Disclosed is a system and a method for connecting at least one electronic card to an electronic board of a computer device, the system including an electronic board, equipped with a plurality of connectors for connecting at least one electronic cards to the electronic board, and slots for connecting at least one component to the electronic board. The at least one electronic card are substantially perpendicular to the electronic board. The system further includes a first supporting means being configured such that the at least one electronic card is first mounted onto the first support before the first support is placed above the electronic board in the vertical direction. The system further includes a second support installed underneath the electronic board in the vertical direction. The system includes further ejection mechanism and insertion mechanism. The system for connecting may include a plurality of electronic boards.

Securing a riser cage and/or electronic components coupled thereto within an information handling system can be accomplished using a riser cage apparatus. The riser cage may be configured to removably secure the electronic components to a surface of the information handling system using one or more fasteners configured to couple the riser cage to a surface of a chassis. The one or more fasteners may comprise a protrusion configured to engage a pin coupled to the surface. The protrusion of the one or more fasteners may be movable relative to the riser cage between a first locked position in which the pin coupled to the surface is engaged by the protrusion and a second unlocked position in which the pin coupled to the surface is not engaged by the protrusion.

A mother board with a central processing unit and two riser slots configured to cooperate with one riser card for connecting two expansion cards to the mother board. The first riser slot and the second riser slot may be connected by metal traces to the central processing unit, and the two riser slots may be spaced apart by a distance greater than 8 cm.

An expansion card holder assembly that accepts different size expansion cards is disclosed. The expansion card holder assembly includes a metal base with grooves that roller features of a metal slide bracket fit into. The metal slide bracket is positioned along the metal base for different size expansion cards. The metal slide bracket is connected with a metal cover that is opened to accept expansions cards. A connector is provided for the expansion card to connect with printed circuit board.

An electronic device configured to be mounted in a housing of a cluster, the device comprising a rear body housing at least one mother board configured to be powered by the cluster, a front tray housing at least one electronic board having at least one socket, the front tray comprising at least one fastening member for mounting an expansion card having an edge connector and a fastening portion, the electronic board being connected to the mother board by at least one flexible cable, the front tray being mounted slidable relatively from the rear body between a close position and an open position in which the front tray is at least partially removed from the cluster housing while keeping the rear body into the cluster housing so that an expansion card can be mounted/unmounted from the electronic board without powering off the device.

Apparatuses and systems associated with expansion card design with a coherent connector to provide for coherent communication are disclosed herein. In embodiments, a circuit card may comprise an integrated circuit (IC), a first connector to couple the IC to a processor of a computer device, the first connector to provide for non-coherent communication between the IC and the processor, and a second connector to couple the IC to the processor, the second connector to provide for coherent communication between the IC and the processor. Other embodiments may be described and/or claimed.

A computing apparatus adapted for rear access installation of a computer card with blind mating. The apparatus includes an enclosure with a rear access opening and a circuit board mounted in an interior space of the enclosure with an upward facing connector. The apparatus includes a guide assembly comprising a guide mounted within the interior space, and the guide includes a travel surface extending over the upward facing connector of the circuit board. The apparatus includes a card carrier with a frame that houses a computer card, e.g., a PCIe card, which includes a connector extending outward from the card carrier frame. The card carrier rides upon the travel surface when the card carrier is inserted into the enclosure and then pivots about a contact surface in the guide assembly when the computer card connector is proximate to the upward facing connector to provide vertical insertion of the computer card.

A carrying structure including a carrying main body, two engaging components, two driven linkages, and a driving linkage is provided. The carrying main body is adapted to carry an expansion card. The two engaging components are disposed on opposite ends of the carrying main body, each of the engaging components is adapted to be actuated to an engaging state for being engaged to a server main body, and each of the engaging components is adapted to be actuated to a releasing state for being separated from the server main body. The two driven linkages are respectively connected to the two engaging components. The driving linkage is connected between the two driven linkages and adapted to drive the two engaging components to be simultaneously actuated between the engaging state and the releasing state by the two driven linkages. In addition, a server having the carrying structure is also provided.

A system may include a plurality of rack-mountable, ruggedized drawers, each comprising a main body, a set of fans, a power supply, and a card connector. Connections may be provided, via a backplane of each of the card connectors, to a set of plugin cards each installed in the respective main body. A processor of the card connector of one of the drawers may represent the drawers by communicating information with an external third party.

A carrying structure including a carrying main body, two engaging components, two driven linkages, and a driving linkage is provided. The carrying main body is adapted to carry an expansion card. The two engaging components are disposed on opposite ends of the carrying main body, each of the engaging components is adapted to be actuated to an engaging state for being engaged to a server main body, and each of the engaging components is adapted to be actuated to a releasing state for being separated from the server main body. The two driven linkages are respectively connected to the two engaging components. The driving linkage is connected between the two driven linkages and adapted to drive the two engaging components to be simultaneously actuated between the engaging state and the releasing state by the two driven linkages. In addition, a server having the carrying structure is also provided.