An apparatus is provided which comprises: a plurality of dielectric layers forming a substrate, a plurality of first conductive contacts on a first surface of the substrate, a cavity in the first surface of the substrate defining a second surface parallel to the first surface, a plurality of second conductive contacts on the second surface of the substrate, one or more integrated circuit die(s) coupled with the second conductive contacts, and mold material at least partially covering the one or more integrated circuit die(s) and the first conductive contacts. Other embodiments are also disclosed and claimed.

A semiconductor package device includes a first semiconductor package, a second semiconductor package, and first connection terminals between the first and second semiconductor packages. The first semiconductor package includes a lower redistribution substrate, a semiconductor chip, and an upper redistribution substrate vertically spaced apart from the lower redistribution substrate across the semiconductor chip. The upper redistribution substrate includes a dielectric layer, redistribution patterns vertically stacked in the dielectric layer and each including line and via parts, and bonding pads on uppermost redistribution patterns. The bonding pads are exposed from the dielectric layer and in contact with the first connection terminals. A diameter of each bonding pad decreases in a first direction from a central portion at a top surface of the upper redistribution substrate to an outer portion at the top surface thereof. A thickness of each bonding pad increases in the first direction.

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.

A semiconductor package assembly and a manufacturing method are provided. The semiconductor package assembly includes: a base plate having a first surface; a first chip structure located on the base plate and electrically connected to the first surface of the base plate; an intermediary layer having a first interconnection surface; and a molding compound. The first interconnection surface has a first and second interconnection regions. A first solder ball is formed on the first interconnection region. A first pad is formed on the second interconnection region. The intermediary layer is electrically connected to the first surface by means of the first pad. The molding compound seals the first chip structure, the intermediary layer and the first surface. The first solder ball has a surface exposed from the molding compound. There is a preset height between the exposed surface of the first solder ball and the first interconnection surface.

A semiconductor package including: a first substrate and a semiconductor device on the first substrate, wherein the first substrate includes: a first dielectric layer including a first hole; a second dielectric layer on the first dielectric layer and including a second hole that overlaps the first hole, the second hole being wider than the first hole; an under bump disposed in the first hole and the second hole, the under bump covering a portion of the second dielectric layer; and a connection member bonded to the under bump.

A semiconductor package includes a first base plate, first semiconductor structure, second base plate and filling layer. The first base plate has a first surface including first and second signal transmission regions. The first semiconductor structure located on the first surface is electrically connected to the first signal transmission region. The second base plate located on the first base plate includes a base and a first interconnection surface. The first interconnection surface is away from the first surface. The first interconnection surface has first and second interconnection regions communicated with each other. The first interconnection region is electrically connected to the second signal transmission region. The filling layer seals the first semiconductor structure, second base plate and first surface. The first interconnection region is not sealed, and the second interconnection region is. There is a preset height between a top surface of the filling layer and the first interconnection region.

A semiconductor package includes a substrate including an upper pad at a top surface of the substrate, a semiconductor chip on the substrate and including a chip pad at a top surface of the semiconductor chip, a connecting structure on the semiconductor chip and including a connecting pad at a top surface of the connecting structure and electrically connected to the upper pad, an encapsulant covering the substrate, the semiconductor chip, and the connecting structure, and a test terminal on the connecting structure and extending through the encapsulant. The connecting structure electrically interconnects the semiconductor chip and the test terminal.

Multiple component package structures are described in which an interposer chiplet is integrated to provide fine routing between components. In an embodiment, the interposer chiplet and a plurality of conductive vias are encapsulated in an encapsulation layer. A first plurality of terminals of the first and second components may be in electrical connection with the plurality of conductive pillars and a second plurality of terminals of first and second components may be in electrical connection with the interposer chiplet.

An electronic package is provided, in which an electronic element is disposed on an upper side of a circuit structure, a package layer covers the electronic element, and an action structure is embedded in the package layer, so that the action structure is exposed from a surface of the package layer, and then a bonding element is disposed on a lower side of the circuit structure and corresponding to the position of the action structure, so as to form a thermal conduction between the bonding element and the action structure. Therefore, a laser can transfer heat energy to the bonding element via the action structure, so that a solder material on the bonding element can be reflowed.

A stackable via package includes a substrate having an upper surface and a trace on the upper surface, the trace including a terminal. A solder ball is on the terminal. The solder ball has a solder ball diameter A and a solder ball height D. A via aperture is formed in a package body enclosing the solder ball to expose the solder ball. The via aperture includes a via bottom having a via bottom diameter B and a via bottom height C from the upper surface of the substrate, where A<B and 0=<C<1/2×D. The shape of the via aperture prevents solder deformation of the solder column formed from the solder ball as well as prevents solder bridging between adjacent solder columns.