Utilities (e.g., apparatuses, systems, methods, etc.) for reducing or eliminating gaps between the tips of male pins and the bottoms of corresponding female sockets of interfaced connectors (e.g., daughtercard and backplane connectors) of a computing module and a backplane of a server enclosure under a variety of differing mechanical tolerances in the lengths of the server enclosure and the computing module (e.g., along a dimension that is parallel to the longitudinal axes of the male pins and female sockets). The disclosed utilities allow for increased signal quality and data rates through interfaced connectors while reducing strain on the PCB, solder joints, and the like during the interfacing of the connectors.

A drive apparatus is provided which comprising a ducting piece coupled to a drive comprises an air vent. The base of the ducting piece is open to receive exhaust gases from the drive and the ducting piece then diverts these gases horizontally. A system may be provided comprises a plurality of such apparatuses, with the ducting pieces coupled to one another to pass the gases along a horizontal pathway.

A rail vehicle control relay board includes a main frame, a mother board and a daughter board assembly which are arranged in the main frame, the main frame includes a board face mounting frame and a daughter board mounting frame which protrudes from the board face mounting frame, the mother board is arranged in the board face mounting frame, and multiple daughter board assemblies perpendicular to the mother board are arranged side by side in the daughter board mounting frame, the daughter board assemblies are electrically connected to the mother board, and multiple first connectors configured to perform output outwards are arranged on the mother board. The rail vehicle control relay board has a high strength, and may reduce the daughter board loosening faults, extend a wiring space and increase the number of relays arranged.

A backplane and a communications device are disclosed. In one example, the backplane includes at least one fixing plate, multiple connectors, and multiple flexible cables, where signal connection is implemented between corresponding connectors by the flexible cables. Each of the connectors is provided with a housing, and multiple signal pins are installed on the housing. The housing is installed on the fixing plate and is provided with a jack for insertion of a connector of a subcard in the communications device. One end of each signal pin is inserted into the jack, and the other end is connected to each flexible cable.

Electronic apparatus includes a laminated multi-layer circuit substrate, including first and second rigid cards and a flexible section between the first and second rigid cards. First and second sets of electrical terminals are disposed respectively on the first and second rigid cards and arranged to mate with respective bus connectors configured in accordance with a predefined bus standard. At least one bus interface circuit is configured to communicate over a bus in accordance with the predefined bus standard and disposed on the first rigid card. Printed conductors run continuously from the first rigid card, over the flexible section of the substrate, to the second rigid card and connect the at least one bus interface circuit on the first rigid card to the second set of electrical terminals on the second rigid card.

An adaptable, modular, multi-purpose (AMM) space vehicle backplane may accommodate boards and components for various missions. The AMM backplane may provide a common hardware interface and common board-to-board communications. Components, connectors, test points, and sensors may be embedded directly into the backplane to provide additional functionality, diagnostics, and system access. Other space vehicle sections may plug directly into the backplane.

A fan assembly includes a first guide, a second guide disposed in a direction vertical to the first guide such that the height of the first guide is adjustable, a slider disposed to move in a horizontal direction along the second guide, and a plurality of fan modules fastened to the slider, wherein each of the plurality of fan modules is fastened to the slider such that the height of the fan module is adjustable. Accordingly, the heights of the plurality of fan modules can be simultaneously adjusted, and the heights of some of the plurality of fan modules can be adjusted different from those of the other fan modules, so that the plurality of fan modules can be optimally installed.

The present invention concerns a backplane electronic board (20) having on inner face (142) suitable for bein g connected to electronic board connectors (12) and an outer face (143) suitable for being connected lo an outer connector (15), the backplane board (20) being characterised in that it has blind holes opening on ihe inner face (142) of some, and holes opening on the outer face (143) of same, the holes being suitable for receiving press-fit connection elements and forming therewith an electrical connection point.

A backplane and a communications device are disclosed. The backplane includes: at least one fixing plate, multiple connectors, and multiple flexible cables, where signal connection is implemented between corresponding connectors by means of the flexible cables, each of the connectors is provided with a housing and multiple signal pins installed on the housing, and the housing is installed on the fixing plate and is provided with a jack for insertion of a connector of a subcard in the communications device; one end of each signal pin is inserted into the jack, and the other end is connected to each flexible cable. When the communications device provided with the backplane transmits a high-rate signal, transmission quality and a transmission rate are relatively high.

Described is a multifunction control apparatus, including: a main card, provided with a first processing unit, and a plurality of expansion slots;

A plurality of accessory cards, which can each be inserted in an expansion slot, at least one of said accessory cards being a management card of the slave type with respect to the main card, said management card comprising: a second processing unit; at least one communication interface.