A printed wiring board includes a base insulating layer, a conductor layer formed on the base insulating layer and including conductor pads, an underlayer formed on one of the conductor pads of the conductor layer and including a metal different from a metal of the conductor layer, a solder resist layer formed on the base insulating layer such that the solder resist layer is covering the conductor layer and has openings exposing the conductor pads, respectively, and a bump formed directly on a first conductor pad of the conductor pads and including a base plating layer formed in a first opening of the openings and a top plating layer formed on the base plating layer such that a metal of the base plating layer is same as the metal of the conductor layer.

A circuit board for an antenna may include a core layer, a signal wiring disposed on a surface of the core layer, and a co-planar ground disposed around the signal wiring on the surface of the core layer. The co-planar ground may include line patterns adjacent to a front end portion of the signal wiring.

A mixed powder for a low temperature cofired ceramic material that contains 65 to 80 parts by weight of SiO.sub.2, 5 to 25 parts by weight of BaO, 1 to 10 parts by weight of Al.sub.2O.sub.3, 0.1 to 5 parts by weight of MnO, 0.1 to 5 parts by weight of B.sub.2O.sub.3, and 0.1 to less than 3 parts by weight of Li.sub.2O. The ceramic sintered body is used for, for example, ceramic electronic components, e.g., a multilayer circuit board or a coupler.

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 manufacturing method of manufacturing a constituent for a component carrier, wherein the method comprises providing an electrically conductive structure, forming a highly thermally conductive and electrically insulating or semiconductive structure on the electrically conductive structure, subsequently, and attaching a thermally conductive and electrically insulating structure, having a lower thermal conductivity than the highly thermally conductive and electrically insulating or semiconductive structure, on an exposed surface of the highly thermally conductive and electrically insulating or semiconductive structure.

A composite substrate structure includes a circuit substrate, a first anisotropic conductive film, a first glass substrate, a dielectric layer, a patterned circuit layer and a conductive via. The first anisotropic conductive film is disposed on the circuit substrate. The first glass substrate is disposed on the first anisotropic conductive film and has a first surface and a second surface opposite to the first surface. The first glass substrate includes a first circuit layer, a second circuit layer and at least one first conductive via. The first circuit layer is disposed on the first surface. The second circuit layer is disposed on the second surface. The first conductive via penetrates the first glass substrate and is electrically connected to the first circuit layer and the second circuit layer. The first glass substrate and the circuit substrate are respectively located on two opposite sides of the first anisotropic conductive film.

A substrate is disclosed. In an embodiment, a substrate includes a ceramic main body, an organic surface structure on at least one first outer face of the ceramic main body and outer redistribution layers integrated into the organic surface structure.

A printed circuit board includes a magnetic member including a magnetic layer, a first coil pattern disposed above the magnetic member, and having a planar spiral structure, and a second coil pattern disposed below the magnetic member, and having a planar spiral structure.

A glass core device with a wiring pattern on a first surface of a glass core and a wiring pattern on a second surface thereof being electrically connected via a wiring pattern embedded in TGVs formed in the glass core. In a state of being cut out by dicing, each glass core has a second surface and side faces which are continuously covered with an outer protective layer.

A wiring board includes: a ceramic board including a ceramic insulator layer composed mainly of ceramic, and a wiring disposed at the ceramic insulator layer; a first resin board and a second resin board each of which includes a resin insulator layer composed mainly of resin, and a wiring disposed at the resin insulator layer; and a metal member mounted to the second resin board. The first resin board is superposed to a first surface of the ceramic board. The second resin board is superposed to a second surface of the ceramic board opposite to the first surface of the ceramic board. The second resin board includes a joint pad at its first surface opposite to its second surface facing the ceramic board, the joint pad made of metal. The metal member is joined to the joint pad by brazing or soldering.