A circuit board includes a composite structure layer, at least one conductive structure, a thermally conductive substrate, and a thermal interface material layer. The composite structure layer has a cavity and includes a first structure layer, a second structure layer, and a connecting structure layer. The first structure layer includes at least one first conductive member, and the second structure layer includes at least one second conductive member. The cavity penetrates the first structure layer and the connecting structure layer to expose the second conductive member. The conductive structure at least penetrates the connecting structure layer and is electrically connected to the first conductive member and the second conductive member. The thermal interface material layer is disposed between the composite structure layer and the thermally conductive substrate, and the second structure layer is connected to the thermally conductive substrate through the thermal interface material layer.

A display device includes a circuit board and a plurality of light-emitting units disposed on the circuit board. The circuit board includes a substrate and a plurality of signal lines disposed on the substrate. Each light-emitting unit includes a base board, at least one light-emitting element and a driving circuit layer. The light-emitting element is between the base board and the substrate. The driving circuit layer is between the light-emitting element and the base board, and electrically connected to the light-emitting element and the signal line.

A package structure includes a metal layer, a composite layer of a non-conductor inorganic material and an organic material, a sealant, a chip, a circuit layer structure, and an insulating protective layer. The composite layer of the non-conductor inorganic material and the organic material is disposed on the metal layer. The sealant is bonded on the composite layer of the non-conductor inorganic material and the organic material. The chip is embedded in the sealant, and the chip has electrode pads. The circuit layer structure is formed on the sealant and the chip. The circuit layer structure includes at least one dielectric layer and at least one circuit layer. The dielectric layer has conductive blind holes. The insulating protective layer is formed on the circuit layer structure. The insulating protective layer has openings, so as to expose parts of the surface of the circuit layer structure in the openings.

A circuit structure is provided to which an electronic component can be easily mounted (electrical connection of terminals). A circuit structure that includes a substrate provided with a conductive pattern on one face thereof; a conductive member fixed to the other face of the substrate; an electronic component that has first terminals and of a plurality of terminals, that are electrically connected to the conductive member, and a second terminal of the plurality of terminals that is electrically connected to the conductive pattern provided on the substrate; and a relay member for electrically connecting the second terminal and the conductive pattern provided on the substrate, at least a portion of the relay member being fixed to the conductive member via an insulating material.

Embodiments are directed to a method of embedding a discrete component in a substrate. The method includes forming a cavity in the substrate. The method further includes inserting a discrete component into the cavity, wherein the discrete component comprises a top terminal and a bottom terminal. The method further includes positioning the discrete component within the cavity such that the top terminal is above the bottom terminal and below a front face of the substrate. The method further includes forming an intermediate conductive material within the cavity and over the top terminal. The method further includes forming a top conductive material over the intermediate conductive material such that the top conductive material is electrically coupled through the intermediate conductive material to the top terminal.

A power converter assembly includes an interposer; an integrated circuit, such as a power management integrated circuit, arranged in a cavity or pocket of the interposer or monolithically integrated in the interposer; one or more electrical components stacked on a top side of the interposer; and one or more vias arranged in the interposer forming electrical connections in the interposer, wherein the integrated circuit and the electrical components are configured to perform a power conversion of an input voltage to an output voltage.

An electronic component housing package and the like capable of reducing time of infrared heating operation are provided. An electronic component housing package includes an insulating substrate including a plurality of insulating layers stacked on top of each other, an upper surface of the insulating substrate being provided with an electronic component mounting section. The plurality of insulating layers each containing a first metal oxide as a major constituent. The insulating substrate further includes a first metal layer in frame-like form disposed on an upper surface of an uppermost one of the plurality of insulating layers. The first metal layer contains a second metal oxide which is higher in infrared absorptivity than the first metal oxide.

A printed circuit board includes: an insulating layer including a cavity formed therein, the cavity being recessed into the insulating layer from a top surface of the insulating layer; a first circuit layer formed inside the insulating layer such that a portion of the first circuit layer is disposed within the cavity; a second circuit layer disposed above the insulating layer; a first surface-treated layer disposed above the portion of the first circuit layer disposed within the cavity; and a second surface-treated layer disposed above the second circuit layer.

Various embodiments of a sealed package and a method of forming such package are disclosed. The package can include a non-conductive substrate that includes a cavity disposed in a first major surface. A cover layer can be disposed over the cavity and attached to the first major surface of the non-conductive substrate to form a sealed enclosure. The sealed package can also include a feedthrough that includes a via between a recessed surface of the cavity and a second major surface of the substrate, and a conductive material disposed in the via. An external contact can be disposed over the via on the second major surface of the non-conductive substrate, where the external contact is electrically connected to the conductive material disposed in the via. The sealed package can also include an electronic device disposed within the sealed enclosure that is electrically connected to the external contact.

A hydrogen evolution assisted electroplating nozzle includes a nozzle tip configured to interface with a portion of a substructure. The nozzle also includes an inner coaxial tube connected to a reservoir containing an electrolyte and an anode, the inner coaxial tube configured to dispense the electrolyte through the nozzle tip onto the portion of the substructure. The nozzle also includes an outer coaxial tube encompassing the inner coaxial tube, the outer coaxial tube configured to extract the electrolyte from the portion of the substructure. The nozzle also includes at least one contact pin configured to make electrical contact with a conductive track on the substrate.