An electronic component package includes: a sealing resin layer; a metal member buried therein and including a die bond portion and a terminal electrode portion located outside the die bond portion; a ceramic substrate buried in the sealing resin layer; and an electronic component disposed on the die bond portion. When viewed in plan, the die bond portion and the ceramic substrate are partially overlapped to be in contact with each other, and the terminal electrode portion and the ceramic substrate are partially overlapped to be in contact with each other. The electronic component is electrically connected to the terminal electrode portion. The metal member includes a first plating layer and a second plating layer, and the average crystal grain diameter of the first plating layer is smaller than the average crystal grain diameter of the second plating layer.

A method for fabricating a semiconductor device module includes: providing a substrate having one or more semiconductor dies disposed thereon; providing a housing; applying a reactive tape on partial surfaces of one or both of the substrate and the housing; mounting the housing onto the substrate; filling in a potting material into an interior of the housing; and curing the potting material and the reactive tape.

A method for fabricating a semiconductor device module includes: providing a substrate having one or more semiconductor dies disposed thereon; providing a housing; applying a reactive tape on partial surfaces of one or both of the substrate and the housing; mounting the housing onto the substrate; filling in a potting material into an interior of the housing; and curing the potting material and the reactive tape.

A terminal case formed by integrally molding a lead frame and a case that has internally an inner face on which the lead frame is mounted and has externally a step portion fixed to a circuit block having an insulating substrate and semiconductor chips formed on the insulating substrate. An opening portion is formed between the step portion and the inner face so as to extend through them, and the opening portion is filled with an adhesive to bond the insulating substrate to the step portion. Since a connecting area to which a bonding wire of the lead frame is ultrasonically bonded is fixed, it is possible to reduce the bonding failures of the lead frames.

A terminal case formed by integrally molding a lead frame and a case that has internally an inner face on which the lead frame is mounted and has externally a step portion fixed to a circuit block having an insulating substrate and semiconductor chips formed on the insulating substrate. An opening portion is formed between the step portion and the inner face so as to extend through them, and the opening portion is filled with an adhesive to bond the insulating substrate to the step portion. Since a connecting area to which a bonding wire of the lead frame is ultrasonically bonded is fixed, it is possible to reduce the bonding failures of the lead frames.

A method of fabricating a semiconductor structure includes providing a first substrate comprising a first side and a second side opposite to the first side. A package is attached to the first side of the first substrate. A second substrate is attached to the second side of the first substrate. A plurality of electrical connectors is bonded between the second side of the first substrate and the second substrate. A lid is attached to the first substrate and the second substrate. The lid includes a ring part and a plurality of overhang parts. The ring part is over the first side of the first substrate. The plurality of overhang parts extends from corner sidewalls of the ring part toward the second substrate. The plurality of overhang parts are laterally aside the plurality of electrical connectors.

A method of fabricating a semiconductor structure includes providing a first substrate comprising a first side and a second side opposite to the first side. A package is attached to the first side of the first substrate. A second substrate is attached to the second side of the first substrate. A plurality of electrical connectors is bonded between the second side of the first substrate and the second substrate. A lid is attached to the first substrate and the second substrate. The lid includes a ring part and a plurality of overhang parts. The ring part is over the first side of the first substrate. The plurality of overhang parts extends from corner sidewalls of the ring part toward the second substrate. The plurality of overhang parts are laterally aside the plurality of electrical connectors.

A semiconductor device, including a semiconductor element; a case having a frame portion, which has an inner periphery that surrounds a housing space for accommodating the semiconductor element; and a lid covering the housing space. The inner periphery of the frame portion has a stepped portion formed thereon, the stepped portion including a step supporting surface positioned at a level lower than a front surface of the frame portion and being approximately parallel to the front surface of the frame portion. The lid has a lateral surface surrounding the lid, and a front surface and a bottom surface approximately parallel to the step supporting surface. The lid has a reservoir formed in the front surface thereof and extending from the lateral surface, the reservoir having a reservoir surface positioned at a level lower than the front surface of the lid.

A semiconductor device, including a semiconductor element; a case having a frame portion, which has an inner periphery that surrounds a housing space for accommodating the semiconductor element; and a lid covering the housing space. The inner periphery of the frame portion has a stepped portion formed thereon, the stepped portion including a step supporting surface positioned at a level lower than a front surface of the frame portion and being approximately parallel to the front surface of the frame portion. The lid has a lateral surface surrounding the lid, and a front surface and a bottom surface approximately parallel to the step supporting surface. The lid has a reservoir formed in the front surface thereof and extending from the lateral surface, the reservoir having a reservoir surface positioned at a level lower than the front surface of the lid.

Semiconductor packages having a sealant bridge between an integrated heat spreader and a package substrate are described. In an embodiment, a semiconductor package includes a sealant bridge anchoring the integrated heat spreader to the package substrate at locations within an overhang gap laterally between a semiconductor die and a sidewall of the integrated heat spreader. The sealant bridge extends between a top wall of the integrated heat spreader and a die side component, such as a functional electronic component or a non-functional component, or a satellite chip on the package substrate. The sealant bridge modulates warpage or stress in thermal interface material joints to reduce thermal degradation of the semiconductor package.