A semiconductor structure including an integrated circuit die and conductive bumps is provided. The integrated circuit die includes bump pads. The conductive bumps are disposed on the bump pads. Each of the conductive bumps includes a first pillar portion disposed on one of the bump pads and a second pillar portion disposed on the first pillar portion. The second pillar portion is electrically connected to one of the bump pads through the first pillar portion, wherein a first width of the first pillar portion is greater than a second width of the second pillar portion. A package structure including the above-mentioned semiconductor structure is also provided.

A chip package structure is provided. The chip package structure includes a redistribution structure and a first chip structure over the redistribution structure. The chip package structure also includes a first solder bump between the redistribution structure and the first chip structure and a first molding layer surrounding the first chip structure. The chip package structure further includes a second chip structure over the first chip structure and a second molding layer surrounding the second chip structure. In addition, the chip package structure includes a third molding layer surrounding the first molding layer, the second molding layer, and the first solder bump. A portion of the third molding layer is between the first molding layer and the redistribution structure.

A package comprising an electronic chip with at least one electric contact structure, an electrically conductive chip carrier having at least one coupling cavity, and a coupling structure located at least partially in the at least one coupling cavity and electrically contacting the at least one electric contact structure with the chip carrier.

A semiconductor device includes a first semiconductor substrate, a second semiconductor substrate, a bonding electrode, and a dummy electrode. The first semiconductor substrate has a first surface and a first wiring, and contains a first semiconductor material. The second semiconductor substrate has a second surface and a second wiring, and contains a second semiconductor material, and the first surface and the second surface face each other. The bonding electrode is arranged between the first surface and the second surface, and is electrically connected to the first wiring and the second wiring. The dummy electrode is arranged between the first surface and the second surface, and is electrically insulated from at least one of the first wiring and the second wiring. The bonding electrode has a bonding bump and a first bonding pad. The dummy electrode has a dummy bump and a first dummy pad.

Disclosed are semiconductor packages and methods of fabricating the same. The semiconductor package comprises a redistribution substrate including dielectric and redistribution patterns, a first substrate pad on the redistribution substrate and penetrating the dielectric pattern to be coupled to the redistribution pattern, a second substrate pad the redistribution substrate and spaced apart from the first substrate pad, a semiconductor chip on the redistribution substrate, a first connection terminal connecting the first substrate pad to one of chip pads of the semiconductor chip, and a second connection terminal connecting the second substrate pad to another one of the chip pads of the semiconductor chip. A top surface of the second substrate pad is located at a higher level than that of a top surface of the first substrate pad. A width of the second substrate pad is less than that of the first substrate pad.

A printed circuit board (PCB) includes: a base substrate including a top surface including an electronic device mounting region; chip connection pads that are provided on the electronic device mounting region; a conductive pattern group that is provided on the top surface of the base substrate and includes an extended conductive pattern extending between two adjacent chip connection pads from among the chip connection pads, the extended conductive pattern being spaced apart from each of the two adjacent chip connection pads; and a solder resist layer that covers a part of the extended conductive pattern and is spaced apart from the chip connection pads.

A vehicular electronic device has a semiconductor package and a multilayer wiring board. An electrode pad of the multilayer wiring board, to which a signal terminal of the semiconductor package is soldered, has a wiring pattern in an inner layer of the multilayer wiring board. A solder resist is applied and spaced from a periphery of the electrode pad to the exterior. The signal terminal is soldered to the electrode pad to cover an upper surface and an upper end of a side surface of the electrode pad. As a result, a crack is less likely to occur in solder connected to the signal terminal. Therefore, the signal terminal can be electrically connected with high reliability even when the signal terminal is provided in the semiconductor package with a small number.

A semiconductor device includes a board having a solder resist layer with first and second openings on a first surface, and a first electrode on the first surface, a portion thereof exposed in the first opening and electrically connected to the board. A second electrode is located on the first surface having a portion exposed in the second opening and electrically connected to the board. A portion of the second electrode is covered by the solder resist layer. A first solder bump is on the first electrode and covers a side surface. A second solder bump is on the second electrode. A semiconductor chip has a first region and a second region facing the first surface. A third electrode is in the first region and electrically connected to the first solder bump. A fourth electrode is in the second region and electrically connected to the second solder bump.

An integrated circuit structure includes an alignment bump and an active electrical connector. The alignment bump includes a first non-solder metallic bump. The first non-solder metallic bump forms a ring encircling an opening therein. The active electrical connector includes a second non-solder metallic bump. A surface of the first non-solder metallic bump and a surface of the second non-solder metallic bump are substantially coplanar with each other.

A semiconductor device and a method of manufacturing a semiconductor device. As a non-limiting example, various aspects of this disclosure provide a semiconductor device, and a method of manufacturing thereof, that comprises a substrate including a dielectric layer, at least one conductive trace and conductive bump pad formed on one surface of the dielectric layer, and a protection layer covering the at least one conductive trace and conductive bump pad, the at least one conductive bump pad having one end exposed through the protection layer, and a semiconductor die electrically connected to the conductive bump pad of the substrate.