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 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 structure is provided. The semiconductor package structure includes a carrier substrate, an interposer substrate, a semiconductor device, a lid, and a thermal interface material. The interposer substrate is disposed on the carrier substrate. The semiconductor device is disposed on the interposer substrate. The lid is disposed on the carrier substrate to cover the semiconductor device. The thermal interface material is disposed between the lid and the semiconductor device. A first recess is formed on a lower surface of the lid facing the semiconductor device, and the first recess overlaps the semiconductor device in a top view.

A semiconductor package structure is provided. The semiconductor package structure includes a carrier substrate, an interposer substrate, a semiconductor device, a lid, and a thermal interface material. The interposer substrate is disposed on the carrier substrate. The semiconductor device is disposed on the interposer substrate. The lid is disposed on the carrier substrate to cover the semiconductor device. The thermal interface material is disposed between the lid and the semiconductor device. A first recess is formed on a lower surface of the lid facing the semiconductor device, and the first recess overlaps the semiconductor device in a top view.

A package structure and a method of forming the same are provided. The package structure includes a package substrate and an interposer substrate over the package substrate. The interposer substrate has a first surface facing the package substrate and a second surface opposite the first surface. A first semiconductor device is disposed on the first surface, and a second semiconductor device is disposed on the second surface. Conductive structures are disposed between the interposer substrate and the package substrate. The first semiconductor device is located between the conductive structures. A first side of the first semiconductor device is at a first distance from the most adjacent conductive structure, and a second side of the first semiconductor device is at a second distance from the most adjacent conductive structure. The first side is opposite the second side, and the first distance is greater than the second distance.

A package structure and a method of forming the same are provided. The package structure includes a package substrate and an interposer substrate over the package substrate. The interposer substrate has a first surface facing the package substrate and a second surface opposite the first surface. A first semiconductor device is disposed on the first surface, and a second semiconductor device is disposed on the second surface. Conductive structures are disposed between the interposer substrate and the package substrate. The first semiconductor device is located between the conductive structures. A first side of the first semiconductor device is at a first distance from the most adjacent conductive structure, and a second side of the first semiconductor device is at a second distance from the most adjacent conductive structure. The first side is opposite the second side, and the first distance is greater than the second distance.

Embodiments of the present disclosure describe a die with integrated microphone device using through-silicon vias (TSVs) and associated techniques and configurations. In one embodiment, an apparatus includes an apparatus comprising a semiconductor substrate having a first side and a second side disposed opposite to the first side, an interconnect layer formed on the first side of the semiconductor substrate, a through-silicon via (TSV) formed through the semiconductor substrate and configured to route electrical signals between the first side of the semiconductor substrate and the second side of the semiconductor substrate, and a microphone device formed on the second side of the semiconductor substrate and electrically coupled with the TSV. Other embodiments may be described and/or claimed.

Embodiments of the present disclosure describe a die with integrated microphone device using through-silicon vias (TSVs) and associated techniques and configurations. In one embodiment, an apparatus includes an apparatus comprising a semiconductor substrate having a first side and a second side disposed opposite to the first side, an interconnect layer formed on the first side of the semiconductor substrate, a through-silicon via (TSV) formed through the semiconductor substrate and configured to route electrical signals between the first side of the semiconductor substrate and the second side of the semiconductor substrate, and a microphone device formed on the second side of the semiconductor substrate and electrically coupled with the TSV. Other embodiments may be described and/or claimed.

Cables, cable connectors, and support structures for cantilever package and/or cable attachment may be fabricated using additive processes, such as a coldspray technique, for integrated circuit assemblies. In one embodiment, cable connectors may be additively fabricated directly on an electronic substrate. In another embodiment, seam lines of cables and/or between cables and cable connectors may be additively fused. In a further embodiment, integrated circuit assembly attachment and/or cable attachment support structures may be additively formed on an integrated circuit assembly.

Cables, cable connectors, and support structures for cantilever package and/or cable attachment may be fabricated using additive processes, such as a coldspray technique, for integrated circuit assemblies. In one embodiment, cable connectors may be additively fabricated directly on an electronic substrate. In another embodiment, seam lines of cables and/or between cables and cable connectors may be additively fused. In a further embodiment, integrated circuit assembly attachment and/or cable attachment support structures may be additively formed on an integrated circuit assembly.