A sintered member is provided between a semiconductor chip and a terminal. The sintered member is made of a sinter sheet by heating and pressing the same. The semiconductor chip is connected to the terminal via the sintered member. Convex portions are formed at a front-side surface of the semiconductor chip. Concave portions, each of which has such a shape corresponding to that of each convex portion of the semiconductor chip, are formed at a surface of the sintered member facing to the semiconductor chip.

A semiconductor package including a substrate; a semiconductor stack on the substrate; an underfill between the substrate and the semiconductor stack; an insulating layer conformally covering surfaces of the semiconductor stack and the underfill; a chimney on the semiconductor stack; and a molding member surrounding side surfaces of the chimney, wherein the semiconductor stack has a first upper surface that is a first distance from the substrate and a second upper surface that is a second distance from the substrate, the first distance being greater than the second distance, wherein the chimney includes a thermally conductive filler on the first and second upper surfaces of the semiconductor stack, the thermally conductive filler having a flat upper surface; a thermally conductive spacer on the thermally conductive filler; and a protective layer on the thermally conductive spacer, and wherein an upper surface of the thermally conductive spacer is exposed.

A semiconductor device that comprises a substrate with a primary surface and a secondary surface opposite to the primary surface. The primary surface provides a semiconductor active device. The semiconductor device includes a base metal layer deposited on the secondary surface and within the substrate via in which a vacancy is formed, and an additional metal layer on the base metal layer, the additional metal layer having different wettability against a solder as compared to the base metal layer whereby the solder is contactable by the base metal layer and repelled by the additional metal layer. The semiconductor device is die-bonded on the assembly substrate by interposing the solder between the secondary surface and the assembly substrate. The base metal layer in a portion that excepts the substrate via and a periphery of the substrate via by partly removing the additional metal layer is in contact with the solder.

A semiconductor package includes a substrate, a first semiconductor chip disposed on the substrate, and a second semiconductor chip disposed on a top surface of the first semiconductor chip. The first semiconductor chip includes a conductive pattern disposed on the top surface of the first semiconductor chip and a first protective layer covering the top surface of the first semiconductor chip and at least partially surrounds the conductive pattern. The second semiconductor chip includes a first pad that contacts a first through electrode on a bottom surface of the second semiconductor chip. A second protective layer surrounds the first pad and covers the bottom surface of the second semiconductor chip. A third protection layer fills a first recess defined in the second protective layer to face the inside of the second protective layer. The first protective layer and the third protective layer contact each other.

A bonded structure includes a semiconductor element, an electrical conductor and a sintered metal layer. The semiconductor element has an element obverse surface and an element reverse surface spaced apart from each other in a first direction and includes a reverse-surface electrode on the element reverse surface. The electrical conductor has a mount surface facing in a same direction as the element obverse surface and supports the semiconductor element with the mount surface facing the element reverse surface. The sintered metal layer bonds the semiconductor element to the electrical conductor and electrically connects the reverse-surface electrode and the electrical conductor. The mount surface includes a roughened area roughened by a roughening process. The sintered metal layer is formed on the roughened area.

A semiconductor device package includes a substrate, a silicon (Si) or silicon carbide (SiC) semiconductor die, and a metal layer on a surface of the semiconductor die. The metal layer includes a bonding surface that is attached to a surface of the substrate by a die attach material. The bonding surface includes opposing edges that extend along a perimeter of the semiconductor die, and one or more non-orthogonal corners that are configured to reduce stress at an interface between the bonding surface and the die attach material. Related devices and fabrication methods are also discussed.

A semiconductor package includes a circuit board including a wiring structure, first and second semiconductor chips disposed on the circuit board and connected to the wiring structure, a dummy chip disposed on the circuit board and positioned between the first and second semiconductor chips, and a molded member disposed on the circuit board and surrounding the first and second semiconductor chips and the dummy chip. The dummy chip may include a rounded edge between an upper surface and a side surface.

Embodiments described herein provide techniques for forming a solder mask having a repeating pattern of features formed therein. The repeating pattern of features can be conceptually understood as a plurality of groove structures formed in the solder mask. The solder mask can be included in a semiconductor package that comprises the solder mask over a substrate and a molding compound over the solder mask that conforms to the repeating pattern of features. Several advantages are attributable to embodiments of the solder mask described herein. One advantage is that the repeating pattern of features formed in the solder mask increase the contact area between the solder mask and the molding compound. Increasing the contact area can assist with increasing adherence and conformance of the molding compound to the solder mask. This increased adherence and conformance assists with minimizing or eliminating interfacial delamination.

A semiconductor package includes a substrate, a first semiconductor chip disposed on the substrate, and a second semiconductor chip disposed on a top surface of the first semiconductor chip. The first semiconductor chip includes a conductive pattern disposed on the top surface of the first semiconductor chip and a first protective layer covering the top surface of the first semiconductor chip and at least partially surrounds the conductive pattern. The second semiconductor chip includes a first pad that contacts a first through electrode on a bottom surface of the second semiconductor chip. A second protective layer surrounds the first pad and covers the bottom surface of the second semiconductor chip. A third protection layer fills a first recess defined in the second protective layer to face the inside of the second protective layer. The first protective layer and the third protective layer contact each other.

A semiconductor device includes: a semiconductor base body; a semiconductor chip; a sintering material layer bonded to a lower surface of the semiconductor chip and having a thickness decreasing toward an outer periphery of the semiconductor chip; and a conductive plate having a main surface facing the lower surface of the semiconductor chip and a recessed portion which the sintering material layer contacts in the main surface, the recessed portion having a depth decreasing toward the outer periphery of the semiconductor chip.