A semiconductor device package includes a first conductive base, a first insulation layer and a second insulation layer. The first conductive base has a first surface, a second surface opposite to the first surface and a lateral surface extended between the first surface and the second surface. The lateral surface includes a first portion adjacent to the first surface and a second portion adjacent to the second surface. The first insulation layer comprises a first insulation material. The first insulation layer has a first surface and a second surface opposite to the first surface. The first insulation layer covers the first portion of the lateral surface of the first conductive base. The second insulation layer comprises a second insulation material and covers the second portion of the lateral surface of the first conductive base. The first insulation material is different from the second insulation material.

A package structure for a semiconductor device includes a first conductive layer, a second conductive layer, a first die, a second die, a plurality of first blind via pillars and a conductive structure. The first conductive layer has a first surface and a second surface. The first die and the second die respectively have an active surface and a back surface, which are disposed opposite to each other. There is a plurality of metal pads disposed on the active surface. The first die is attached to the first surface of the first conductive layer with its back surface, and the second die is attached to the second surface of the first conductive layer with its back surface. The first and second conductive layers, the first and second dies, the first blind hole pillars and conductive structure are covered by a dielectric material.

A semiconductor device includes: a circuit member including a planar portion; a terminal portion formed above the front surface of the planar portion of the circuit member and parallel to the planar portion; a semiconductor element which has an upper surface located below an upper surface of the terminal portion and is formed on the front surface of the planar portion of the circuit member; a resin layer arranged on the semiconductor element and having first openings through which the semiconductor element is exposed; a conductive layer arranged on the resin layer, including an upper surface located above the upper surface of the terminal portion, and joined to the semiconductor element through the first openings; and a sealing member including an upper surface parallel to the planar portion and integrally sealing the circuit member, the semiconductor element, the resin layer, the conductive layer, and part of the terminal portion.

An electronic device module includes: a core layer having an opening; an electronic device disposed in the opening, one or both of the core layer and the electronic device being at least partially covered by an adhesion promoter layer; and an encapsulant layer at least partially embedding the core layer and the electronic device.

A package structure and a method for fabricating the same are provided. An electronic component such as a sensing chip and a conductive element such as a bonding wire are mounted to a carrier, encapsulated by an encapsulant, and electrically connected through a conductive layer. As such, the electronic component can further be electrically connected to the carrier through the conductive layer and the conductive element. Therefore, the sensing chip can be packaged through current packaging processes, thereby reducing the fabrication cost, shortening the fabrication time and improving the product yield.

Packaged device having a carrying base; an accommodation cavity in the carrying base; a semiconductor die in the accommodation cavity, the semiconductor die having die pads; a protective layer, covering the semiconductor die and the carrying base; first vias in the protective layer, at the die pads; and connection terminals of conductive material. The connection terminals have first connection portions in the first vias, in electrical contact with the die pads, and second connection portions, extending on the protective layer, along a side surface of the packaged device.

Disclosed is a light-emitting array structure having a substrate, a plurality of light-emitting pixel units, a plurality of first and second signal wires, and an encapsulating layer. The light-emitting pixel units are arranged in array on the substrate. Each light-emitting pixel unit includes a driving chip, a first flat layer, a first redistribution layer, a second flat layer, a second redistribution layer, and a light-emitting diode. Each first signal wire is electrically connected to a corresponding one of the first redistribution layers and extends in a first direction. The second signal wires extend in a level different from the first signal wires. Each second signal wire is electrically connected to a corresponding one of the second redistribution layers and extends in a second direction different from the first direction. The encapsulating layer covers the light-emitting pixel units, the first and second signal wires, and the substrate.

An integrated circuit device package includes a substrate, a first die comprising active electronic components attached to the substrate, and package leads configured to conduct electrical signals between the first die and an external device. At least one integrated interconnect structure is provided on the first die opposite the substrate. The at least one integrated interconnect structure extends from the first die to an adjacent die attached to the substrate and/or to at least one of the package leads, and provides electrical connection therebetween. Related devices and power amplifier circuits are also discussed.

A semiconductor product includes a layer of semiconductor die package molding material embedding a semiconductor die having a front surface and an array of electrically-conductive bodies such as spheres or balls around the semiconductor die. The electrically-conductive bodies have front end portions around the front surface of the semiconductor die and back end portions protruding from the layer of semiconductor die package molding material. Electrically-conductive formations are provided between the front surface of the semiconductor die and front end portions of the electrically-conductive bodies left uncovered by the package molding material. Light-permeable sealing material can be provided at electrically-conductive formations to facilitate inspecting the electrically-conductive formations via visual inspection through the light-permeable sealing material.

A semiconductor package having an aperture in a die pad and solder in the aperture coplanar with a surface of the package is disclosed. The package includes a die pad, a plurality of leads, and a semiconductor die coupled to the die pad with a die attach material. A cavity or aperture is formed through the die pad to expose a portion of the die attach material. Multiple solder reflows are performed to reduce the presence of voids in the die attach material. In a first solder reflow, the voids of trapped gas that form when attaching the die to the die pad are released. Then, in a second solder reflow, solder is added to the aperture coplanar with a surface of the die pad. The additional solder can be the same material as the die attach material or a different material.