A circuit board includes a board, a land on the board, and an electronic component soldered to the land, the electronic component including a surface with a back surface electrode portion, the surface opposing the board, the land including an electrode land portion and a protruding land portion, the back surface electrode portion opposing the electrode land portion in a state in which the electronic component and the board are soldered, and the protruding land portion and the electrode land portion being integrated.

An optical module includes a photoelectric device and a flexible printed circuit board. The flexible printed circuit board includes an insulating substrate with a first surface and a second surface, a first wiring pattern on the first surface, and a second wiring pattern on the second surface. The first wiring pattern includes a signal line with a signal terminal portion at a tip and a signal-line portion narrower than the signal terminal portion, the first wiring pattern including a pair of ground pads at positions sandwiching the signal-line portion, at least part of the pair of ground pads avoiding being adjacent to the signal terminal portion. The second wiring pattern includes a ground plane overlapping with the signal-line portion and being connected to the pair of ground pads, the second wiring pattern including a signal pad connected to the signal terminal portion.

This application provides a multilayer printed circuit board (PCB). There is a pad array on a surface of the multilayer PCB. The pad array includes at least one padding unit, and each padding unit includes a first pad and a second pad that are adjacent. Both the first pad and the second pad are connected to a first Z-directed transmission line located in a Z-directed groove. In this way, to wire a signal wire on a signal layer of the multilayer PCB, a quantity of Z-directed grooves that need to be bypassed is less than a quantity of vias that need to be bypassed in the prior art. In other words, wiring of the signal wire is easier to some extent. In addition, this application further provides a corresponding communications device.

An edge connector includes a first row of golden fingers and a second row of golden fingers. The first row of golden fingers is adjacent to a plugging end of the edge connector, and the second row of golden fingers is adjacent to the first row of golden fingers. In a plugging direction of the edge connector, each golden finger in the first row of golden fingers has a first end proximate to the plugging end and a second end opposite to the first end. A first end of a grounded golden finger in the first row of golden fingers is protruded from other golden fingers, and second ends of two or more than two golden fingers in the first row of golden fingers are not aligned with each other.

According to one embodiment, a semiconductor storage device includes a board, a semiconductor memory component, and a capacitor. The hoard includes a first pad and a second pad. The first capacitor includes a first electrode and a second electrode. The first pad includes a first region and a second region. A direction from the first pad to the second pad is a first direction and a direction different from the first direction is a second direction. A difference between a dimension of the second region in the second direction and a dimension of the first electrode in the second direction is smaller than a difference between a dimension of the first region in the second direction and a dimension of the first electrode in the second direction.

The present disclosure describes an expansion card interface for a printed circuit board. The expansion card interface includes a substrate having an edge. The expansion card interface further includes a plurality of signal pins configured to communicate one or more signals to and from the printed circuit board. The expansion card interface further includes a plurality of ground pins adjacent to the plurality of signal pins configured to provide a ground. At least one signal pin of the plurality of signal pins extends closer to the edge of the substrate than at least one ground pin of the plurality of ground pins.

A printed circuit board comprises a board main body, a sensor, an external connection pad, and a hollow-structured electrical conductor. The board main body has a top face and a bottom face opposite the top face. The sensor is mounted on one of the top face and the bottom face of the board main body. The external connection pad is provided on the top face or the bottom face of the board main body opposite the sensor. The hollow-structured electrical conductor extends through the board main body and electrically connects the sensor to the external connection pad.

An electronic device including: a discrete transistor including a semiconductor chip encapsulated in a package made of an insulating material leaving access to a first pad of connection to a first conduction terminal of the transistor; and a printed circuit board (320) including first (125) and second (129) separate connection pads, wherein the transistor is assembled on the printed circuit board so that the first connection pad (105) of the transistor is in contact with the first (125) and second (129) connection pads of the printed circuit board.

A wiring substrate includes: a wiring structure that includes a wiring layer and an insulating layer laminated; a plurality of first posts that are formed along a periphery of a predetermined area on a surface of the wiring structure, and that protrude out from the surface of the wiring structure; and a second post that is connected to the wiring layer at a position surrounded by the first posts, and that protrudes out from the surface of the wiring structure. The first posts are formed such that a post arranged at a central portion of a side constituting the periphery of the predetermined area is lower in height from the surface of the wiring structure than posts arranged at both ends of the side.

A multilayer ceramic capacitor includes a ceramic main including first internal electrodes each drawn out to and reaching a pair of end surfaces and second internal electrodes each drawn out to and reaching a pair of side surfaces. A pair of end-surface external electrodes are respectively provided on the pair of end surfaces to be connected to the first internal electrodes, and a pair of side-surface external electrodes are respectively provided on the pair of side surfaces to be connected to the second internal electrodes. Each of the second internal electrodes has drawn-out parts that extend from an electrode main part and reach the pair of side surfaces, and with respect to each of the pair of side surfaces, two or more of the drawn-out parts are provided to extend from the electrode main part and reach the side surface.