a cavity portion disposed adjacent the base of the IC socket, an external portion extending from the cavity portion through one of the at least one opening, at least one connector disposed on the external portion, a first set of interposer interconnects to electrically couple each of the first set of IC contacts with a corresponding one of the set of IC socket interconnects, and a second set of interposer interconnects to electrically couple each of the second set of IC contacts with one of the at least one connector. Other embodiments are described and claimed.

In one embodiment, an apparatus includes an integrated circuit (IC) socket and an interposer. The IC socket includes a cavity to receive an IC package including first and second sets of IC contacts, the cavity defined by a base including a set of IC socket interconnects and a frame extending from the base with at least one opening through the frame. The interposer includes a cavity portion disposed adjacent the base of the IC socket, an external portion extending from the cavity portion through one of the at least one opening, at least one connector disposed on the external portion, a first set of interposer interconnects to electrically couple each of the first set of IC contacts with a corresponding one of the set of IC socket interconnects, and a second set of interposer interconnects to electrically couple each of the second set of IC contacts with one of the at least one connector. Other embodiments are described and claimed.

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.

A socket contact includes a main body extending along a longitudinal axis between a mating end and a terminating end of the socket contact. The main body has a first side and a second side. The main body has a front and a rear extending between the first side and the second side. The socket contact includes a contact tail at the terminating end configured to be terminated to a circuit board. The socket contact includes a mating socket at the mating end. The mating socket includes a first beam and a second beam opposite the first beam. The mating socket includes a third beam longitudinally offset from the first beam and longitudinally offset from the second beam.

An electrical connector including a substrate, a pitch transformation routing assembly formed on the substrate and including pitch transformation routing members, a first set of contact members, each contact member extends away from a first end of a corresponding pitch transformation routing member, and a second set of contact members, each contact member extends away from a second end of a corresponding pitch transformation routing member. A first subset of the pitch transformation routing members each includes a first routing section extending in a first direction and a second routing section extending in a second direction. A pitch of the first set of contact members associated with the first subset of the pitch transformation routing members is different from a pitch of the second set of contact members associated with the first subset of the pitch transformation routing members.

An electrical connector including a substrate, a pitch transformation routing assembly formed on the substrate and including pitch transformation routing members, a first set of contact members, each contact member extends away from a first end of a corresponding pitch transformation routing member, and a second set of contact members, each contact member extends away from a second end of a corresponding pitch transformation routing member. A first subset of the pitch transformation routing members each includes a first routing section extending in a first direction and a second routing section extending in a second direction. A pitch of the first set of contact members associated with the first subset of the pitch transformation routing members is different from a pitch of the second set of contact members associated with the first subset of the pitch transformation routing members.

A fastening mechanism for retaining a heat sink upon the CPU includes a fastening seat surrounding the connector, and a pair of fastening clips. The fastening seat includes four alignment posts at four corners, and the pair of fastening clips are attached at two corresponding diagonal corners. Each fastening clip includes a mounting section secured to the corresponding post, a latching section for temporarily holding the heat sink, and a resilient arm for upwardly urging the heat sink. Each alignment post is equipped with a screw nut and a coil spring so as to reinforce the downward pressing forces against the heat sink for assuring reliable connection between the CPU and the contacts of the electrical connector for better electrical transmission and intimate contact between the CPU and the heat sink for efficient heat dissipation.