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.

The present disclosure provides a semiconductor package structure and a method of manufacturing the same. The semiconductor package structure includes a substrate, a first electronic component, an interlayer, a third electronic component and an encapsulant. The first electronic component is disposed on the substrate. The first electronic component has an upper surface and a lateral surface and a first edge between the upper surface and the lateral surface. The interlayer is on the upper surface of the first electronic component. The third electronic component is attached to the upper surface of the first electronic component via the interlayer. The encapsulant encapsulates the first electronic component and the interlayer. The interlayer does not contact the lateral surface of the first electronic component.

The present disclosure provides a semiconductor package structure and a method of manufacturing the same. The semiconductor package structure includes a substrate, a first electronic component, an interlayer, a third electronic component and an encapsulant. The first electronic component is disposed on the substrate. The first electronic component has an upper surface and a lateral surface and a first edge between the upper surface and the lateral surface. The interlayer is on the upper surface of the first electronic component. The third electronic component is attached to the upper surface of the first electronic component via the interlayer. The encapsulant encapsulates the first electronic component and the interlayer. The interlayer does not contact the lateral surface of the first electronic component.

A package structure includes a bottom plate, a semiconductor package, a top plate, a screw and an anti-loosening coating. The semiconductor package is disposed over the bottom plate. The top plate is disposed over the semiconductor package, and includes an internal thread in a screw hole of the top plate. The screw penetrates through the bottom plate, the semiconductor package and the top plate, and includes an external thread. The external thread of the screw is engaged to the internal thread of the top plate, and the anti-loosening coating is adhered between the external thread and the internal thread.

A package structure includes a bottom plate, a semiconductor package, a top plate, a screw and an anti-loosening coating. The semiconductor package is disposed over the bottom plate. The top plate is disposed over the semiconductor package, and includes an internal thread in a screw hole of the top plate. The screw penetrates through the bottom plate, the semiconductor package and the top plate, and includes an external thread. The external thread of the screw is engaged to the internal thread of the top plate, and the anti-loosening coating is adhered between the external thread and the internal thread.

A package structure is provided. The package structure includes a die, a lead frame, and a conductive glue. The lead frame includes a die pad and a retaining wall structure. The die pad is configured to support the die, and the retaining wall structure surrounds the die. The conductive glue is disposed between the die and the lead frame.

A package structure is provided. The package structure includes a die, a lead frame, and a conductive glue. The lead frame includes a die pad and a retaining wall structure. The die pad is configured to support the die, and the retaining wall structure surrounds the die. The conductive glue is disposed between the die and the lead frame.

Disclosed is a temporary protective film for semiconductor sealing molding 10 including a support film 1; and an adhesive layer 2 provided on the support film 1 and containing an acrylic rubber. A solid shear modulus at 200° C. of the temporary protective film for semiconductor sealing molding 10 may be 5.0 MPa or higher.

Disclosed is a temporary protective film for semiconductor sealing molding 10 including a support film 1; and an adhesive layer 2 provided on the support film 1 and containing an acrylic rubber. A solid shear modulus at 200° C. of the temporary protective film for semiconductor sealing molding 10 may be 5.0 MPa or higher.

A cooling plate assembly and electronic device having the same are provided which utilize active and passive cooling devices for improved thermal management of one or more chip package assemblies included in the electronic device. In one example, a cooling plate assembly is provided that includes a cooling plate having a first surface and an opposing second surface, a first active cooling device coupled to the first surface of the cooling plate, and a first passive cooling device coupled to the second surface of the cooling plate.