A base member of the sensor includes a first projection part, a second projection part, and a third projection part, being columnar and projecting from a first placement surface. Tip ends of the first, second and third projection parts are formed on second placement surfaces. The first and second projection parts respectively include a fourth pin and a fifth pin inserted through a second rigid substrate and projecting from the second placement surface. Three ribs are formed on a peripheral surface of the fourth pin and disposed so that positions viewed from a center of the fourth pin respectively form angles less than 180 degrees. Two ribs are formed on a peripheral surface of the fifth pin, and project along a fourth line perpendicular to a third line connecting the fourth pin and the fifth pin.

A Data Storage Device (DSD) enclosure includes a chassis and at least one backplane mounted in the chassis. According to one aspect, each backplane includes a row of DSD slots and a switch slot located in a middle portion of the row of DSD slots. A plurality of signal traces connect the DSD slots to the switch slot.

The present disclosure describes a number of embodiments related to devices, systems, and methods for identifying a location of a resource among a plurality of locations in a data center rack. A signal transmission medium may be disposed proximate to the plurality of locations to transmit a signal traversing the plurality of locations, with each resource in the rack having a sensor or transmitter portion that couples itself to the signal transmission medium at a point substantially at this resource location, or the location of the resource within the data center rack is identified based at least in part on the sensed signal.

A printed circuit board with a two-dimensional torus topology provided herein. The printed circuit board includes an array of board connectors, an input port and an output port, and a set of interconnections. Each board connector of the array of board connectors is formed to receive an electronic connector. The input port and the output port are formed on each board connector to provide an identical trace routing direction. The set of interconnections are formed to connect each board connector to another board connector. The signal path between each of the interconnections has a length less than a distance between a first board connector and a last board connector in the array of board connectors.

A wall panel system including a first wall panel, the first panel including at least a first panel hook portion. The system also including a second wall panel having a different configuration than the first wall panel. The second panel includes at least a second panel hook portion and a third panel hook portion opposing the second panel hook portion. The first wall panel is configured to engage with the second wall panel to create a wall panel assembly.

This application discloses a communication device and a service signal scheduling method, and relates to the field of communication technologies. The communication device includes a cabinet, a plurality of subracks, and a plurality of switch boards. Each subrack includes a backplane and a plurality of service boards, the backplane is located in the subrack, the plurality of service boards are pluggably installed in the subrack, and each service board is electrically connected to the backplane. Each subrack and each switch board are pluggably installed in the cabinet, the backplane of each subrack is electrically connected to at least one of the switch boards, and each switch board is electrically connected to at least one backplane.

Disclosed is a method of assembling a backplane connector subassembly for a module of a modular energy system. The backplane connector subassembly physically and electrically connects at least two modules stacked on top of one another. The method includes providing a back panel defining an inner surface, attaching a first support member to the inner surface of the back panel, attaching a second support member to the inner surface of the back panel, attaching the upstream connector to the back panel by sliding a first mating hole defined in the upstream connector onto the first support member, and attaching the downstream connector to the back panel by a sliding a second mating hole defined in the downstream connector onto the second support member. The first support member is configured to support an upstream connector. The second support member is configured to support a downstream connector.

An apparatus for distributing current in a low-voltage system includes a plurality of disk-shaped modules that can be arranged adjacent to each other in a row and mounted or locked on a carrier rail. At least one supply module, at least one fuse module, and at least one distributing module are provided. The modules have at least one cross connector for a positive potential and at least one cross connector for a negative potential. The fuse module and the distributing module also have at least one additional cross connector for a potential that is protected by the fuse module.

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.

Provided is a display device including a display panel including a display region and a pad region adjacent to the display region. The display device includes a protective layer disposed under the display panel. The protective layer includes a first protection portion overlapping the display region and including a heat dissipation material. The protective layer includes a second protection portion overlapping at least the pad region, where the second protection portion is absent the heat dissipation material.