The disclosure is directed to an integrated circuit (IC) die stacked with a backer die, including capacitors and thermal vias. The backer die includes a substrate material to contain and electrically insulate one or more capacitors at a back of the IC die. The backer die further includes a thermal material that is more thermally conductive than the substrate material for thermal spreading and increased heat dissipation. In particular, the backer die electrically couples capacitors to the IC die in a stacked configuration while also spreading and dissipating heat from the IC die. Such a configuration reduces an overall footprint of the electronic device, resulting in decreased integrated circuits (IC) packages and module sizes. In other words, instead of placing the capacitors next to the IC die, the capacitors are stacked on top of the IC die, thereby reducing an overall surface area of the package.

A semiconductor device package and a method of forming the same are provided. The semiconductor device package includes a substrate, an electronic component, a ring structure, and an adhesive layer. The electronic component is located over a first surface of the substrate. The ring structure is located over the first surface of the substrate and surrounding the electronic component. The ring structure has a bottom surface facing the first surface of the substrate and a top surface opposite the bottom surface. The ring structure includes a plurality of side parts and a plurality of corner parts recessed from the top surface and thinner than the side parts. Any two of the corner parts are separated from one another by one of the side parts. The adhesive layer is interposed between the bottom surface of the ring structure and the first surface of the substrate.

A method of manufacturing a semiconductor package includes mounting a first semiconductor chip and a second semiconductor chip on a substrate, forming a first film on a top surface of the first semiconductor chip, and loading the first semiconductor chip and the second semiconductor chip mounted on the substrate between a lower mold frame and an upper mold frame. The method further includes providing a molding material between the lower mold frame and the upper mold frame, removing the lower mold frame and the upper mold frame, and removing the first film on the top surface of the first semiconductor chip to expose the top surface of the first semiconductor chip.

A semiconductor package having a thinner shape and including an antenna is provided. A semiconductor package comprises a first substrate, a second substrate on the first substrate and including a first face facing the first substrate and a second face opposite to the first face, a pillar extending from the second face of the second substrate to the first substrate, and a first semiconductor chip on the second face of the second substrate and connected to the pillar. The second substrate may include an antenna pattern, and the antenna pattern may be connected to the first semiconductor chip, and may be on the second face of the second substrate such that the antenna pattern is isolated from direct contact with the first semiconductor chip.

A component carrier includes a stack with an electrically conductive layer structure and an electrically insulating layer structure. The electrically conductive layer structure having a first plating structure and a pillar. The pillar has a seed layer portion on the first plating structure and a second plating structure on the seed layer portion. A method of manufacturing such a component carrier and an arrangement including such a component carrier are also disclosed.

A planar multi-chip device includes a base structure and a plurality of functional chips. The base structure has a central area and a peripheral area outside the central area. The central area includes a first conductive portion arranged therein. The peripheral area includes a plurality of second conductive portions and a plurality of third conductive portions arranged therein and separated from each other. The functional chips are arranged on the base structure, and each of the functional chips has a portion located on and electrically connected to the first conductive portion. At least two of the functional chips are configured to be in signal communication with each other via at least one of the third conductive portions.

A semiconductor device includes: an insulating substrate; a semiconductor chip; a base plate; a first heat dissipating material; and a case. The semiconductor chip and a sealing material for sealing the semiconductor chip are housed in the case. The insulating substrate includes an insulating layer and a conductor pattern provided on an upper surface of the insulating layer. The semiconductor chip is joined onto the conductor pattern by a joining material. A lower surface of the insulating substrate and an upper surface of the base plate are in contact with each other with interposition of the first heat dissipating material. The insulating substrate and the base plate are not fixed to each other.

A package structure includes an encapsulant, a patterned circuit structure, at least one electronic component and a shrinkage modifier. The patterned circuit structure is disposed on the encapsulant and includes a pad. The electronic component is disposed on the patterned circuit structure, and includes a bump electrically connected to the pad. The shrinkage modifier is encapsulated in the encapsulant and configured to reduce a relative displacement between the bump and the pad along a horizontal direction in an environment of temperature variation.

An electronic package is provided. The electronic package includes an amplifier component, a control component, and a first circuit layer. The control component is disposed above the amplifier component. The first circuit layer is disposed between the amplifier component and the control component. The control component is configured to transmit a first signal to the amplifier component and to output a second signal amplified by the amplifier component.

A semiconductor package includes: a lower package; and an upper package stacked on the lower package, wherein the lower package includes: a first redistribution structure; a semiconductor chip mounted on the first redistribution structure; a first molding layer surrounding the semiconductor chip on the first redistribution structure; and first vertical connection conductors disposed on the first redistribution structure and vertically passing through the first molding layer, wherein the upper package includes: a second molding layer disposed on the lower package; second vertical connection conductors vertically passing through the second molding layer and electrically connected to the first vertical connection conductors; and an antenna structure disposed on the second molding layer.