A circuit board includes: a base body formed of ceramics or sapphire, the base body being provided with a through hole which penetrates therethrough from one principal face to another principal face of the base body; a through conductor containing silver as a major constituent, the through conductor being located inside the through hole of the base body; metallic wiring layers located on the respective principal faces of the base body and on the through conductor; and regions in which a compound containing at least one substance selected from Sn, Cu, and Ni is present between the through conductor and the metallic wiring layers.

An electrical contact pad for electrically contacting a connector includes a first region having a first length in a longitudinal direction, and a second region having a second length in the longitudinal direction that is greater than the first length. The first region is arranged to contact a first arm of the connector and the second region is arranged to contact a second arm of the connector. The first length being smaller than the second length results in an increase in the impedance of the electrical contact pad as compared to typical contact pads which tend to correspond to low impedance regions.

Disclosed is an electronic card, in the form of a flexible smart card provided with a flexible circuit, that includes a bottom face receiving electronic components and a top face provided with contact tabs intended to be connected to conductive tracks of a garment textile. The flexible circuit being covered on its bottom face with at least one bottom layer of bonding adhesive, first polymer layers provided with cutouts for receiving components and second polymer layers for encapsulating the components, and covered on its top face with a top layer of bonding adhesive and at least one top layer forming an outer face of the card made from polymer material provided with cutouts for accessing the contact tabs, in which at least some of the contact tabs are produced on the rim of the card and provided with an end part on the edge of the card.

In a semiconductor device (SP1) according to an embodiment, a solder resist film (first insulating layer, SR1) which is in contact with the base material layer, and a resin body (second insulating layer, 4) which is in contact with the solder resist film and the semiconductor chip, are laminated in between the base material layer (2CR) of a wiring substrate 2 and a semiconductor chip (3). In addition, a linear expansion coefficient of the solder resist film is equal to or larger than a linear expansion coefficient of the base material layer, and the linear expansion coefficient of the solder resist film is equal to or smaller than a linear expansion coefficient of the resin body. Also, the linear expansion coefficient of the base material layer is smaller than the linear expansion coefficient of the resin body. According to the above-described configuration, damage of the semiconductor device caused by a temperature cyclic load can be suppressed, and thereby reliability can be improved.

A method for manufacturing a light-emitting module includes a step of providing a bonded board including a board including, on a first surface, a circuit pattern and wiring pads that are continuous with the circuit pattern and each have bottomed holes and light-emitting segments connected on a second surface of the board with an adhesive sheet interposed therebetween and including an array of light-emitting devices; a step of supplying electrically conductive paste inside the bottomed holes and on portions of the surface of the wiring pad around the bottomed holes through openings of a mask; and a step of performing thermal compression to harden the electrically conductive paste such that the thickness of the electrically conductive paste on the portions of the surface of the wiring pad is smaller than the electrically conductive paste at the timing of being disposed through the openings of the mask.

An electro-optical panel including a display region includes a first terminal group including a plurality of first terminals arranged along a first side of a liquid crystal panel; and a second terminal group disposed between the first terminal group and the display region and including a plurality of second terminals arranged along the first side, in which the number of the plurality of second terminals is smaller than the number of the plurality of first terminals.

Systems and methods for magnetic coupling. One system includes an external computing device and a connector having a conductive end. The system also includes a printed circuit board. The printed circuit board includes a connector side opposite a back side. The connector side has a contact pad with an aperture. The printed circuit board also includes a magnet positioned on the back side of the printed circuit board. The magnet provides a magnetic field configured to provide magnetic attraction forces to a connector contacting the contact pad. The printed circuit board also includes a communication terminal. The system also includes a circuit in communication with the printed circuit board through the connector and contact pad.

Various exemplary embodiments relate to a printed circuit board (PCB) for electrically connecting a surface mount component including: a plurality of metal pads on the surface of one side of the PCB corresponding to connection points on the component, wherein at least a portion of the plurality of metal pads have stubs which extend outside the boundary of the surface mount component when the surface mount component is mounted to the PCB; and wherein the stubs have sufficient thermal conductivity to facilitate at least one of the set of dismounting and reattaching of the surface mount component.

A connector attached multi-conductor cable includes a multi-conductor cable and a connector, and the connector includes a circuit board including a first surface, a second surface, and a third surface provided at a tip in a direction of connector insertion to connect the first surface to the second surface. The circuit board includes a first group of pads including a plurality of first pads provided on the first surface and connected to central conductors of the electric wires; a second group of pads including a plurality of second pads provided on the first surface, arranged in a first direction parallel to the third surface, and connected to the first pads; a first ground layer provided between the first surface and the second surface, and extending in a second direction parallel to the first surface and perpendicular to the first direction; and a conductive member provided on a side apart from the first group of pads in the second direction with respect to the second group of pads, and connected to the first ground layer. The conductive member is positioned on the first surface side with respect to the first ground layer in a third direction perpendicular to the first surface.

A semiconductor chip is mounted on a mounting substrate. The semiconductor chip includes plural first bumps on a surface facing the mounting substrate. The plural first bumps each have a shape elongated in a first direction in plan view and are arranged in a second direction perpendicular to the first direction. The mounting substrate includes, on a surface on which the semiconductor chip is mounted, at least one first land connected to the plural first bumps. At least two first bumps of the plural first bumps are connected to each first land. The difference between the dimension of the first land in the second direction and the distance between the outer edges of two first bumps at respective ends of the arranged first bumps connected to the first land is 20 μm or less.