A semiconductor device assembly is provided. The assembly includes a first semiconductor device including a plurality of electrical contacts on an upper surface thereof; a monolithic silicon structure having a lower surface in contact with the upper surface of the first semiconductor device, the monolithic silicon structure including a cavity extending from the lower surface completely through a body of the monolithic silicon structure to a top surface of the monolithic silicon structure; and a second semiconductor device disposed in the cavity, the second semiconductor device including a plurality of interconnects, each operatively coupled to a corresponding one of the plurality of electrical contacts.

A semiconductor device includes: a semiconductor element; a frame which has a first surface, holds the semiconductor element on the first surface, and is electrically connected with the semiconductor element; and a seal which has electrical insulation properties and seals the semiconductor element and the frame, wherein a through-hole is formed in the seal, the through-hole has a hole axis which extends in a direction intersecting with the first surface, and an inner peripheral end surface of the seal exposed inside the through-hole is inclined with respect to the hole axis.

A semiconductor package includes a substrate, first to third semiconductor chips disposed on the substrate, first to third heat transfer components, first and second heat spreaders, and a trench. The first semiconductor chip is between the second and third semiconductor chips. The first to third heat transfer components are disposed on the semiconductor chips, respectively. The first heat spreader is formed on the first to third heat transfer components. The second heat spreader protrudes from the first heat spreader. The trench is formed on the second heat spreader. The second heat spreader includes first and second side units spaced apart with the trench between. A distance between an outer surface of an uppermost part of the first side unit and an outer surface of an uppermost part of the second side unit is smaller than a width of an upper surface of the first semiconductor chip.

A semiconductor module is provided, including: a semiconductor chip having an upper surface electrode and a lower surface electrode opposite to the upper surface electrode; a metal wiring plate electrically connected to the upper surface electrode of the semiconductor chip; and a sheet-like low elastic sheet provided on the metal wiring plate, the low elastic sheet having elastic modulus lower than that of the metal wiring plate. A manufacturing method for a semiconductor module is provided, including: providing a semiconductor chip; solder-bonding a metal wiring plate above said semiconductor chip; and applying a sheet-like low elastic sheet having the elastic modulus lower than that of said metal wiring plate to said metal wiring plate.

A package structure and a formation method of a package structure are provided. The method includes disposing a chip structure over a substrate and forming a first adhesive element directly on the chip structure. The first adhesive element has a first thermal conductivity. The method also includes forming a second adhesive element directly on the chip structure. The second adhesive element has a second thermal conductivity, and the second thermal conductivity is greater than the first thermal conductivity. The method further includes attaching a protective lid to the chip structure through the first adhesive element and the second adhesive element.

Semiconductor device includes circuit substrate, first semiconductor die, thermal interface material, package lid. First semiconductor die is disposed on and electrically connected to circuit substrate. Thermal interface material is disposed on first semiconductor die at opposite side of first semiconductor die with respect to circuit substrate. Package lid extends over first semiconductor die and is bonded to the circuit substrate. Package lid includes roof, footing, and island. Roof extends along first direction and second direction perpendicular to first direction. Footing is disposed at peripheral edge of roof and protrudes from roof towards circuit substrate along third direction perpendicular to first direction and second direction. Island protrudes from roof towards circuit substrate and contacts thermal interface material on first semiconductor die. Island is disconnected from footing along second direction.

A semiconductor device includes a circuit substrate, a semiconductor package, and a metallic cover. The semiconductor package is disposed on the circuit substrate. The metallic cover is disposed over the semiconductor package and over the circuit substrate. The metallic cover comprises a lid and outer flanges. The lid overlies the semiconductor package. The outer flanges are disposed at edges of the lid, are connected with the lid, extend from the lid towards the circuit substrate, and face side surfaces of the semiconductor package. The lid has a first region that is located over the semiconductor package and is thicker than a second region that is located outside a footprint of the semiconductor package.

A technique relates to an electronic package. A substrate is configured to receive a chip. A stiffener is attached to the substrate. The stiffener includes a core material with a first material formed on opposing sides of the core material.

A semiconductor package that effectively controls heat generated from a semiconductor chip is provided. A semiconductor device with improved product reliability and performance is provided. A semiconductor package comprises a substrate including a first surface and a second surface facing each other, a first semiconductor chip and a second semiconductor chip disposed on the first surface of the substrate, a first heat spreader formed on the first semiconductor chip and the second semiconductor chip, and a second heat spreader which protrudes from the first heat spreader and covers an upper part of the first semiconductor chip, wherein the first semiconductor chip includes a first side wall extending in a first direction, the second semiconductor chip includes a second side wall extending in the first direction and facing the first side wall of the first semiconductor chip in a second direction intersecting the first direction, and an area of the second heat spreader at a boundary between the first heat spreader and the second heat spreader is smaller than or equal to an area of an upper surface of the first semiconductor chip.

A semiconductor device includes a circuit substrate, a semiconductor package, and a metallic cover. The semiconductor package is disposed on the circuit substrate. The metallic cover is disposed over the semiconductor package and over the circuit substrate. The metallic cover comprises a lid and outer flanges. The lid overlies the semiconductor package. The outer flanges are disposed at edges of the lid, are connected with the lid, extend from the lid towards the circuit substrate, and face side surfaces of the semiconductor package. The lid has a first region that is located over the semiconductor package and is thicker than a second region that is located outside a footprint of the semiconductor package.