A semiconductor device and a method of manufacturing a semiconductor device. For example, various aspects of this disclosure provide a semiconductor device having an ultra-thin substrate, and a method of manufacturing a semiconductor device having an ultra-thin substrate. As a non-limiting example, a substrate structure comprising a carrier, an adhesive layer formed on the carrier, and an ultra-thin substrate formed on the adhesive layer may be received and/or formed, components may then be mounted to the ultra-thin substrate and encapsulated, and the carrier and adhesive layer may then be removed.

A fingerprint sensor device and a method of making a fingerprint sensor device. As non-limiting examples, various aspects of this disclosure provide various fingerprint sensor devices, and methods of manufacturing thereof, that comprise a sensing area on a bottom side of a die without top side electrodes that senses fingerprints from the top side, and/or that comprise a sensor die directly electrically connected to conductive elements of a plate through which fingerprints are sensed.

A fingerprint sensor device and a method of making a fingerprint sensor device. As non-limiting examples, various aspects of this disclosure provide various fingerprint sensor devices, and methods of manufacturing thereof, that comprise a sensing area on a bottom side of a die without top side electrodes that senses fingerprints from the top side, and/or that comprise a sensor die directly electrically connected to conductive elements of a plate through which fingerprints are sensed.

A stacked integrated circuit (IC) system including a substrate, a contour support, and a first and second IC dies. The contour support including a first support frame attached to the substrate defining a first lateral contact surface substantially orthogonal to the substrate, a support plate on the first support frame substantially parallel to the substrate, and a second support frame on the support plate defining a second lateral contact surface substantially orthogonal to the substrate, with the first and second lateral contact surfaces laterally offset from each other. The first integrated circuit die with a side abutting the first lateral contact surface, the second integrated circuit die with a side abutting the second lateral contact surface such that at least a portion of the support plate is between the first and second integrated circuit dies.

A stacked integrated circuit (IC) system including a substrate, a contour support, and a first and second IC dies. The contour support including a first support frame attached to the substrate defining a first lateral contact surface substantially orthogonal to the substrate, a support plate on the first support frame substantially parallel to the substrate, and a second support frame on the support plate defining a second lateral contact surface substantially orthogonal to the substrate, with the first and second lateral contact surfaces laterally offset from each other. The first integrated circuit die with a side abutting the first lateral contact surface, the second integrated circuit die with a side abutting the second lateral contact surface such that at least a portion of the support plate is between the first and second integrated circuit dies.

A semiconductor package includes a lower semiconductor chip having a first surface and a second surface, an upper semiconductor chip on the first surface, a first insulating layer between the first surface and the upper semiconductor chip, a second insulating layer between the first insulating layer and the upper semiconductor chip, and a connection structure penetrating the first insulating layer and the second insulating layer and being connected to the lower semiconductor chip and the upper semiconductor chip. The connection structure includes a first connecting portion and a second connecting portion, which are respectively disposed in the first insulating layer and the second insulating layer. A width of the second connecting portion is greater than a width of the first connecting portion. A thickness of the second connecting portion is greater than a thickness of the first connecting portion.

A semiconductor package includes a lower semiconductor chip having a first surface and a second surface, an upper semiconductor chip on the first surface, a first insulating layer between the first surface and the upper semiconductor chip, a second insulating layer between the first insulating layer and the upper semiconductor chip, and a connection structure penetrating the first insulating layer and the second insulating layer and being connected to the lower semiconductor chip and the upper semiconductor chip. The connection structure includes a first connecting portion and a second connecting portion, which are respectively disposed in the first insulating layer and the second insulating layer. A width of the second connecting portion is greater than a width of the first connecting portion. A thickness of the second connecting portion is greater than a thickness of the first connecting portion.

A method of manufacturing a semiconductor structure forming a redistribution layer (RDL); forming a conductive pad over the RDL; performing a first electrical test through the conductive pad; bonding a first die over the RDL by a connector; disposing a first underfill material to surround the connector; performing a second electrical test through the conductive pad; disposing a second die over the first die and the conductive pad; and disposing a second underfill material to surround the second die, wherein the conductive pad is at least partially in contact with the second underfill material, and is protruded from the RDL during the first electrical test and the second electrical test.

A method of manufacturing a semiconductor structure forming a redistribution layer (RDL); forming a conductive pad over the RDL; performing a first electrical test through the conductive pad; bonding a first die over the RDL by a connector; disposing a first underfill material to surround the connector; performing a second electrical test through the conductive pad; disposing a second die over the first die and the conductive pad; and disposing a second underfill material to surround the second die, wherein the conductive pad is at least partially in contact with the second underfill material, and is protruded from the RDL during the first electrical test and the second electrical test.

Disclosed are redistribution substrates and semiconductor packages including the same. For example, a redistribution substrate including a dielectric pattern, and a first redistribution pattern in the dielectric pattern is provided. The first redistribution pattern may include: a first via part having a first via seed pattern and a first via conductive pattern on the first via seed pattern, and a first wiring part having a first wiring seed pattern and a first wiring conductive pattern, the first wiring part being disposed on the first via part and having a horizontal width that is different from a horizontal width of the first via part. Additionally, the first wiring seed pattern may cover a bottom surface and a sidewall surface of the first wiring conductive pattern, and the first via conductive pattern is directly connected to the first wiring conductive pattern.