An organic interposer includes: a first organic insulating layer including a groove; a first metal wire located in the groove; a barrier metal material covering the first metal wire; and a second metal wire located above the first metal wire, wherein the barrier metal material includes: a first barrier metal film interposed between the first metal wire and an inner surface of the groove; and a second barrier metal film located on the first metal wire, and wherein the second metal wire is in contact with both of the first barrier metal film and the second barrier metal film.

A substrate structure comprises a substrate having a first surface, a first electrode disposed on the first surface, a bump connected to the first electrode, and a protective member that covers the first surface and covers a portion of the bump. The protective member has an opening. The bump includes a portion exposed through the opening. The bump includes a first portion that is connected to the first electrode, and a second portion that is located farther from the first electrode than the first portion and is connected to the first portion. The bump has a constriction at a boundary between the first portion and the second portion. When viewed in a direction perpendicular to the first surface, a maximum diameter of the second portion is smaller than a maximum diameter of the first portion.

A semiconductor package includes a die and a first lamination layer on the die with openings through the first lamination layer. A redistribution layer is on the first lamination layer and extends through the openings to the die. A plurality of conductive extensions are on the redistribution layer with each stud including a first surface on the redistribution layer, a second surface opposite to the first surface, and a sidewall between the first surface and the second surface. A second lamination layer is on the redistribution layer and the first lamination layer with the die encapsulated in molding compound. The second lamination layer is removed around the conductive extensions to expose the second surface and at least a portion of the sidewall of each stud to improve solder bond strength when mounting the package to a circuit board.

A semiconductor package is provided. The semiconductor package includes: a substrate; a first buffer chip and a second buffer chip located on an upper part of the substrate; a plurality of nonvolatile memory chips located on the upper part of the substrate and including a first nonvolatile memory chip and a second nonvolatile memory chip, the first nonvolatile memory chip being electrically connected to the first buffer chip, and the second nonvolatile memory chip being electrically connected to the second buffer chip; a plurality of external connection terminals connected to a lower part of the substrate; and a rewiring pattern located inside the substrate. The rewiring pattern is configured to diverge an external electric signal received through one of the plurality of external connection terminals into first and second signals, transmit the first signal to the first buffer chip, and transmit the second signal to the second buffer chip.

A method for fabricating a semiconductor package includes: providing a semiconductor wafer having opposing first and second sides, the semiconductor wafer being arranged on a first carrier such that the second side of the wafer faces the carrier; masking sawing lines on the first side of the semiconductor wafer with a mask; depositing a first metal layer on the masked first side of the semiconductor wafer by cold spraying or by high velocity oxygen fuel spraying or by cold plasma assisted deposition, such that the first metal layer does not cover the sawing lines, the deposited first metal layer having a thickness of 50 μm or more; singulating the semiconductor wafer into a plurality of semiconductor dies by sawing the semiconductor wafer along the sawing lines; and encapsulating the plurality of semiconductor dies with an encapsulant such that the first metal layer is exposed on a first side of the encapsulant.

In one example, a semiconductor device comprises a first substrate comprising a first conductive structure, a first body over the first conductive structure and comprising an inner sidewall defining a cavity in the first body, a first interface dielectric over the first body, and a first internal interconnect in the first body and the first interface dielectric, and coupled with the first conductive structure. The semiconductor device further comprises a second substrate over the first substrate and comprising a second interface dielectric, a second body over the second interface dielectric, and a second conductive structure over the second body and comprising a second internal interconnect in the second body and the second interface dielectric. An electronic component is in the cavity, and the second internal interconnect is coupled with the first internal interconnect. Other examples and related methods are also disclosed herein.

According to various examples, a stacked semiconductor package is described. The stacked semiconductor package may include a package substrate. The stacked semiconductor package may also include a base die disposed on and electrically coupled to the package substrate. The stacked semiconductor package may further include a mold portion disposed on the package substrate at a periphery of the base die, the mold portion may include a through-mold interconnect electrically coupled to the package substrate. The stacked semiconductor package may further include a semiconductor device having a first section disposed on the base die and a second section disposed on the mold portion, wherein the second section of the semiconductor device may be electrically coupled to the package substrate through the through-mold interconnect.

A semiconductor package includes a substrate, a semiconductor die, a ring structure and a lid. The semiconductor die is disposed on the substrate. The ring structure is disposed on the substrate and surrounds the semiconductor die, where a first side of the semiconductor die is distant from an inner sidewall of the ring structure by a first gap, and a second side of the semiconductor die is distant from the inner sidewall of the ring structure by a second gap. The first side is opposite to the second side, and the first gap is less than the second gap. The lid is disposed on the ring structure and has a recess formed therein, and the recess overlaps with the first gap in a stacking direction of the ring structure and the lid.

Various embodiments relate to a semiconductor package. The semiconductor package includes a first die. The first die includes a first bridge interconnect region. The semiconductor package further includes a second die. The second die includes a second bridge interconnect region. The semiconductor package includes a bridge die. The bridge die includes a first contact area to connect to the first bridge interconnect region and a second contact area to connect to the second bridge interconnect region. In the semiconductor package, the first bridge interconnect region is larger than the second bridge interconnect region. Additionally, each of the first bridge interconnect region and the second bridge interconnect region include a plurality of conductive bumps. An average pitch between adjacent bumps of the first bridge interconnect region is larger than an average pitch between adjacent bumps of the second bridge interconnect region.

A semiconductor package includes a supporting wiring structure including a first redistribution dielectric layer and a first redistribution conductive structure; a frame on the supporting wiring structure, having a mounting space and a through hole, and including a conductive material; a semiconductor chip in the mounting space and electrically connected to the first redistribution conductive structure; a cover wiring structure on the frame and the semiconductor chip and including a second redistribution dielectric layer and a second redistribution conductive structure; an antenna structure on the cover wiring structure; a connection structure extending in the through hole and electrically connecting the first redistribution conductive structure to the second redistribution conductive structure; and a dielectric filling member between the connection structure in the through hole and the frame and surrounding the semiconductor chip, the frame, and the connection structure.