A package assembly includes a package substrate, a package lid located on the package substrate and including a plate portion, an outer foot extending from the plate portion, and an inner foot having a height greater than or equal to a height of the outer foot, extending from the plate portion and including a first inner foot corner portion located inside a first corner of the outer foot, and an adhesive that adheres the outer foot to the package substrate and adheres the inner foot to the package substrate.

A package assembly may include a package substrate, a package lid attached to the package substrate and including a plate portion, an outer foot extending from the plate portion, and an inner foot extending from the plate portion inside the outer foot, and an adhesive that adheres the outer foot to the package substrate and the inner foot to the package substrate.

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.

Microelectronic assemblies, related devices and methods, are disclosed herein. In some embodiments, a microelectronic assembly may include a package substrate including a first conductive pathway electrically coupled to a power source; a mold material on the package substrate including a first microelectronic component embedded in the mold material, a second microelectronic component embedded in the mold material, and a TMV, between the first and second microelectronic components, the TMV electrically coupled to the first conductive pathway; a redistribution layer (RDL) on the mold material including a second conductive pathway electrically coupled to the TMV; and a third microelectronic component on the RDL and electrically coupled to the second conductive pathway, wherein the second conductive pathway electrically couples the TMV, the first microelectronic component, and the third microelectronic component.

A semiconductor package includes a substrate, a package structure, and a lid structure. The package structure is disposed on the substrate. The lid structure is disposed over substrate, wherein the lid structure includes a main body covering and surrounding the package structure and a plurality of rib portions protruded from the main body and extended toward the package structure.

A package structure is provided. The package structure includes a first package component, a second package component, and a lid structure. The first package component includes a plurality of integrated circuit dies and an underfill formed between the integrated circuit dies. The second package component includes a substrate, and the first package component is mounted on the substrate. The lid structure is disposed on the second package component and around the first package component, and the lid structure covers the integrated circuit dies and exposes the underfill.

A method includes bonding a first package and a second package over a package component, adhering a first Thermal Interface Material (TIM) and a second TIM over the first package and the second package, respectively, dispensing an adhesive feature on the package component, and placing a heat sink over and contacting the adhesive feature. The heat sink includes a portion over the first TIM and the second TIM. The adhesive feature is then cured.

There is provided a semiconductor device including a substrate whose surface is made of an insulation material, a semiconductor chip flip-chip connected on the substrate, and a heat sink bonded to the semiconductor chip via a thermal interface material and fixed to the substrate outside the semiconductor chip, in which the heat sink has a protrusion part protruding toward the substrate and bonded to the substrate via a conductive resin between a part bonded to semiconductor chip and a part fixed to the substrate and the heat sink has a stress absorbing part. According to the present invention, the protrusion part of the heat sink is prevented from being peeled off from the substrate at the part where the protrusion part of the heat sink is bonded to the substrate.

A module includes a substrate including a first surface, at least one first component mounted on the first surface, a shield member mounted on the first surface to cover the first component, and a first sealing resin arranged at least between the shield member and the first surface. The shield member includes a top surface portion in a form of a plate and a plurality of leg portions that extend from the top surface portion toward the first surface.

There is provided a semiconductor device including a substrate whose surface is made of an insulation material, a semiconductor chip flip-chip connected on the substrate, and a heat sink bonded to the semiconductor chip via a thermal interface material and fixed to the substrate outside the semiconductor chip, in which the heat sink has a protrusion part protruding toward the substrate and bonded to the substrate via a conductive resin between a part bonded to semiconductor chip and a part fixed to the substrate and the heat sink has a stress absorbing part. According to the present invention, the protrusion part of the heat sink is prevented from being peeled off from the substrate at the part where the protrusion part of the heat sink is bonded to the substrate.