A system and method. The system may include an integrated circuit (IC) die. The IC die may have two faces and sides. The system may further include mold material. The mold material may surround at least the sides of the IC die. The IC die may be mechanically interlocked with the mold material.

A semiconductor device package includes a substrate having a surface, a conductive element disposed on the surface of the substrate, and an encapsulant disposed on the surface of the substrate and covering the conductive element. The conductive element has an upper surface facing away from the substrate and exposed from the encapsulant. Further, a roughness of the upper surface of the conductive element is greater than a roughness of a side surface of the conductive element.

A device comprises: a first film having a first inner portion, a first seal portion and a first contact portion; a second film having a second inner portion, a second seal portion and a second contact portion; a first circuit member having a first contact point; and a second circuit member having a second contact point. The first seal portion and the second seal portion are bonded together. The first contact portion and the second contact portion are in contact with each other in a contact region which surrounds the first inner portion and the second inner portion throughout their entire circumference. The first circuit member and the second circuit member are shut in a closed space which is enclosed by the first inner portion and the second inner portion. The first contact point and the second contact point are in contact with each other.

Provided are a package structure and a method of forming the same. The package structure includes a first die, a second die group, an interposer, an underfill layer, a thermal interface material (TIM), and an adhesive pattern. The first die and the second die group are disposed side by side on the interposer. The underfill layer is disposed between the first die and the second die group. The adhesive pattern at least overlay the underfill layer between the first die and the second die group. The TIM has a bottom surface being in direct contact with the first die, the second die group, and the adhesive pattern. The adhesive pattern separates the underfill layer from the TIM.

A semiconductor assembly includes a laminate substrate that includes a plurality of laminate layers of electrically insulating material stacked on top of one another, a semiconductor package that includes a package body of electrically insulating encapsulant material and a plurality of electrical contacts that are exposed from the package body, wherein the semiconductor package is embedded within the laminate layers of the laminate substrate, wherein the semiconductor package comprises a delamination mitigation feature, wherein the delamination mitigation feature comprises one or both of a macrostructure that engages with the laminate layers, and a roughened surface of microstructures that enhances adhesion between the semiconductor package and the laminate layers.

A semiconductor device includes a semiconductor element, which has a protective film having an opening that exposes a part of a source electrode and disposed/provided to position an end portion thereof on the source electrode. A rewiring layer has wiring that is connected to the source electrode and to a conductive connecting member, and an insulator that covers a part of the source wiring. The insulator includes: an insulating film having (a) an opening for exposing a part of the source wiring, and (b) an end portion of the opening provided in a facing region of the opening; and an insulating film having (c) (i) an opening for exposing a part of the source wiring having a solder arranged therein and (ii) a connecting member arranged therein.

A microelectronic package may be fabricated to include a microelectronic substrate, at least one microelectronic device attached to the microelectronic substrate, a heat dissipation device in thermal contact with at least one microelectronic device and having at least one projection attached to the microelectronic substrate, and at least one standoff extending from the at least one projection, wherein the at least one standoff contacts the microelectronic substrate to control the bond line thickness between the heat dissipation device and at least one microelectronic device and/or to control the bond line thickness of a sealant which may be used to attached the at least one projection to the microelectronic substrate.

There is provided a semiconductor device including: a lead frame including a first opening portion; a resin filled in the first opening portion; and a semiconductor element electrically connected to the lead frame, wherein a side wall surface of the lead frame in the first opening portion has a larger average surface roughness than an upper surface of the lead frame.

A package includes an electronic component, an inorganic encapsulant encapsulating at least part of the electronic component, and an adhesion promoter between at least part of the electronic component and the encapsulant.

Manufacturing a semiconductor device, such as an integrated circuit, comprises: providing a leadframe having a die pad area, attaching onto the die pad area of the leadframe one or more semiconductor die or dice via soft-solder die attach material, and forming a device package by molding package material onto the semiconductor die or dice attached onto the die pad area of the leadframe. An enhancing layer, provided onto the leadframe to counter device package delamination, is selectively removed via laser beam ablation from the die pad area, and the semiconductor die or dice are attached onto the die pad area via soft-solder die attach material provided where the enhancing layer has been removed to promote wettability by the soft-solder material.