According to one embodiment, a method of manufacturing a semiconductor device includes forming a metal bump on a first surface side of a semiconductor chip, positioning the semiconductor chip so the metal bump contacts a pad of an interconnection substrate, and applying a first light from a second surface side of the semiconductor chip and melting the metal bump with the first light. After the melting, the melted metal bump is allowed to resolidify by stopping or reducing the application of the first light. The semiconductor chip is then pressed toward the interconnection substrate. A second light is then applied from the second surface side of the semiconductor chip while the semiconductor chip is being pressed toward the interconnection substrate to melt the metal bump. After the melting, the melted metal bump is allowed to resolidify by the stopping or reducing of the application of the second light.

Disclosed is a semiconductor package comprising a substrate that includes a plurality of substrate pads on a top surface of the substrate, a first semiconductor chip on the substrate, a second semiconductor chip on the first semiconductor chip, and a plurality of first bonding wires on a top surface of the first semiconductor chip and coupled to the substrate pads. The first semiconductor chip includes a first lower signal pad, a second lower signal pad laterally spaced apart from the first lower signal pad, and a lower signal redistribution pattern electrically connected to the first lower signal pad and the second lower signal pad. One of the first bonding wires is coupled to the first lower signal pad. Any of the first bonding wires is not on a top surface of the second lower signal pad.

Embodiments of the present disclosure are directed towards an integrated circuit (IC) package including a first die at least partially embedded in a first encapsulation layer and a second die at least partially embedded in a second encapsulation layer. The first die may have a first plurality of die-level interconnect structures disposed at a first side of the first encapsulation layer. The IC package may also include a plurality of electrical routing features at least partially embedded in the first encapsulation layer and configured to route electrical signals between a first and second side of the first encapsulation layer. The second side may be disposed opposite to the first side. The second die may have a second plurality of die-level interconnect structures that may be electrically coupled with at least a subset of the plurality of electrical routing features by bonding wires.

A semiconductor package includes; a package substrate including an upper surface with a bonding pad, a lower semiconductor chip disposed on the upper surface of the package substrate, wherein an upper surface of the lower semiconductor chip includes a connect edge region including a connection pad and an open edge region including a dam structure including dummy bumps, a bonding wire having a first height above the upper surface of the lower semiconductor chip and connecting the bonding pad and the connection pad, an upper semiconductor chip disposed on the upper surface of the lower semiconductor chip using an inter-chip bonding layer, and a molding portion on the package substrate and substantially surrounding the lower semiconductor chip and the upper semiconductor chip.

An integrated circuit (IC) package includes a first die with a first surface overlaying a substrate. The first die includes a first metal pad at a second surface opposing the first surface. The IC package also includes a dielectric layer having a first surface contacting the second surface of the first die. The IC package further includes a second die with a surface that contacts a second surface of the dielectric layer. The second die includes a second metal pad aligned with the first metal pad of the first die. A plane perpendicular to the second surface of the first die intersects the first metal pad and the second metal pad.

A semiconductor device package and a method for packaging the same are provided. A semiconductor device package includes a carrier, an electronic component, a buffer layer, a reinforced structure, and an encapsulant. The electronic component is disposed over the carrier and has an active area. The buffer layer is disposed on the active area of the electronic component. The reinforced structure is disposed on the buffer layer. The encapsulant encapsulates the carrier, the electronic component and the reinforced structure.

A semiconductor package including a base comprising an upper surface and a lower surface that is opposite to the upper surface; a radio-frequency (RF) module embedded near the upper surface of the base; an integrated circuit (IC) die mounted on the lower surface of the base in a flip-chip manner so that a backside of the IC die is available for heat dissipation; a plurality of conductive structures disposed on the lower surface of the base and arranged around the IC die; and a metal thermal interface layer comprising a backside metal layer that is in contact with the backside of the IC die, and a solder paste conformally printed on the backside metal layer.

In a semiconductor device, a first wiring member is electrically connected to a first main electrode on a first surface of a semiconductor element, and a second wiring member is electrically connected to a second main electrode on a second surface of the semiconductor element. An encapsulating body encapsulates at least a part of each of the first and second wiring members, the semiconductor element and a bonding wire. The semiconductor element has a protective film on the first surface of the semiconductor substrate, and the pad has an exposed surface exposed from an opening of the protective film. The exposed surface includes a connection area to which the bonding wire is connected, and a peripheral area on a periphery of the connection area. The peripheral area has a surface that defines an angle of 90 degrees or less relative to a surface of the connection area.

A semiconductor assembly includes a first die and a second die. The semiconductor assembly also includes a film on die (FOD) layer configured to attach the first die to the second die. The FOD layer is disposed on a first surface of the first die. The FOD layer includes a first portion comprising a first die attach film (DAF) disposed on an inner region of the first surface. The FOD layer also includes a second portion that includes a second DAF disposed on a peripheral region of the first surface surrounding the inner region. The second DAF includes a different material than the first DAF.

A semiconductor package includes a first base plate, first semiconductor structure, second base plate and filling layer. The first base plate has a first surface including first and second signal transmission regions. The first semiconductor structure located on the first surface is electrically connected to the first signal transmission region. The second base plate located on the first base plate includes a base and a first interconnection surface. The first interconnection surface is away from the first surface. The first interconnection surface has first and second interconnection regions communicated with each other. The first interconnection region is electrically connected to the second signal transmission region. The filling layer seals the first semiconductor structure, second base plate and first surface. The first interconnection region is not sealed, and the second interconnection region is. There is a preset height between a top surface of the filling layer and the first interconnection region.