An apparatus is provided that includes a die stack having a first die and a second die disposed above a substrate, and a capacitor die disposed in the die stack between the first die and the second die. The capacitor die includes a plurality of integrated circuit capacitors that are configured to be selectively coupled together to form a desired capacitor value coupled to at least one of the first die and the second die.

The present invention is directed to a multilayer capacitor and a circuit board containing the multilayer capacitor. The capacitor includes a main body containing a first set of alternating dielectric layers and internal electrode layers and a second set of alternating dielectric layers and internal electrode layers. Each set contains a first internal electrode layer and a second internal electrode layer wherein each layer includes a top edge, a bottom edge opposite the top edge, and two side edges that define a main body of the layer. Each layer contains at least one lead tab extending from the top edge of the main body of the layer and at least one lead tab extending from the bottom edge of the main body of the layer wherein the lead tabs are offset from the side edges of the main body of the layer. In addition, external terminals are electrically connected to the internal electrode layers wherein the external terminals are formed on a top surface of the capacitor and a bottom surface of the capacitor opposing the top surface of the capacitor.

A multi-die integrated circuit device and a method of fabricating the multi-die integrated circuit device involve a substrate. Two or more dice include components that implement functionality of the multi-die integrated circuit. The components include logic gates. The multi-die integrated circuit device also includes a spacer disposed between the substrate and each of the two or more dice. Each of the two or more dice makes direct electrical contact with the substrate without making direct electrical contact with the spacer through holes in the spacer.

It is highly desirable in electronic systems to conserve space on printed circuit boards (PCB). This disclosure describes voltage regulation in electronic systems, and more specifically to integrating voltage regulators and associated passive components into semiconductor packages with at least a portion of the circuits whose voltage(s) they are regulating.

Disclosed embodiments include an integrated circuit (IC) comprising a silicon wafer, first and second conductive lines on the silicon wafer. There are first, second and third insulation blocks with portions on the first and second conductive lines and the silicon wafer, a metal pillar on the surface of the first conductive line opposite the silicon wafer, and a conductive adhesive block on the surface of the second conductive line opposite the silicon wafer. The IC also has a lead frame having first and second leads, and a capacitor having first and second capacitor terminals in which the first capacitor terminal is connected to the second lead using conductive adhesive, the second capacitor terminal is connected to the second conductive line through the conductive adhesive block, and the first lead is coupled to the first conductive line.

A semiconductor package structure is provided. The semiconductor package structure includes an antenna device and semiconductor package. The antenna device includes a conductive pattern layer including a first antenna element, formed in an insulating substrate and adjacent to a first surface of the insulating substrate. The antenna device also includes a second antenna element formed on a second surface of the insulating substrate opposite the first surface. The semiconductor package includes a redistribution layer (RDL) structure bonded and electrically connected to the conductive pattern layer. The semiconductor package also includes a first semiconductor die electrically connected to the RDL structure, and an encapsulating layer formed on the RDL structure and surrounding the first semiconductor die.

An electronic device that has an antenna device that includes a conductive pattern layer comprising a first antenna element, the conductive pattern layer formed in an insulating substrate and adjacent to a first surface of the insulating substrate, and a second antenna element formed on a second surface of the insulating substrate opposite the first surface. The electronic device further has a semiconductor package that includes a redistribution layer (RDL) structure bonded and electrically connected to the conductive pattern layer, a first electronic component electrically connected to the RDL structure, and an encapsulating layer formed on the RDL structure and surrounding the first electronic component.

A semiconductor package structure includes a substrate, a redistribution layer, a first semiconductor die, and a first capacitor. The substrate has a wiring structure. The redistribution layer is disposed over the substrate. The first semiconductor die is disposed over the redistribution layer. The first capacitor is disposed in the substrate and is electrically coupled to the first semiconductor die. The first capacitor includes a first capacitor substrate, a plurality of first capacitor cells, and a first through via. The first capacitor substrate has a first top surface and a first bottom surface. The first capacitor cells are disposed in the first capacitor substrate. The first through via is disposed in the first capacitor substrate and electrically couples the first capacitor cells to the wiring structure on the first top surface and the first bottom surface.

A semiconductor device includes an interposer disposed on a substrate. A first major surface of the interposer faces the substrate. A system on a chip is disposed on a second major surface of the interposer. The second major surface of the interposer opposes the first major surface of the interposer. A plurality of first passive devices is disposed in the first major surface of the interposer. A plurality of second passive devices is disposed on the second major surface of the interposer. The second passive devices are different devices than the first passive devices.

A method of fabricating an integrated fan-out package is provided. A ring-shaped dummy die and a group of integrated circuit dies are mounted over a carrier, wherein the group of integrated circuit dies are surrounded by the ring-shaped dummy die. The ring-shaped dummy die and the group of integrated circuit dies over the carrier are encapsulated with an insulating encapsulation. A redistribution circuit structure is formed on the ring-shaped dummy die, the group of integrated circuit dies and the insulating encapsulation, wherein the redistribution circuit structure is electrically connected to the group of integrated circuit dies, and the ring-shaped dummy die is electrically floating.