In a conventional electronic device and a method of manufacturing the same, reduction in cost of the electronic device is hindered because resin used in an interconnect layer on the solder ball side is limited. The electronic device includes an interconnect layer (a first interconnect layer) and an interconnect layer (a second interconnect layer). The second interconnect layer is formed on the undersurface of the first interconnect layer. The second interconnect layer is larger in area seen from the top than the first interconnect layer and is extended to the outside from the first interconnect layer.

In a conventional electronic device and a method of manufacturing the same, reduction in cost of the electronic device is hindered because resin used in an interconnect layer on the solder ball side is limited. The electronic device includes an interconnect layer (a first interconnect layer) and an interconnect layer (a second interconnect layer). The second interconnect layer is formed on the undersurface of the first interconnect layer. The second interconnect layer is larger in area seen from the top than the first interconnect layer and is extended to the outside from the first interconnect layer.

A first conductive layer is in contact with a first inter-layer connection conductor and a second inter-layer connection conductor. The first conductive layer has a same composition as the first and second inter-layer connection conductors. At least one first metal foil layer is in contact with a third main surface of the first conductive layer. The at least one first metal foil layer overlaps the first and second inter-layer connection conductors when viewed in a first direction. At least one second metal foil layer overlaps the first and second inter-layer connection conductors when viewed in the first direction, and is electrically connected to the first and second inter-layer connection conductors. The at least one second metal foil layer has a composition different from that of the first conductive layer.

In a conventional electronic device and a method of manufacturing the same, reduction in cost of the electronic device is hindered because resin used in an interconnect layer on the solder ball side is limited. The electronic device includes an interconnect layer (a first interconnect layer) and an interconnect layer (a second interconnect layer). The second interconnect layer is formed on the undersurface of the first interconnect layer. The second interconnect layer is larger in area seen from the top than the first interconnect layer and is extended to the outside from the first interconnect layer.

A fibrillated liquid crystal polymer powder containing fibrillated liquid crystal polymer particles. A paste containing a dispersion medium and the fibrillated liquid crystal polymer powder. A method of producing the fibrillated liquid crystal polymer powder. A resin multilayer substrate obtained by laminating a plurality of resin sheets including at least one layer of a liquid crystal polymer sheet. On a surface of at least one layer of the liquid crystal polymer sheet, a thickness adjustment layer made of a fibrillated liquid crystal polymer powder containing fibrillated liquid crystal polymer particles is provided in a region insufficient in thickness when at least the plurality of resin sheets are laminated.

In a conventional electronic device and a method of manufacturing the same, reduction in cost of the electronic device is hindered because resin used in an interconnect layer on the solder ball side is limited. The electronic device includes an interconnect layer (a first interconnect layer) and an interconnect layer (a second interconnect layer). The second interconnect layer is formed on the undersurface of the first interconnect layer. The second interconnect layer is larger in area seen from the top than the first interconnect layer and is extended to the outside from the first interconnect layer.

A printed circuit board in accordance with a disclosed embodiment may include first insulating layer having first via formed therein and second insulating layer laminated on both surfaces of the first insulating layer and having second via formed therein. The second via may connect first circuit formed on the first insulating layer with second circuit formed on the second insulating layer. A diameter of the second via may become greater toward an inside of the printed circuit board.

In a high frequency signal line, a first signal line extends along a first dielectric element assembly, a first reference ground conductor extends along the first signal line, a second signal line is provided in or on the second dielectric element assembly and extends along the second dielectric element assembly, a second reference ground conductor is provided in or on the second dielectric element assembly and extends along the second signal line. A portion of a bottom surface at an end of the first dielectric element assembly and a portion of the top surface at an end of the second dielectric element assembly are joined together such that a joint portion of the first and second dielectric element assemblies includes a corner. The second signal line and the first signal line are electrically coupled together. The first and second reference ground conductors are electrically coupled together.

The present invention includes an aluminum board, an electromagnet core, and a coil. The aluminum board includes a first surface, a second surface opposite to the first surface, and multiple through vias in communication with the first surface and the second surface. The electromagnet core is mounted on the first surface, and the through vias are located on two opposite sides of the electromagnet core. The coil is mounted through the through vias to wrap around the electromagnet core. An inside wall of each of the through vias forms an anodic aluminum oxide (AAO) by an anodizing process. The present invention is able to decrease via size of a conductive through via of a vertically embedded inductor. This allows through vias to be more densely formed on a board, and thus increases an amount of the coil wrapped around the electromagnetic core and increases inductance of the inductor.

Before a laminated body is subjected to hot pressing, at least two or more land electrodes are displaced from each other as viewed in the lamination direction, whereby at least two or more gaps disposed in the lamination direction are displaced from each other as viewed in the lamination direction. The hot pressing on the laminated body causes resin materials that compose resin films to flow and fill the gaps in the laminated body. Consequently, the planarity of a multilayer substrate can be improved to a greater extent than in a case where a plurality of gaps disposed in the lamination direction is located at the same position as viewed in the lamination direction.