A camera lens suspension assembly includes a support member including a support metal base layer, a moving member including a moving metal base layer, bearings and smart memory alloy wires. The support member includes a bearing plate portion, static wire attach structures, and mount regions. A printed circuit on the support metal base layer includes traces extending to each static wire attach structure. The moving member includes a moving plate portion, elongated flexure arms extending from a periphery of the moving plate portion and including mount regions on ends opposite the moving plate portion, and moving wire attach structures. The bearings are between and engage the bearing plate portion of the support member and the moving plate portion of the moving member. Each of the smart memory alloy wires is attached to and extends one of the static wire attach structures and one of the moving wire attach structures.

A tester apparatus is described. Various components contribute to the functionality of the tester apparatus, including an insertion and removal apparatus, thermal posts, independent gimbaling, the inclusion of a photo detector, a combination of thermal control methods, a detect circuitry in a socket lid, through posts with stand-offs, and a voltage retargeting.

A carrier assembly configured to facilitate manufacture of a printed circuit board assembly includes a bottom frame defining a generally rectangular configuration and having a length and a width. The bottom frame is adjustable to vary at least one of the length or the width thereof. The assembly further includes a core releasably positionable on the bottom frame and configured to support a circuit board thereon. A carrier assembly system includes the bottom frame and a plurality of cores. Methods of manufacturing printed circuit board assemblies utilizing carrier assemblies are also provided.

An information handling system storage device rotationally couples first and second storage drive bays to a housing and having a gap between them. The second storage drive bay rotationally couples between a stored position in planar alignment with the first storage drive bay and a raised position that provides access to storage drives in the second storage drive bay. A latch rotationally couples to the second storage drive bay and extends in a stored position into the gap. A pin and guide arrangement defines rotation of the latch relative to the storage drive bay to a raised position and then translates upward force applied to the latch to rotate the storage drive bay to a raised position.

The present application provides a tool-free PCIE fixing apparatus, including: a Riser module bracket; a plurality of PCIE card connectors, each configured to fix a PCIE card; a die casting, in an upright state and fixed at one side of the Riser module bracket along a width direction thereof; and a pressing fixation plate, being in an upright state and pivoted at one side of the Riser module bracket along the width direction thereof Δn inner side of the pressing fixation plate is provided with locking pieces. The die casting defines therein locking holes configured to form elastic snap-fitting connection with the locking pieces, respectively. Each of the plurality of PCIE card connectors defines therein a locking slot configured to allow one of the locking pieces to pass through.

In some examples, a tool-less electronic component retention apparatus includes a bracket to affix to a circuit board, and a spring-loaded arm attached to the bracket. The spring-loaded arm has an engagement tab that is angled downwardly to engage an upper surface of an electronic component to mount the electronic component to the circuit board. The spring-loaded arm is pivotable between an engaged position and a release position by a user without use of a tool.

A mounting assembly for an electrical box is provided, which includes a power socket, a bracket and a connecting member. The connecting member is configured to act on the bracket and the electrical box to restrictively mount the bracket on the electrical box. The bracket is provided with a plurality of connecting protrusions at intervals. The socket box is provided with a groove, and the plurality of connecting protrusions are corresponding to the groove. The connecting member is mounted on the groove of the electrical box, and a part of the connecting member in the groove successively penetrates through the plurality of connecting protrusions.

A scalable graphics card assembly support system for a desktop chassis comprises an end support for coupling to an end of a graphics card assembly and a side support for coupling to a side of the card assembly. The side support can be coupled to any of several positions in a retention guide and the end support may couple to the card assembly or an extension coupled to the graphics card assembly, allowing the graphics card assembly support system to support graphic card assemblies of different lengths, widths and thicknesses. The graphics card assembly support system couples to one or more selected points within the chassis such that a chassis panel can be easily removed for servicing the information handling system. Cable parking connectors and conduit couplers provide better cable and conduit management for a more aesthetically pleasing appearance of an information handling system in the chassis.

A cold plate module includes a cold plate, a structural piece and a plurality of first connecting pieces. The cold plate has a first surface and a second surface opposite to the first surface. The first surface is configured to abut against a heat source disposed on a main board. The structural piece has a third surface. The third surface is configured to abut against the second surface. The first connecting pieces are configured to penetrate through the structural piece and connect with the main board in order to fix the structural piece relative to the main board.