A semiconductor packaging method, a semiconductor package and stacked semiconductor packages are provided. The method includes providing a carrier (10) having a plurality of semiconductor chip receiving areas (12) and attaching a plurality of first semiconductor chips (14) to the semiconductor chip receiving areas (12). The first semiconductor chips (14) are encapsulated with a first encapsulant (20) and a plurality of electrical connections (24) is formed to the first semiconductor chips (14). At least a portion of the carrier (10) is removed to provide a heat release area (38).

A semiconductor package includes a semiconductor chip including an electrode pad formed on the top surface thereof, a passive device embedded in the semiconductor package, the passive device having no functional electrode on the top surface thereof, a cover layer covering the semiconductor chip and the passive device, and at least one electrode pattern formed on the cover layer to transmit electrical signals. The cover layer includes at least one first opening formed to expose a region in which the functional electrode is to be formed. The electrode pattern includes a functional electrode portion formed in a region in which the functional electrode of the passive device is to be formed through the first opening. In the process of forming the electrode pattern, a functional electrode of the passive device is formed together therewith, thereby eliminating a separate step of manufacturing a functional electrode and thus reducing manufacturing costs.

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.

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 includes a substrate, a first capacitor, a System on Chip unit and a wiring layer. The first capacitor is provided on the substrate. The System on Chip unit is bonded with the first capacitor in a first dielectric layer. The wiring layer is configured to electrically couple the first capacitor and the System on Chip unit. The wiring layer is provided on the first dielectric layer through a second dielectric layer.

A packaged semiconductor device includes a metal substrate having a center aperture with a plurality of raised traces around the center aperture including a metal layer on a dielectric base layer. A semiconductor die that has a back side metal (BSM) layer is mounted top side up in a top portion of the center aperture. A single metal layer directly between the BSM layer and walls of the metal substrate bounding the center aperture to provide a die attachment that fills a bottom portion of the center aperture. Leads having at least one bend that contact the metal layer are on the plurality of traces and include a distal portion that extends beyond the metal substrate. Bond wires are between the traces and bond pads on the semiconductor die. A mold compound provides encapsulation.

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 semiconductor device package includes: (1) a conductive base comprising a sidewall, a cavity defined from a first surface of the conductive base, the cavity having a bottom surface and a depth; (2) a semiconductor die disposed on the bottom surface of the cavity, the semiconductor die having a first surface and a second surface opposite the first surface, the second surface of the semiconductor die bonded to the bottom surface of the cavity; and (3) a first insulating material covering the sidewall of the conductive base and extending to a bottom surface of the conductive base.

A semiconductor device package includes a metal carrier, a passive device, a conductive adhesive material, a dielectric layer and a conductive via. The metal carrier has a first conductive pad and a second conductive pad spaced apart from the first conductive pad. The first conductive pad and the second conductive pad define a space therebetween. The passive device is disposed on top surfaces of first conductive pad and the second conductive pad. The conductive adhesive material electrically connects a first conductive contact and a second conductive contact of the passive device to the first conductive pad and the second conductive pad respectively. The dielectric layer covers the metal carrier and the passive device and exposes a bottom surface of the first conductive pad and the second conductive pad. The conductive via extends within the dielectric layer and is electrically connected to the first conductive pad and/or the second conductive pad.

A packaged semiconductor device includes a metal substrate having a center aperture with a plurality of raised traces around the center aperture including a metal layer on a dielectric base layer. A semiconductor die that has a back side metal (BSM) layer is mounted top side up in a top portion of the center aperture. A single metal layer directly between the BSM layer and walls of the metal substrate bounding the center aperture to provide a die attachment that fills a bottom portion of the center aperture. Leads having at least one bend that contact the metal layer are on the plurality of traces and include a distal portion that extends beyond the metal substrate. Bond wires are between the traces and bond pads on the semiconductor die. A mold compound provides encapsulation.