A method for manufacturing an interconnect structure and an interconnect structure are provided. The method includes: forming an opening in a substrate; forming a low-k dielectric block in the opening; forming at least one via in the low-k dielectric block; and forming a conductor in the via. The interconnect structure includes a substrate, a dielectric block, and a conductor. The substrate has an opening therein. The dielectric block is present in the opening of the substrate. The dielectric block has at least one via therein. The dielectric block has a dielectric constant smaller than that of the substrate. The conductor is present in the via of the dielectric block.

A method of making a wiring board includes forming a first capacitor carrier layer with a first embedded chip capacitor, a first insulation layer disposed on an upper surface, a second insulation layer disposed on a lower surface, first upper and lower conductive vias in conductive contact with a first electrode, and second upper and lower conductive vias in conductive contact with a second electrode. The method also includes forming a second capacitor carrier layer similar to the first. The method further includes forming a bonded laminate comprising in sequence an upper insulation layer, the first capacitor carrier layer, a center insulation layer, the second capacitor carrier layer, and a lower insulation layer. The method also includes forming a through-hole through the laminate and forming a conductive coating within the through-hole to provide a conductive through-hole. A wiring board also includes the bonded laminate and the embedded capacitors.

A wiring board includes an insulating base including a first principal surface, a second principal surface opposite to the first principal surface, and a first through hole penetrating the insulating base from the first principal surface to the second principal surface, a functional material provided inside the first through hole, a first insulating layer covering the first principal surface, and a first surface of the functional material, and a second insulating layer covering the second principal surface, and a second surface of functional material. A second through hole is formed in the first insulating layer, the functional material, and the second insulating layer, and a conductive layer is formed on a wall surface of the second through hole.

An interconnect structure includes a substrate, a dielectric block, and a conductor. The dielectric block is in the substrate. A dielectric constant of the dielectric block is smaller than a dielectric constant of the substrate, and the dielectric block and the substrate have substantially the same thickness. The conductor includes a first portion extending from a top surface to a bottom surface of the dielectric block and a second portion extending along and contacting the top surface of the dielectric block.

The present disclosure relates to semiconductor structures and, more particularly, to dicing channels used in the singulatation process of interposers and methods of manufacture. The structure includes: one or more redistribution layers; a glass interposer connected to the one or more redistribution layers; a channel formed through the one or more redistribution layers and the glass interposer core, forming a dicing channel; and polymer material conformally filling the channel.

Provided are a circuit board, an apparatus and a method for forming a via hole structure. A via hole structure formed on a main body (10) of a circuit board includes a hole (12) enclosed by a conductive layer in the main body (10), the conductive layer constitutes a wall (11) of the hole (12), and a dielectric filling layer (13), which has a dielectric constant smaller than that of the main body (10), is disposed between at least a portion of the wall (11) of the hole (12) and the main body (10), so that the parasitic capacitance of a via hole is decreased, and the impedance of the via hole is increased to become closer to the impedance of a transmission line, thereby effectively improving impedance continuity of a system link.

An interconnection substrate having a barcode includes a core layer, an interconnection layer over a first surface of the core layer, an insulating layer to cover the interconnection layer, and one or more additional interconnection layers over the insulating layer, wherein the barcode includes cells arranged at spaced intervals, and a cell pattern is made by forming penetrating holes through the core layer in some of the cells but not in remaining ones of the cells, wherein the penetrating holes are filled with resin, and an end face of the resin is exposed on the same side as the first surface such that the interconnection layer is situated in a surrounding area of the end face but not over the end face, and wherein a number of interconnection layers over the end face is smaller than a number of interconnection layers in the surrounding area of the end face.

An electronic device module includes: a substrate; at least one electronic device mounted on a first surface of the substrate; a connection portion mounted on the first surface of the substrate; and a shielding portion disposed along an external surface of the connection portion and electrically connected to a ground of the substrate through at least one connection conductor.

In one embodiment, a printed circuit board (PCB) assembly includes a PCB, the PCB being arranged to define a through-hole therein, the through-hole having a surface, wherein the PCB includes a top surface and a bottom surface. The PCB assembly also includes a slug arrangement and a surface mount component. The slug arrangement is formed from an electrically and thermally conductive material and includes at least a first portion and a second portion. At least a part of the first portion is positioned in the through-hole, and the second portion is coupled to the bottom surface. The surface mount component is positioned over the through-hole and the top surface, and has a first surface configured to contact the first portion.

A printed circuit board includes: a first electrode made of a tubular electric conductor formed on an inner wall of a first hole formed in the printed circuit board; a dielectric body disposed inside the first electrode; and a second electrode made of a tubular electric conductor formed on an inner wall of a second hole extending through the dielectric body, the second electrode having a center axis concentric with the first electrode.