An apparatus is described. The apparatus includes a first riser card connected to a first card. The apparatus also includes a second riser card connected to a second card, wherein, the first card's connection to the first riser card and the second card's connection to the second riser card pass through a vertical plane runs parallel to respective surfaces of the first and second riser cards.

An apparatus is described. The apparatus includes a first riser card connected to a first card. The apparatus also includes a second riser card connected to a second card, wherein, the first card's connection to the first riser card and the second card's connection to the second riser card pass through a vertical plane runs parallel to respective surfaces of the first and second riser cards.

A network device having improved thermal cooling is provided. The network device comprising a first printed circuit board (PCB) having a plurality of common connectors and one or more second PCBs, each second PCB coupled to the first PCB by a respective common connector of the plurality of common connectors. Each second PCB may include a set of ports, each port in the set of ports coupled to the respective common connector via the second PCB. The one or more second PCBs may be arranged vertically parallel on a front side of the first PCB such that each second PCB forms a 90 degree angle with the first PCB to allow air to flow in spaces defined between vertically adjacent second PCBs.

A data storage system with a parallel array of dense memory cards and high airflow is described. In one example, a rack-mount enclosure has a horizontal plane board with memory connectors and external interfaces. Memory cards each have a connector to connect to a respective memory connector of the horizontal plane board, each memory card extending parallel to each other memory card from the front of the enclosure and extending orthogonally from the first side of the horizontal plane board. A power supply proximate the rear of the enclosure and the first side of the horizontal plane board provides power to the memory cards through the memory card connectors and has a fan to pull air from the front of the enclosure between the memory cards and to push air out the rear of the enclosure.

The present invention has advantages in that as a USB port unit and a hard disk port unit are formed on the edge of the substrate unit thereby allowing external USB and external disks to be directly connected to the main board, so that it prevents electrical malfunction caused by cable connection, and as the transmission speed of high-speed communication increases through direct connection, it is to provide a main board for POS terminal which may maintain stable system by reducing communication errors.

A rack adapted for receiving a component, a system including the rack and the component and a method of delivering power to the component mounted in the rack are disclosed. The rack comprises a backplane, a power panel, and a main controller. Each stage of the backplane includes a backplane power connector and a backplane data connector that are respectively connectable to a component power connector and to a component data connector when the component is inserted in the backplane stage. The main controller detects an insertion of the component in a given backplane stage by receiving a signal emitted by the backplane data connector of that backplane stage, acquires a set of power parameters of the component, and causes the power panel to provide power to the backplane power connector of that backplane stage according to the set of power parameters of the component.

An electronic device includes a slot, and a backboard that is disposed on the depth side in the slot and is electrically connected to a printed circuit board inserted in the slot. The electronic device further includes a casing having the slot formed therein, the casing being configured to accommodate therein at least part of the backboard, and a cover member configured to be attachable to and removable from the casing. When attached to the casing, the cover member together with the casing forms the external appearance of the electronic device. The cover member is attached to the backboard integrally.

A removeable drive-plane board may include (1) keyhole openings that are configured to interlock with keyhole fasteners of a retaining member of a storage-system chassis, (2) storage-drive connectors, (3) a storage-system module connector, and (4) electrical interconnects that electrically couple the storage-drive connectors to the storage-system module connector. In some examples, the keyhole fasteners of the retaining member may be oriented downward relative to the storage-system chassis. Various other removeable drive-plane apparatus, systems, and methods are also disclosed.

A mid-plane assembly includes a main circuit board portion including a plurality of electrical connectors configured to releasably engage a plurality of devices, a first circuit board portion, and a first electrical coupling assembly configured to electrically couple the first circuit board portion to the main circuit board portion and position the first circuit board portion essentially orthogonal to the main circuit board portion.

A modular satellite chassis includes frame rails having at least two front frame rails and two back frame rails. Transverse parallel ribs are disposed on the interiors of the front and back frame rails. The ribs on the front frame rails correspond in location to one another and to the ribs on the back frame rails. Each rib has a central longitudinal axis and a narrow first slot disposed along the central longitudinal axis. The ribs are spaced apart by wider second slots. Trays are slidingly received by the second slots on the front frame rails and the corresponding second slots on the back frame rails. A left side panel is connected to an outside of one of the front frame rails and one of the back frame rails. A right side panel is connected to an outside of the other front frame rail and the other back frame rail.