A semiconductor package includes a substrate; a sub semiconductor package disposed over the substrate, the sub semiconductor package including a sub semiconductor chip with chip pads on its active surface that faces the substrate, a sub molding layer that surrounds side surfaces of the sub semiconductor chip, the sub molding layer with a surface that faces the substrate, and redistribution conductive layers that connect to the chip pads and extend under the surface of the sub molding layer, wherein the redistribution conductive layers include a signal redistribution conductive layer that extends toward an edge of the sub molding layer, the signal redistribution conductive layer with a signal redistribution pad on its end portion, and a power redistribution conductive layer that has a length that is shorter than a length of the signal redistribution conductive layer, the power redistribution conductive layer with a power redistribution pad on its end portion; a signal sub interconnector with an upper surface that is connected to the signal redistribution pad and a lower surface that is connected to the substrate; a power sub interconnector with an upper surface that is connected to the power redistribution pad and a lower surface that is connected to the substrate; and at least one main semiconductor chip formed over the sub semiconductor package and electrically connected to the substrate.

A semiconductor package structure includes a base having a first surface and a second surface opposite thereto, wherein the base comprises a wiring structure, a first electronic component disposed over the first surface of the base and electrically coupled to the wiring structure, a second electronic component disposed over the first surface of the base and electrically coupled to the wiring structure, wherein the first electronic component and the second electronic component are separated by a molding material, a first hole and a second hole formed on the second surface of the base, and a frame disposed over the first surface of the base, wherein the frame surrounds the first electronic component and the second electronic component.

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 package is provided, where a laterally diffused metal oxide semiconductor (LDMOS) type electronic structure is mounted onto a complementary metal oxide semiconductor (CMOS) type electronic element to be integrated into a chip module, thereby shortening electrical transmission path between the electronic structure and the electronic element so as to reduce the communication time between the electronic structure and the electronic element.

This document discloses techniques, apparatuses, and systems relating to a package substrate for a semiconductor device. A semiconductor device assembly is described that includes a packaged semiconductor device having one or more semiconductor dies coupled to a package-level substrate. The package-level substrate has a first surface at which first contact pads are disposed in a first configuration. The packaged semiconductor device is coupled with an additional package-level substrate that includes a second surface having second contact pads disposed in the first configuration and a third surface having third contact pads disposed in a second configuration different from the first configuration. The additional package-level substrate includes circuitry coupling the second contact pads the third contact pads to provide connectivity at the third contact pads. In doing so, an adaptively compatible semiconductor device may be assembled.

A semiconductor package includes a redistribution structure including a wiring structure and an insulating structure covering the wiring structure, the redistribution structure having a first surface and a second surface, which are opposite to each other, the insulating structure including a polymer, a semiconductor chip on the first surface, the semiconductor chip being connected to at least one first wiring pattern in the wiring structure, a passivation insulating film covering the second surface, the passivation insulating film including an inner surface contacting the insulating structure and a hole sidewall defining a hole, the passivation insulating film including an inorganic insulating material, a conductive pad passing through the passivation insulating film via the hole and contacting the second wiring pattern, the conductive pad having a pad sidewall contacting the hole sidewall, and an external connection terminal on the conductive pad.

A semiconductor device includes a first redistribution structure, a first semiconductor package, a second semiconductor package, an encapsulation layer, a first thermal interface material (TIM) layer, and a second TIM layer. The first semiconductor package and the second semiconductor package are respectively disposed on the first redistribution structure and laterally disposed aside with each other. The encapsulation layer encapsulates and surrounds the first semiconductor package and the second semiconductor package. The first semiconductor package and the second semiconductor package are respectively exposed from the encapsulation layer. The first TIM layer and the second TIM layer are respectively disposed on back surfaces of the first semiconductor package and the second semiconductor package. A top surface of the first TIM layer and a top surface of the second TIM layer are coplanar with a top surface of the encapsulation layer.

An electronic package is provided, in which an electronic element is arranged on a carrier structure having a plurality of wire-bonding pads arranged on a surface of the carrier structure, and a plurality of bonding wires are connected to a plurality of electrode pads of the electronic element and the plurality of wire-bonding pads. Further, among any three adjacent ones of the plurality of wire-bonding pads, a long-distanced first wire-bonding pad, a middle-distanced second wire-bonding pad and a short-distanced third wire-bonding pad are defined according to their distances from the electronic element. Therefore, even if the bonding wires on the first to third wire-bonding pads are impacted by an adhesive where a wire sweep phenomenon occurred when the flowing adhesive of a packaging layer covers the electronic element and the bonding wires, the bonding wires still would not contact each other, thereby avoiding short circuit problems.

A semiconductor package includes a first substrate, a first semiconductor chip, a first bonding wire, a second substrate, a second semiconductor chip and a second bonding wire. The first substrate has a window through a center portion of the first substrate. The first semiconductor chip is located on the first substrate. The first bonding wire is in the window of the first substrate and electrically connects to the first semiconductor chip and the first substrate. The second substrate is located on the first semiconductor chip, and has a window through a center portion of the second substrate. The second substrate electrically connects to the first substrate. The second semiconductor chip is located on the second substrate. The second bonding wire is in the window of the second substrate and electrically connects to the second semiconductor chip and the second substrate.

A semiconductor guide pin is disclosed. Specific implementations may include a heatsink, one or more substrates coupled together, one or more pressfit pins coupled to the one or more substrates, and two or more guide pins coupled to the one or more substrates, where the two or more guide pins may have a height greater than the one or more pressfit pins.