A method of manufacturing a curved-surface metal line is provided. A three-dimensional structure is formed with a metal member and then fixed together with an insulator. Alternatively, the metal member and the insulator are embedded-formed to jointly form the three-dimensional structure, or the metal member and the insulator are fixed together and then jointly form the three-dimensional structure. Then, a photoresist protection layer is formed outside the metal member, and a selective exposure treatment is performed such that corresponding locations of the photoresist protection layer being exposed is subject to a photochemical reaction. The photoresist protection layer is developed, and after the photoresist protection layer is partially dissolved, portions of the metal member at the corresponding locations are simultaneously exposed. The exposed portions of the metal member are etched, and residual portions of the photoresist protection layer are removed to form the metal line provided on the insulator.

A method for manufacturing a wiring circuit board that is a double-sided wiring circuit board includes a first step of preparing a laminate and a second step. The laminate includes a metal core layer, insulating layer, and conductor layers. The insulating layer has a region and an opening that are adjacent to each other. The insulating layer has a region including a part facing the region in a thickness direction, and an opening adjacent to the region. The conductor layer includes a wiring portion and a conductive portion. The conductor layer includes a wiring portion and a conductive portion. In the second step, the first and second etching treatments for etching the metal core layer through the openings are carried out to form a via portion having a periphery surrounded by a space, extending between the regions, and connected to the conductive portions.

Provide are a method for manufacturing a wiring board or a wiring board material, and the wiring board obtained by the method, which allows columnar metal members to be inserted into the wiring board at once using a simple operation, enables alignment without requiring strict accuracy, can handle columnar metal members having different shapes, and imparts sufficiently high adhesive strength to the columnar metal members. The method includes the steps of: laminating a laminate material LM including the support sheet 10 having the columnar metal members 14 formed thereon, a wiring board WB or a wiring board material WB′ having a plurality of openings in portions corresponding to the columnar metal members 14, and a prepreg 16′ having a plurality of openings in portions corresponding to the columnar metal members 14 and containing a thermosetting resin such that the columnar metal members 14 are positioned in the respective openings; integrating the laminate material LM by heating and pressing to obtain a laminate LB including a thermosetting resin filled between an inner surface of each of the openings of the wiring board WB or the wiring board material WB′ and each of the columnar metal members 14; and peeling at least the support sheet 14 from the laminate LB.

A method of manufacturing a printed circuit board includes forming an intermediate layer on a first conductive layer disposed on a first insulating layer, forming a second conductive layer and a second insulating layer on the intermediate layer, separating the first insulating layer from at least one portion of the first conductive layer, and etching the first conductive layer and the intermediate layer. After the etching, a surface of the second conductive layer protrudes further than a surface of the second insulating layer. The intermediate layer before the etching includes a portion overlapping the second conductive layer in a vertical direction and another portion not overlapping the second conductive layer in the vertical direction.

Provided is a wiring thin plate capable of suppressing deterioration of an electric characteristic and variation in thickness of an aerial wiring portion while advancing reduction of rigidity of the aerial wiring portion. The wiring thin plate includes an aerial wiring portion including wiring traces and passing over an airspace, aerial base layers provided at the respective wiring traces in the aerial wiring portion and being apart from each other, and an aerial cover layer provided in the aerial wiring portion and spanning from the wiring traces of the aerial wiring portion through the aerial base layers to interspaces between adjacent aerial base layers of said aerial base layers.

A component carrier including a stack with at least one electrically conductive layer structure and/or at least one electrically insulating layer structure. A component embedded in the stack, and a heat removal body configured for removing heat from the component is connected to the stack and preferably to the component. The heat removal body including a component-sided first heat removal structure thermally coupled with the component, and a second heat removal structure thermally coupled with the first heat removal structure and facing away from the component.

A wiring circuit board includes a metal support layer, a base insulating layer disposed on one side in a thickness direction of the metal support layer, and a conductive layer disposed on one side in the thickness direction of the base insulating layer, and including a first terminal and a ground lead residual portion electrically connected to the first terminal. The base insulating layer has a through hole penetrating in the thickness direction. The ground lead residual portion has an opening continuous so as to surround the through hole.

A housing for a luminaire or an operating device for the luminaire, wherein the housing is configured to accommodate at least one electronic component and/or a light source, and comprising a conductive housing component (2). The housing includes at least one line (1, 1′, 1″, 1′″, 1″″) for transmitting electric high frequency signals or for transmitting and/or receiving radio waves. The transmission line is formed by arranging a dielectric layer (4, 4a, 4b, 9) and a conductor (3, 3 . . . 3c, 7) on the housing component (2) such that the conductive housing component (2) serves as a reference plane, and the conductive housing component (2) and the conductor (3, 3 . . . 3c, 7) sandwich the dielectric layer (4, 4a, 4b, 9).

An electrical power assembly, comprising: at least one multilayer base structure, at least one power device embedded in the at least one multilayer base structure, an internal electrically conductive layer positioned on each side of the multilayer base structure, the internal electrically conductive layer being connected to a respective electrical contact of the power device through connections arranged in the multilayer base structure; at least one external electrically conductive layers positioned on each side of the base structure, each external electrically conductive layer comprising at least one pre-drilled through hole, at least one internal electrically insulating layer positioned between the internal electrically conductive layer of the base structure and a respective external electrically conductive layer, at least one hole arranged in the internal electrically insulating layer and the external electrically conductive layer, a portion of each hole being formed by the pre-drilled through hole, the at least one hole being filled with electrically conductive material to form external conductive vias to connect the internal electrically conductive layer to the respective external electrically conductive layer.

A wireless power supply wiring circuit board includes an insulating layer, a first wiring portion which is provided on one surface side in the thickness direction of the insulating layer, a first region including a second wiring portion which is provided on the other side in the thickness direction of the insulating layer, a second region in which the first wiring portion and the second wiring portion are provided on the same flat plane, a transceiver circuit portion, and a component mounting circuit portion which is electrically connected to the transceiver circuit portion.