A substrate that includes a first dielectric layer and a capacitor embedded in the first dielectric layer. The capacitor includes a first terminal, a second terminal, and a third terminal. The second terminal is laterally located between the first terminal and the third terminal. The capacitor also includes a second dielectric layer, a first metal layer and a second metal layer. The first metal layer is coupled to the first and third terminals. The first metal layer, the first terminal, and the third terminal are configured to provide a first electrical path for a first signal. The second metal layer is coupled to the second terminal. The second metal layer and the second terminal are configured to provide a second electrical path for a second signal.

A wiring board includes electronic components, a multilayer core substrate including insulating layers and conductive layers such that the insulating layers include a central insulating layer in the center position of the core in the thickness direction, a first build-up layer including an insulating layer and a conductive layer such that the insulating layer has resin composition different from that of the insulating layers in the core, and a second build-up layer including an insulating layer and a conductive layer such that the insulating layer has resin composition different from that of the insulating layers in the core. The core has cavities accommodating the electronic components, respectively, and including a first cavity and a second cavity such that the first and second cavities have different lengths in the thickness direction and are penetrating through the central layer at centers of the first and second cavities in the thickness direction.

A substrate with an electronic component embedded therein includes: a core structure having a cavity; a metal layer disposed on a bottom surface of the cavity of the core structure; and an electronic component disposed on the metal layer in the cavity of the core structure. The substrate with the electronic component embedded therein has an excellent heat dissipation effect.

In a method for manufacturing a device embedded substrate, a conductive via that penetrates a first insulating layer and a second insulating layer from an outer metal layer to reach a second terminal of an IC device is formed after forming the outer metal layer.

A circuit board includes an insulating material; and a heat-transfer structure comprising a plurality of heat-dissipating members and inserted in the insulating material, wherein the plurality of heat-dissipating members each includes a metal wire; and an insulating part disposed on an outer circumferential surface of the metal wire excluding a top surface and a bottom surface of the metal wire.

Provided is a printed circuit board including: an insulating layer; electronic devices embedded in the insulating layer; and an adhesive layer for fixing the electronic devices.

A circuit board with reduced dielectric losses enabling the movement of high frequency signals includes an inner circuit board and two outer circuit boards. The inner circuit board includes a first conductor layer and a first substrate layer. The first conductor layer includes a signal line and two ground lines on both sides of the signal line. The first substrate layer covers a side of the first conductor layer and defines first through holes which expose the signal line. Each outer circuit board includes a second substrate layer and a second conductor layer. The second substrate layer abuts the inner circuit board and defines second through holes which are not aligned with the first through holes, partially surrounding the signal line with air which has a very low dielectric constant. A method for manufacturing the high-frequency circuit board is also disclosed.

A wiring board includes a core layer having a first through hole formed therein, a magnetic resin filled inside the first through hole, a second through hole formed in the magnetic resin, and a plating film covering an inner wall surface of the second through hole. The plating film includes an electroless plating film, and an electrolytic plating film. The electroless plating film makes direct contact with an inner wall surface of the second through hole.

A wiring body includes: a core insulating base material having a first main surface and a second main surface; a signal line and a first power supply line provided on the first main surface; a second power supply line provided on the second main surface and electrically connected to the first power supply line; a first dielectric layer laminated on the first main surface so as to embed the signal line and the first power supply line; a first ground layer provided on the first dielectric layer; a second dielectric layer laminated on the second main surface so as to embed the second power supply line; and a second ground layer provided on the second dielectric layer and sandwiching at least the signal line together with the first ground layer.

An antenna device includes a resin multilayer board in which a plurality of resin sheets are stacked, and a coil conductor provided in the resin multilayer board. A plurality of line portions of the coil conductor are provided on a lower surface of the resin sheet. When a magnetic material core is preliminarily pressure-bonded to the resin sheet, the magnetic material core is fractured along the line portions and cracks occur. Thus, the resin sheet with the magnetic material core in which the cracks have been formed is fully pressure-bonded together with the other resin sheets.