A modular electronics assembly comprising: removable electronic modules comprising a module housing containing electronic circuitry and bearing a module electrical connector coupled to the electronic circuitry each removable electronic module having a first alignment formation; an enclosure having an interior dimensioned to contain the removable electronic modules therein, the enclosure including, one or more enclosure electrical connectors corresponding to one or more of the module electrical connectors for establishing a connection, guide members extending into the interior of the enclosure for guiding respective ones of the module housings toward the enclosure electrical connectors; second alignment formations each arranged to cooperate with a respective first alignment formation of the removable electronic modules for aligning module electrical connectors with enclosure electrical connectors to thereby establish connection; wherein the first alignment formations are positioned on the module housings to register with respective second alignment formations upon the module housings abutting respective guide members.

Switch sub-chassis systems and methods for rack-scale servers are disclosed. A switch sub-chassis is arranged for modular installation in an enclosure and includes structural support features that allow multiple hot-serviceable line-cards and an integrated high-density optical fiber connectivity within the sub-chassis. Various features of the switch sub-chassis and associated line-cards allow liquid-electro-optical blindmate of the line-cards so that the line-cards are serviceable, allow high-density and complex fiber shuffle assemblies support, and facilitate ease of installation and/or servicing of fiber assemblies.

A connector assembly includes a connector module having a connector body with side edges and end edges. The connector body has contact channels holding contacts. The connector assembly includes a mounting frame having side walls and an end wall opposite a window between the side walls. The window is open to and provides access to a passage that receives the connector module. The mounting frame includes a connector module support structure for supporting the connector module in the passage that defines a confined space oversized relative to the connector body of the connector module to allow a limited amount of floating movement in the confined space in a lateral direction that is perpendicular to the mating direction.

An apparatus for coupling an information handling system server to an electrical infrastructure of an information handling system rack may include a mechanical housing, a server-facing interface on a first side of the mechanical housing and comprising one or more server-facing electrical connectors each configured to electrically couple to a respective electrically-conductive feature of the server, a rack-facing interface on a second side of the mechanical housing comprising one or more rack-facing electrical connectors each configured to electrically couple to a respective electrically-conductive feature of the electrical infrastructure, and an intermediate electrical interface comprising one or more electrically-conductive conduits, each electrically-conductive conduit configured to electrically couple a server-facing electrical connector to a corresponding rack-facing electrical connector in order to electrically couple electrically-conductive features of the electrical infrastructure to respective electrically-conductive features of the server when the apparatus is mechanically engaged with the server and the electrical infrastructure.

A linking board displacement mechanism is adapted to carry a linking board. The linking board displacement mechanism includes a base and two linkage bars. The linking board is disposed on the base. The two linkage bars are connected together in a cross configuration and are respectively hinged at the base. The linkage bars drive the base to move along a first axis stably. A first connector of the linking board is aligned with a second connector of an electronic device along the first axis. An electronic apparatus including the linking board displacement mechanism is also provided.

An apparatus is disclosed comprising: a chassis including an array plate, the array plate having a plurality of first openings formed thereon; a plurality of floating inserts, each of the floating inserts being disposed in a different one of the first openings; a main board having a plurality of second openings formed thereon, the main board being coupled to the array plate via a plurality of alignment pins, each of the alignment pins extending through a respective one of the plurality of floating inserts and into a respective one of the plurality of second openings; and an electronic module coupled to the main board, the electronic module including a first connector and at least one alignment socket, the first connector being coupled to a second connector that is disposed on the main board, the alignment socket being arranged to receive a given one of the alignment pins.

A server node is provided that includes a processor and a network interface controller mounted in a chassis configured to be inserted into a server node slot of a server node grid. The chassis includes a blind-mate connector system on a back side that includes a blind-mate power connector and a blind-mate network connector configured to blind-mate with a corresponding blind-mate power connector and a corresponding blind-mate network connector of the server node slot of the server node grid. As the server node is inserted into the server node slot, the blind-mate power connector is configured to blind-mate with the corresponding blind-mate power connector of the server node slot before the blind-mate network connector blind-mates with the corresponding blind-mate network connector of the server node slot, such that the blind-mate power connector provides alignment guidance for the blind-mate network connector.

A data storage module includes one or more carrier circuit board assemblies mounted in a rack. An array of removable solid state data storage devices (such as USB thumb drives or SD cards) is coupled to the circuit board assemblies. A data storage controller is coupled to the solid state data storage devices in the array. The data storage controller stripes data across at least two of the solid state data storage devices.

A rack adapted for receiving one or more components is disclosed. The rack includes a backplane, a pair of side panels extending from the backplane and internal support members on each side to receive and mechanically guide an initial alignment of components upon their initial insertion in the rack. A pair of male connectors mounted to the backplane is configured to mate with a corresponding pair of female connectors of each component to mechanically guide a final alignment of each component when the component is further inserted in the rack. Mechanical guidance may also be provided by, or supplemented with, a connection capable of providing liquid cooling to the rack. A system including the rack and the component inserted in the rack is also disclosed.

A communication system includes first and second circuit card assemblies each having a PCB and an electrical connector having a mating end and contacts. The first electrical connector has a receptacle housing and a mating housing received in the receptacle housing with cam levers therebetween. The second electrical connector has a header housing and driving elements interfacing with the cam levers to actuate the mating housing relative to the receptacle housing. The PCB includes a slot receiving the other PCB in a board loading direction and the header housing is coupled to the receptacle housing in the board loading direction to interface the driving elements with the cam levers. The mating housing is movable away from the second mating end to a preloaded position by the driving elements and is movable toward the second mating end to a mated position by the driving elements.