A non-planar printed circuit board has an interior surface and an exterior surface. Between the interior surface and exterior surfaces are layers of conductive and dielectric materials. Passive and active electrical components are embedded within the interior and exterior surfaces. A hollow region is defined by the interior surface of the non-planar circuit board. The non-planar printed circuit board is manufactured on a mandrel having a non-planar shape such as, for example, a cylinder or sphere so as to form a hollow, curved non-planar structure.

A formation method of circuit board structure is disclosed. The formation method comprises: forming an intermediate substrate having interconnections therein and circuit patterns on both upper and lower surfaces, wherein the interconnections electrically connect the upper and lower circuit patterns; forming an upper dielectric layer overlying the upper circuit patterns, wherein the upper dielectric layer has a plurality of trenches therein; forming conductive wires in the trenches using e-less plating; and forming at least one protective layer overlying the conductive wires using a surface finishing process. The circuit board structure features formation of embedded conductive wires in the dielectric layer so that a short circuit can be avoid.

A wiring substrate includes an insulating layer including inorganic fillers and resin, and a conductor layer formed on a surface of the insulating layer and having a conductor pattern. The surface of the insulating layer has an arithmetic average roughness Ra in the range of 0.05 μm to 0.5 μm, the conductor layer includes a metal film formed on the surface of the insulating layer, and the inorganic fillers include a first inorganic filler including particles such that each of the particles has a portion of a surface separated from the resin and forming a gap with respect to the resin of the insulating layer and that the metal film of the conductor layer includes part formed in the gap between the first inorganic filler and the resin.

An electronic device is disclosed, including: a first support member including at least one screw-fastening portion; a first printed circuit board (PCB) stacked on the first support member and including at least one screw-fixing portion facing the at least one screw-fastening portion; a second PCB spaced apart from the first PCB, including a first screw guide groove; an interposer disposed between the first PCB and the second PCB electrically connecting them and including a second screw guide groove facing the first screw guide groove; and a second support member stacked on the second PCB and including a screw inlet portion facing the first screw guide groove. The second support member, the first PCB, and the first support member are fixed to each other via a screw inserted through the screw inlet portion.

A three-dimensional circuit substrate according to the present disclosure includes a base body and a wiring pattern formed on an outer surface of the base body. Also, the outer surface of the base body includes a mounting surface which faces the substrate when the three-dimensional circuit substrate is mounted onto the substrate, and an installation surface which is different from the mounting surface and is a surface where an electronic component is installable. Further, a recess is formed on a side where the mounting surface is provided in the base body.

A connection structure between a printed circuit board and a terminal block includes: an insertion portion at one end of the printed circuit board with a pattern disposed thereon; a terminal-block main body including a receiving port that receives the insertion portion; a nut held in the terminal-block main body; and a screw tightened into the nut. The pattern is interposed between the screw and the nut when the insertion portion is inserted into the receiving port.

A lamination circuit board structure lamination circuit board structure includes a printed circuit board substrate including conductive wiring traces on at least a first wiring face, a prepreg layer formed over the first wiring face, and a patch having an area smaller than 1,000 mm.sup.2. The patch includes conductive wiring traces formed on a wiring face and is laminated to the printed circuit board substrate over the prepreg layer, oriented with the wiring face in contact with and pressed into the prepreg layer. Portions of the prepreg layer fill interstices between the conductive wiring traces.

A first resin layer (1) has: a covered region which is covered by a second resin layer (2) and an exposed region (1a); a contact part (1b) which is provided in the exposed region (1a); and a bend part (1c) which is provided between (a) a boundary between the covered region and the exposed region (1a) and (b) the contact part (1b).

An embodiment includes an apparatus comprising: a rod-shaped substrate including a rod long axis; a first layer, including a first interconnect, substantially surrounding the substrate in a first plane that is orthogonal to the rod long axis; and a second layer, including a second interconnect, substantially surrounding the first layer in the first plane. Other embodiments are described herein.

A wiring board according to one embodiment of the present disclosure includes: partitions each having insulating property; and conductive members that are respectively disposed in at least two adjacent regions among a plurality of regions partitioned by the partitions. Two of the conductive members respectively disposed in the adjacent regions are joined to each other through an opening formed on one of the partitions interposed between the two of the conductive members, to serve as part of a wiring.