An electronic component includes a first set comprising an interconnect layer and an electronic circuit having a front face and a back face, which is connected to the interconnect layer by the front face, wherein the first set comprises a metal plate having a front face and a back face joined to the back face of the electronic circuit; a coupling agent between the front face of the metal plate and the back face of the electronic circuit, configured to thermally and electrically connect the metal plate to the electronic circuit; and in that the electronic component comprises: one or more layers made of organic materials stacked around the first set and the metal plate using a printed circuit-type technique and encapsulating the electronic circuit; a thermally conductive metal surface arranged at least partially in contact with the back face of the metal plate.

A multi-layer circuit board with embedded components (100) in multiple layers and miniaturized form, with embedded electronic elements in a higher element density and shorter voltage paths includes a circuit board (10) provided with a mounting groove (101), and a plurality of elements (20). The elements (20) are arranged in the mounting groove (101), and the circuit board (10) includes several vertically-stacked circuit substrates (11, 12, 13, 14) arranged around the mounting groove (101), The multi-layer circuit board with embedded components circuit board (100) includes a conductive member (30) arranged in the mounting groove (101) and electrically connecting the elements (20) and the layers of conductive circuits.

An electronic device and a method for manufacturing such an electronic device are described. The electronic device includes an electronic component, and a component carrier in which the electronic component is embedded. The component carrier includes a first component carrier part having a first cut-out portion and a second component carrier part having a second cut-out portion, the first cut-out portion and the second cut-out portion facing opposite main surfaces of the electronic component. An electrically conductive material is provided on the surface of the first cut-out portion and on the surface of the second cut-out portion. The first cut-out portion and the second cut-out portion respectively form a first cavity and a second cavity on opposite sides of the electronic component.

A printed circuit board can include a substrate layer, a first metal layer disposed over the substrate layer, a core layer disposed over the first metal layer, and a second metal layer disposed over the core layer, where the core layer defines a closed cavity between the first and second metal layers. Optionally, the cavity is filled with air and operates as an antenna.

A multilayer PCB structure includes a core layer, a first layer on a first surface of the core layer, a second layer on a second surface of the core layer, and a thermally conductive material in the core layer. The first surface and the second surface of the core layer are opposite to each other, and a window is formed on the second layer by removing part of the second layer. The window of the second layer exposes part of the core layer below the thermally conductive material.

Disclosed is a printed circuit board (PCB) module including a first PCB comprising a base PCB, a sidewall disposed on a periphery of the base PCB, and conductive vias penetrating the sidewall, a second PCB disposed on the sidewall to cover a cavity formed by the sidewall of the first PCB, and at least one electronic component disposed inside the cavity and located on the first PCB and/or the second PCB, wherein the sidewall comprises a first layer disposed on an upper face of the base PCB and constructed of an insulating member, a second layer disposed on the first layer and comprising a polyimide, a third layer disposed on the second layer and constructed of an insulating member, and a fourth layer disposed on the third layer and comprising a conductive member conductive with respect to the conductive vias.

A printed circuit board according to an embodiment includes a first insulating layer, a second insulating layer disposed on the first insulating layer and including a cavity; and a pad disposed on the first insulating layer and having an upper surface exposed through the cavity; wherein the cavity includes a first part including a first inner wall; and a second part including a second inner wall under the first part; and wherein an inclination angle of the first inner wall is different from an inclination angle of the second inner wall.

A circuit board with improved heat dissipation function and a method for manufacturing the circuit board are provided. The circuit board includes a heat dissipation substrate, an insulating layer on the heat dissipation substrate, an electronic component, a base layer on the insulating layer, and a circuit layer on the base layer. The heat dissipation substrate includes a phase change structure and a heat conductive layer wrapping the phase change structure. The heat dissipation substrate defines a first through hole. The insulating layer defines a groove for receiving the electronic component. A second through hole is defined in the circuit layer, the base layer, and the insulating layer. A bottom of the second through hole corresponds to the heat conductive layer. A heat conductive portion is disposed in the second through hole.

A method for manufacturing a circuit board including the following steps: providing a flexible double-sided metal-clad laminate including a first metal foil, a flexible dielectric layer, and a second metal foil. A carrier is attached to the second metal foil. A first wiring layer including a first wiring region and a second wiring region is formed by the first metal foil. The first wiring region includes a first connecting pad, and the second wiring region includes a connecting pad. A plurality of rigid dielectric blocks surrounded to form an interval and a first groove exposing the first connecting pad is pressed on the flexible dielectric layer to form a rigid dielectric layer. An electronic component is fixed the first groove. The carrier is removed. The intermediate structure is bent along the interval and pressed. A second wiring layer is formed by the second metal foil.

An antenna apparatus includes: a feed line; a first ground layer including surface disposed above or below the feed line and spaced apart from the feed line; and an antenna pattern electrically connected to an end of the feed line and configured to transmit and/or receive a radio frequency (RF) signal, wherein the first ground layer includes a first protruding region protruding in a first longitudinal direction of the surface toward the antenna pattern and at least partially overlapping the feed line above or below the feed line, and second and third protruding regions protruding in the first longitudinal direction from positions spaced apart from the first protruding region in opposite lateral directions of the surface.