A die includes a semiconductor layer, an electrical contact on a first side of the semiconductor layer, a backside electrical contact layer on second side of the semiconductor layer. The die further includes a zinc layer over at least one of the electrical contact or the backside electrical contact layer of the die, and a conversion coating over the zinc layer. The conversion coating includes at least one of zirconium and vanadium. As part of an embedded die package including the die, at least a portion of the conversion coating may adjacent to an electrically insulating substrate of the embedded die package.

A display device includes a substrate including a display area having a plurality of pixel areas and a non-display area located at at least one side of the display area; a pixel in each of the pixel areas; and a plurality of fan-out lines in the non-display area to form a first conductive layer. The pixel includes a pixel circuit layer including at least one transistor and a first bridge line and a second bridge line; and a display element layer on the pixel circuit layer. Each of the first and second bridge lines is electrically connected to a corresponding fan-out line from among the fan-out lines.

Electronic assembly methods and structures are described. In an embodiment, an electronic assembly method includes bringing together an electronic component and a routing substrate, and directing a large area photonic soldering light pulse toward the electronic component to bond the electronic component to the routing substrate.

A semiconductor package includes a core layer, a conductive interconnect and a semiconductor chip. The core layer has a top surface and a bottom surface opposite to the top surface. The conductive interconnect penetrates through the core layer. The conductive interconnect has a top surface and a bottom surface respectively exposed from the top surface and the bottom surface of the core layer. The semiconductor chip is disposed on the top surface of the core layer. The semiconductor chip includes a conductive pad, and the top surface of the conductive interconnect directly contacts the conductive pad.

Disclosed is an electronic module with high routing efficiency and other new possibilities in conductor design. The electronic module comprises a wiring layer (3), a component (1) having a surface with contact terminals (2) and first contact elements (6) that connect at least some of the contact terminals (2) to the wiring layer (3). The electronic module is provided with at least one conducting pattern (4) on the surface of the component (1) but spaced apart from the contact terminals (2). The electronic module further comprises a dielectric (5) and at least one second contact element (7) that connects the conducting pattern (4) to the wiring layer (3) through a portion of said dielectric (5). Methods of manufacturing such modules are also disclosed.

A method for making a semiconductor device includes forming rims on first and second dice. The rims extend laterally away from the first and second dice. The second die is stacked over the first die, and one or more vias are drilled through the rims after stacking. The semiconductor device includes redistribution layers extending over at least one of the respective first and second dice and the corresponding rims. The one or more vias extend through the corresponding rims, and the one or more vias are in communication with the first and second dice through the rims.

A packaged semiconductor device includes a substrate with first and second opposing major surfaces. A stacked semiconductor device structure is connected to the first major surface and includes a plurality of semiconductor die having terminals. Conductive interconnect structures electrically connect the terminals of the semiconductor dies together. The semiconductor dies are stacked together so that the terminals are exposed, and the stacked semiconductor device structure comprises a stepped profile. The conductive interconnect structures comprise a conformal layer that substantially follows the stepped profile.

In an embodiment, a device includes: a bottom integrated circuit die having a first front side and a first back side; a top integrated circuit die having a second front side and a second back side, the second back side being bonded to the first front side, the top integrated circuit die being free from through substrate vias (TSVs); a dielectric layer surrounding the top integrated circuit die, the dielectric layer being disposed on the first front side, the dielectric layer and the bottom integrated circuit die being laterally coterminous; and a through via extending through the dielectric layer, the through via being electrically coupled to the bottom integrated circuit die, surfaces of the through via, the dielectric layer, and the top integrated circuit die being planar.

Disclosed herein is a package comprising a first die having a first redistribution layer (RDL) disposed on a first side of a first substrate and a second die having a second RDL disposed on a first side of a second substrate, with the first RDL bonded to the second RDL. A third die having a third RDL is disposed on a first side of a third substrate, the third die mounted over the second die, with the second die disposed between the first die and the third die. First vias extend through, and are electrically isolated from, the second substrate, with the first vias each contacting a conductive element in the first RDL or the second RDL. Second vias extend through, and are electrically isolated from, the third substrate, with the second vias each contacting a conductive element in the third RDL or one of the first vias.

A semiconductor package structure includes a plurality of first dies spaced from each other, a molding layer between the first dies, a second die over the plurality of first dies and the molding layer, and an adhesive layer between the plurality of first dies and the second die, and between the molding layer and the second die. A first interface between the adhesive layer and the molding layer and a second interface between the adhesive layer and the plurality of first dies are at different levels.