A semiconductor package includes: a first wiring pattern; a dielectric layer that covers the first wiring pattern; a second wiring pattern on the dielectric layer, wherein the second wiring pattern includes a line part that extends in a first direction and a via part that connects the line part to the first wiring pattern; a pad pattern electrically connected to the second wiring pattern, wherein the pad pattern includes a connection part and an extension part, wherein the connection part covers a first surface of the line part of the second wiring pattern, and the extension part has a top surface at a level lower than a level of the top surface of the line part of the second wiring pattern; and a seed pattern between the extension part and the dielectric layer.

A semiconductor package includes a first semiconductor chip having a first face and a second face opposite thereto. The first semiconductor chip includes a first wiring layer having a surface that forms the first face. A second semiconductor chip disposed on the first face of the first semiconductor chip includes a second wiring layer directly contacting the first wiring layer. A first mold layer is disposed on one lateral side of the first semiconductor chip and directly contacts the second wiring layer. A first via penetrates the first mold layer. A width of the first wiring layer and the first semiconductor chip in a horizontal direction are substantially the same. A width of the second wiring layer and the second semiconductor chip in the horizontal direction are substantially the same. A height of the first via and the first semiconductor chip in the vertical direction are substantially the same.

The invention relates to a semiconductor component (2), comprising a semiconductor chip (3), a housing (5) and a connection point arrangement (10) having at least two rows (14, 16) of planar connection points (12), which are arranged on a bottom side of the housing (5) and can be electrically connected by means of connections to corresponding contacts of a contact arrangement having at least two rows, which contact arrangement is arranged on a printed circuit board, wherein the geometry of the contact arrangement corresponds to the geometry of the connection point arrangement (10), a first distance is specified between two adjacent first connection points (14A) of a first row (14) of the connection point arrangement (10) and a second distance is specified between two adjacent second connection points (16A) of a second row (16) of the connection point arrangement (10), and the second connection points (16A) of the second row (16) are offset to the first connection points (14A) of the first row (14). The invention also relates to a corresponding contacting assembly having such a semiconductor element (2) and a printed circuit board. The first distance at least between two adjacent first connection points (14A) of the first row (14) of the connection point arrangement (10) corresponds to an intermediate space (C, D) between two contacts of the corresponding contact arrangement, in which intermediate space at least two conducting tracks (28) having functionally reliable dimensions and distances can be arranged.

Provided is a packaging structure, which includes a carrier and an electronic component, an antenna module and a connector disposed on the carrier, and a packaging layer encapsulating the electronic component and the connector. A portion of a surface of the connector is exposed from the packaging layer so as to facilitate the electrical connection with a motherboard of an electronic product. A method for fabricating the packaging structure is also provided.

A substrate structure may include a printed circuit board including a first recess and a first junction pad disposed on a lower surface of the first recess; a first electronic component package disposed in the first recess, and including a first substrate and a first electronic device module disposed on at least one surface of the first substrate; and a first external junction portion connecting the first electronic component package and the first junction pad.

A packaged semiconductor device and a method and apparatus for forming the same are disclosed. In an embodiment, a method includes bonding a device die to a first surface of a substrate; depositing an adhesive on the first surface of the substrate; depositing a thermal interface material on a surface of the device die opposite the substrate; placing a lid over the device die and the substrate, the lid contacting the adhesive and the thermal interface material; applying a clamping force to the lid and the substrate; and while applying the clamping force, curing the adhesive and the thermal interface material.

A semiconductor device package includes a carrier, an electronic component and a connector. The electronic component is disposed on the carrier. The connector is disposed on the carrier and electrically connected to the electronic component. A S 11 parameter of the connector is less than −20 dB.

A semiconductor device package includes a carrier, an electronic component and a connector. The electronic component is disposed on the carrier. The connector is disposed on the carrier and electrically connected to the electronic component. A S11 parameter of the connector is less than −20 dB.

An apparatus for manufacturing packaged semiconductor devices includes a lower plate having package platforms and clamp guide pins to align an upper plate with the lower plate, and a boat tray having windows configured to receive package devices, and a plurality of upper plates configured to be aligned to respective windows and respective package platforms. Clamping force can be applied by fasteners configured to generate a downward force upon the upper plate. Package devices on the platforms are thus subjected to a clamping force. Load cells measure the clamping force so adjustments can be made.

A packaged semiconductor device and a method and apparatus for forming the same are disclosed. In an embodiment, a method includes bonding a device die to a first surface of a substrate; depositing an adhesive on the first surface of the substrate; depositing a thermal interface material on a surface of the device die opposite the substrate; placing a lid over the device die and the substrate, the lid contacting the adhesive and the thermal interface material; applying a clamping force to the lid and the substrate; and while applying the clamping force, curing the adhesive and the thermal interface material.