A circuit board is disclosed. In addition to insulating layers, the circuit board includes a structure for heat transfer that includes a first layer that is formed of graphite or graphene, a second layer that is formed of metallic material and disposed on one surface of the first layer, and a third layer that is formed of metallic material and disposed on the other surface of the first layer, and at least a portion of the structure for heat transfer is inserted into an insulation layer. Such a circuit board provides improved heat management. Also disclosed is a method of manufacturing the circuit board.

A circuit substrate of one aspect of the present invention includes a first substrate body made of a flexible wiring substrate and having a first edge and a second edge opposite to the first edge, the first substrate body having a bottomed or bottomless recess adjacent to the first edge; a plate-shaped or frame-shaped reinforcement member disposed in the recess of the first substrate body adjacent to the first edge; a pair of resin layers sandwiching the reinforcement member in the recess and a portion of the first substrate body adjacent to the reinforcement member including the first edge, each of the resin layers having a circuit portion formed thereon electrically connected to the flexible wiring substrate.

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.

An axial field rotary energy device has a PCB stator panel assembly between rotors with an axis of rotation. Each rotor has a magnet. The PCB stator panel assembly includes PCB panels. Each PCB panel can have layers, and each layer can have conductive coils. The PCB stator panel assembly can have a thermally conductive layer that extends from an inner diameter portion to an outer diameter portion thereof.

A wiring substrate includes a core substrate, and a build-up layer including conductor layers and insulating layers alternately laminated on the substrate and via conductors formed in the insulating layers, each insulating layer having a coating layer and a support layer stacked on the coating layer such that the support layer has surface on which a conductor layer is laminated and the coating layer is covering a conductor layer, each via conductor connecting two conductor layers through an insulating layer. The coating layer has a thickness greater than that of the support layer and includes inorganic filler at content rate of 65 to 85% by mass, and the support layer includes inorganic filler at different content rate such that thermal expansion coefficient of the coating layer is smaller than that of the support layer and the coefficients of the coating and support layers have difference of 30 ppm/° C. or less.

In one embodiment, an apparatus includes a substrate comprising a first surface and a second surface opposite to the first surface, an integrated circuit attached to the first surface of the substrate, and a cold plate attached to the second surface of the substrate with an electrical path extending through the cold plate for transmitting power from a power component connected to the cold plate, to the integrated circuit.

A printed circuit board includes a first insulating layer having mounting regions for electronic components and wiring patterns provided on an upper surface, a second insulating layer provided so as to be in contact with a lower surface of the first insulating layer, and a metal core embedded in the second insulating layer so as to vertically overlap the mounting regions. The metal core is formed into a predetermined shape by stamping out a metal plate. One outer surface orthogonal to the thickness direction of the metal core is a protruding surface having a curved portion formed at its edge, and is in contact with the lower surface of the first insulating layer. The other outer surface orthogonal to the thickness direction of the metal core is a recessed surface having a protruding portion formed at its edge, and is exposed from a lower surface of the second insulating layer.

The present description relates to the field of fabricating microelectronic structures. The microelectronic structure may include a microelectronic substrate have an opening, wherein the opening may be formed through the microelectronic substrate or may be a recess formed in the microelectronic substrate. A microelectronic package may be attached to the microelectronic substrate, wherein the microelectronic package may include an interposer having a first surface and an opposing second surface. A microelectronic device may be attached to the interposer first surface and the interposer may be attached to the microelectronic substrate by the interposer first surface such that the microelectronic device extends into the opening. At least one secondary microelectronic device may be attached to the interposer second surface.

A wiring board includes a substrate, a surface protection film laminated on the substrate and having an opening portion, and a conductor block embedded in the substrate and having a pad portion exposed by the opening portion of the surface protection film. The conductor block has an annular groove formed such that the annular groove is surrounding the pad portion of the conductor block, and the surface protection film is formed such that a portion of the surface protection film is extending into the annular groove.

In one embodiment, a printed circuit board (PCB) assembly includes a PCB, the PCB being arranged to define a through-hole therein, the through-hole having a surface, wherein the PCB includes a top surface and a bottom surface. The PCB assembly also includes a slug arrangement and a surface mount component. The slug arrangement is formed from an electrically and thermally conductive material and includes at least a first portion and a second portion. At least a part of the first portion is positioned in the through-hole, and the second portion is coupled to the bottom surface. The surface mount component is positioned over the through-hole and the top surface, and has a first surface configured to contact the first portion.