Provided is a current detection device including a first stacked board; a second stacked board provided on a first region on the first stacked board; a third stacked board provided on a second region on the first stacked board; a magnetic measurement element provided in a third region on the first stacked board, the magnetic element provided between the first region and the second region; and a first coil provided on the magnetic measurement element or below the magnetic measurement element.

A printed circuit board which improves the peel strength of a wiring pattern formed at a cavity bottom portion while enabling connection between an electronic component inside a cavity and a circuit outside the cavity to be performed at the cavity bottom portion, includes a cavity in a partial region of a multilayer substrate laminated with an insulating resin layer and an electrical conductor layer on a bottom layer of an insulating resin substrate. The cavity opens on a side of the insulating resin substrate, penetrates the insulating resin substrate, and includes a surface of the insulating resin layer as a bottom surface. The electrical conductor layer has a surface, the surface having a height equivalent to a height of the surface of the insulating resin layer and being embedded in the insulating resin layer in a manner to form a portion of the bottom surface.

A method of manufacturing a semiconductor package includes preparing a core substrate having an upper surface and a lower surface, and including a cavity. A passive component is disposed in the cavity. A first insulating layer is formed on the upper surface of the core substrate and in the cavity and encapsulates the passive component. Through-vias are formed that penetrate the core substrate and the first insulating layer, and a first wiring layer is formed on the first insulating layer. The first wiring layer connects the through-vias and the passive component. A connection structure including an insulating member is formed on the first insulating layer and a redistribution layer is formed in the insulating member. The redistribution layer is connected to the first wiring layer. A semiconductor chip is disposed on an upper surface of the connection structure. The semiconductor chip has connection pads connected to the redistribution layer.

A circuit board includes a core portion including a first cavity formed in one surface, and a second cavity formed in the other surface opposing the one surface and having a diameter different from a diameter of the first cavity; a first metal layer disposed on the one surface of the core portion; a second metal layer buried in the core portion; and a third metal layer disposed on the other surface of the core portion, wherein each of the first and second cavities of the core portion exposes at least a portion of the second metal layer.

An electronic component embedded substrate includes: an insulating material including a cavity formed in one surface thereof; a protective layer embedded in the insulating material and covering an entire bottom surface of the cavity; solders disposed on side surfaces of the cavity; and an electronic component disposed in the cavity and at least partially in contact with the solders, wherein the protective layer has a material different from that of the insulating material.

Methods, systems, devices, and products for constructing a downhole tool electronics module. Methods may include creating a circuit board by metallizing at least part of a first surface on a first side of a substrate to define at least one metallized area on the first surface, wherein the substrate comprises a ceramic material and includes: the first side, including at least (i) the first surface, and (ii) an elevated surface elevated from the first surface, and a second side opposite the first side; flattening at least partially the elevated surface to a predefined first flatness to create a mounting portion by removing material from the elevated surface; attaching an electronics component to the first surface; and mounting the circuit board on an electronics carrier by adhering at least part of the mounting portion to a mounting surface on the electronics carrier. Flattening at least partially the elevated surface to the predefined first flatness may be carried out by removing the material by areal grinding.

A method of manufacturing a component carrier includes: (i) embedding a poorly adhesive structure in a stack, wherein the stack comprises at least one electrically conductive layer structure and/or at least one electrically insulating layer structure; (ii) forming a cavity in the stack by removing a stack piece, wherein the stack piece is in part delimited by the poorly adhesive structure; and (iii) selectively exposing a bottom of the cavity by partially removing the poorly adhesive structure. A corresponding component carrier includes analogous features.

A printed circuit board includes a first insulating layer; a protective filler layer disposed on one surface of the first insulating layer; a first wiring layer disposed on the one surface of the first insulating layer and having a pad protruding with respect to the protective filler layer; a first via passing through the first insulating layer and contacting the pad; and a second insulating layer disposed on the first wiring layer and the protective filler layer, and having a cavity exposing the pad and at least a portion of the protective filler layer, respectively.

A printed circuit board includes: a first insulating material; and a second insulating material disposed on one surface of the first insulating material, and including first and second cavities having depths different from each other. At least one groove portion is disposed in a side surface of each of the first and second cavities.

A detachable capacitor connection structure is provided for a storage device. In an embodiment, a connection element detachably connects a capacitor module including one or more capacitors to a circuit board such that the capacitor module is stacked over the circuit board. The connection element includes: a first connector including two pin headers, mounted on a bottom plane of the capacitor module; and a second connector including two sockets, mounted on a top plane of the circuit board corresponding to the bottom of the capacitor module, suitable for connecting the first connector to the circuit board.