A circuit board is disclosed, including a circuit board body and at least one via apparatus provided on the circuit board body. The via apparatus includes a via (101) formed on the circuit board body, a via pad (201) surrounding the via and separately provided from the via, and an electrical conductor (301) electrically connecting the via pad (201) with the via (101).

The present disclosure relates to an electronic component, a voltage regulation module and a voltage stabilizer. The electronic component may include a substrate, a first electronic element and a second electronic element. The substrate may be provided with a first surface and a second surface that are opposite to each other. The first electronic element may be embedded in the substrate, and may be provided with a first electrical connection terminal and a second electrical connection terminal. The first electrical connection terminal may connect with a first surface of the substrate, the second electrical connection terminal may connect with a second surface of the substrate. The second electronic element may be arranged on the second surface of the substrate and electrically connected to the second electrical connection terminal. The second electronic element may form a stack with the substrate along the first direction.

A high-frequency circuit includes a first dielectric layer, a circuit layer, a second dielectric layer arranged in this order, the circuit layer includes a transmission line of a high-frequency signal and a ground pattern disposed around the transmission line. An electromagnetic wave shield is disposed in the first dielectric layer and the second dielectric layer around the transmission line. The electromagnetic wave shield includes a first ground electric conductor formed on an inner surface of at least one first hole formed to extend through the first dielectric layer without extending through the ground pattern, and a second ground electric conductor formed on an inner surface of at least one second hole formed to extend through the second dielectric layer without extending through the ground pattern. The first ground electric conductor and the second ground electric conductor are each electrically connected to the ground pattern.

An illustrative example embodiment of an electronic device includes an integrated circuit component having a plurality of solder balls on one side. The substrate includes a first side adjacent the one side of the integrated circuit component. The substrate includes a plurality of openings. At least some of those openings are aligned with the solder balls. A cooling plate is situated toward a second side of the substrate. A thermally conductive material within the plurality of openings is thermally coupled with the cooling plate. At least some of the thermally conductive material is thermally coupled with the solder balls.

An illuminating circuit structure includes a film sheet, an illuminant, a printed baseline layer, and a printed pad layer. The printed baseline layer includes a first baseline segment and a second baseline segment printed on the film sheet, while the printed pad layer includes a first bar pad and a second bar pad. For a first baseline head of the first baseline layer and a first pad head of the first bar pad, one of which extends along a first direction and the other of which extends along a second direction not parallel to the first direction. Therefore, the first baseline segment and the first bar pad achieve electrical connection despite of an existed print shifting. Similarly, a second baseline head of the second baseline layer and a second pad head of the second bar pad also can achieve electrical connection despite of an existed print shifting.

A printed substrate forming method includes: a resin layer forming step of forming a resin layer with curable resin in a specific region that is a region other than a predetermined region of a base which is composed of an insulating layer and a conductor layer, the predetermined region of which being a region on which a solder resist is formed; and a wiring forming step of forming a wiring by discharging metal-containing liquid which contains metal fine particles onto a top surface of the resin layer, and firing the metal-containing liquid.

A display device includes: a display substrate including a display area and a pad area disposed around the display area; a signal wiring disposed over the display area and the pad area on the display substrate; at least one wiring pad including: a pad pattern portion disposed on the pad area of the display substrate and electrically connected to the signal wiring; and a separation pattern portion separated from the pad pattern portion by a separation space; and a printed circuit board attached to the pad area of the display substrate, the printed circuit board including a lead wiring connected to the at least one wiring pad.

The present invention discloses an integrated miniature welding plate structure and manufacturing process therefor, which consists of pads with welded dots, welding wires and a welding plate; the manufacturing process of the welding plate consists of following steps: S1. Punching holes, take a SMT patch fixed with several welding plates, punch holes in the welding plates in accordance with the requirements; S2 Electroplating, electroplate a metal layer with electroplating process onto the inner walls of the holes in each of the welding plates; S3. Gluing, pour the insulation colloid into the holes in each of the welding plates, then electroplate a metal layer onto both ends of the colloid; S4. Cutting, cut each of the welding plates off the patch. The beneficial effects are: the welding wires are welded with the welding plates, then the welding plates are connected with the welded dots of the to-be-welded parts, the adopted welding method of the welding plates can improve the overall welding efficiency, ensure the welding strength of the welded dots and improve the welding quality; the structure design of the base plate and vertical plate is adopted for the welding plates, the welding wires are welded onto the vertical plates in a centralized manner, so the status that the welding wires not being parallel and upright can be obviously improved.

A circuit board structure includes a dielectric substrate, at least one embedded block, at least one electronic component, at least one first build-up circuit layer, and at least one second build-up circuit layer. The dielectric substrate includes a through cavity penetrating the dielectric substrate. The embedded block is fixed in the through cavity. The embedded block includes a first through hole and a second through hole. The electronic component is disposed in the through hole of the embedded block. The first build-up circuit layer is disposed on the top surface of the dielectric substrate and covers the embedded block. The second build-up circuit layer is disposed on the bottom surface of the dielectric substrate and covers the embedded block.

A method of forming a semiconductor structure is provided. A layout of a substrate is provided. The layout includes a surface having an inner region and an outer region surrounding the inner region. An under bump metallurgy (UBM) pad region within the outer region is defined. The UBM pad region is partitioned into a first zone and a second zone, wherein the first zone faces towards a center of the substrate, and the second zone faces away from the center of the substrate. The substrate is provided according to the layout, wherein the providing of the substrate includes forming a conductive via in the substrate. The conductive via is disposed outside the second zone and at least partially overlaps the first zone from a top view perspective. A UBM pad is formed over the conductive via and within the UBM pad region.