A structure is provided that reduces the stress generated in a semiconductor device package during cooling subsequent to solder reflow operations for coupling semiconductor devices to a printed circuit board (PCB). Stress reduction is provided by coupling solder lands to metal-layer structures using traces on the PCB that are oriented approximately perpendicular to lines from an expansion neutral point associated with the package. In many cases, especially where the distribution of solder lands of the semiconductor device package are uniform, the expansion neutral point is in the center of the semiconductor device package. PCB traces having such an orientation experience reduced stress due to thermal-induced expansion and contraction as compared to traces having an orientation along a line to the expansion neutral point.

A package structure and a method of manufacturing the same are provided. The package structure includes a substrate, a redistribution layer (RDL) structure, a first die, an encapsulant and a plurality of conductive terminals. The RDL structure is disposed on and electrically connected to the substrate. A width of the RDL structure is less than a width of the substrate. The first die is disposed on the substrate and the RDL structure. The first connectors of the first die are electrically connected to the RDL structure. The second connectors of the first die are electrically connected to the substrate. A first pitch of two adjacent first connectors is less than a second pitch of two adjacent second connectors. The encapsulant is on the substrate to encapsulate the RDL structure and the first die. The conductive terminals are electrically connected to the first die through the substrate and the RDL structure.

A semiconductor device package includes a first circuit layer, a second circuit layer, a first semiconductor die and a second semiconductor die. The first circuit layer includes a first surface and a second surface opposite to the first surface. The second circuit layer is disposed on the first surface of the first circuit layer. The first semiconductor die is disposed on the first circuit layer and the second circuit layer, and electrically connected to the first circuit layer and the second circuit layer. The second semiconductor die is disposed on the second circuit layer, and electrically connected to the second circuit layer.

There is provided a semiconductor device that includes a wiring layer having a main surface and a rear surface which face opposite sides in a thickness direction, a first insulating layer covering an entirety of the rear surface, a second insulating layer which is in contact with the main surface, a semiconductor element which faces the second insulating layer and is mounted on the wiring layer, and a sealing resin which is in contact with the second insulating layer and covers the semiconductor element, wherein surface roughness of the main surface is larger than surface roughness of the rear surface.

A semiconductor package structure and a method for making a semiconductor package. As non-limiting examples, various aspects of this disclosure provide various semiconductor package structures, and methods for making thereof, that comprise a connect die that routes electrical signals between a plurality of other semiconductor die.

Semiconductor devices may include a first semiconductor chip, a first redistribution layer on a bottom surface of the first semiconductor chip, a second semiconductor chip on the first semiconductor chip, a second redistribution layer on a bottom surface of the second semiconductor chip, a mold layer extending on sidewalls of the first and second semiconductor chips and on the bottom surface of the first semiconductor chip, and an external terminal extending through the mold layer and electrically connected to the first redistribution layer. The second redistribution layer may include an exposed portion. The first redistribution layer may include a first conductive pattern electrically connected to the first semiconductor chip and a second conductive pattern electrically insulated from the first semiconductor chip. The exposed portion of the second redistribution layer and the second conductive pattern of the first redistribution layer may be electrically connected by a first connection wire.

One embodiment of a packaged semiconductor device includes: a redistributed layer (RDL) structure formed over an active side of a semiconductor die embedded in mold compound, the RDL structure includes a plurality of solder ball pads that in turn includes: a set of first solder ball pads located on a front side of the packaged semiconductor device within a footprint of the semiconductor die, and a set of second solder ball pads located on the front side of the packaged semiconductor device outside of the footprint of the semiconductor die, each first solder ball pad includes a first center portion having a first diameter measured between opposite outer edges of the first center portion, each second solder ball pad includes a second center portion having a second diameter measured between opposite outer edges of the second center portion, and the first diameter is smaller than the second diameter.

A device comprising a connecting plate and a circuit element is disclosed. The circuit element is electrically coupled to the connecting plate through a solder connection including a plurality of solder balls disposed between the circuit element and the connecting plate. An underfill layer is formed between the circuit element and the connecting plate and configured to provide bonding between the circuit element and the connecting plate. The solder connection includes a first solder area with a first solder ball density and a second solder area with a second solder ball density. The first solder ball density is less than the second solder ball density. The underfill layer includes a bonding material continuously disposed in the second solder area of the solder connection.

An apparatus is provided which comprises: a plurality of first conductive contacts having a first pitch spacing on a substrate surface, a plurality of second conductive contacts having a second pitch spacing on the substrate surface, and a plurality of conductive interconnects disposed within the substrate to couple a first grouping of the plurality of second conductive contacts associated with a first die site with a first grouping of the plurality of second conductive contacts associated with a second die site and to couple a second grouping of the plurality of second conductive contacts associated with the first die site with a second grouping of the plurality of second conductive contacts associated with the second die site, wherein the conductive interconnects to couple the first groupings are present in a layer of the substrate above the conductive interconnects to couple the second groupings. Other embodiments are also disclosed and claimed.

An integrated circuit (IC) chip comprises a plurality of pads and a plurality of bumps. The plurality of pads includes a first pad. The plurality of bumps is disposed on the plurality of pads. The plurality of bumps includes a first bump disposed on the first pad. The first bump as a width that is different than an exposed with of the first pad. The center of the first bump is not aligned with a center of the first pad.