Microelectronic devices and methods for manufacturing such devices are disclosed herein. In one embodiment, a packaged microelectronic device can include an interposer substrate with a plurality of interposer contacts. A microelectronic die is attached and electrically coupled to the interposer substrate. The device further includes a casing covering the die and at least a portion of the interposer substrate. A plurality of electrically conductive through-casing interconnects are in contact with and projecting from corresponding interposer contacts at a first side of the interposer substrate. The through-casing interconnects extend through the thickness of the casing to a terminus at the top of the casing. The through-casing interconnects comprise a plurality of filaments attached to and projecting away from the interposer contacts in a direction generally normal to the first side of the interposer substrate.

A packaged semiconductor structure includes an interconnect layer and a first microelectronic device on a first major surface of the interconnect layer. The structure also includes a substrate having a cavity, wherein the cavity is defined by a vertical portion and a horizontal portion, wherein the vertical portion surrounds the first device, the horizontal portion is over the first device, and the first device is between the horizontal portion and the first major surface of the interconnect layer such that the first device is in the cavity. The structure further includes a second microelectronic device attached to the horizontal portion of the substrate, and encapsulant on the interconnect layer and surrounding the first device, the substrate, and the second device, such that the substrate is embedded in the encapsulant.

Apparatus and methods are provided for integrated circuit packages having a low z-height. In an example, a method can include mounting a first integrated circuit sub-package to a first package substrate wherein the sub-package substrate spans an opening of the first package substrate, mounting a second integrated circuit package to a second package substrate, and mounting the first package substrate with the second package substrate wherein the mounting includes locating a portion of the second integrated circuit package within the opening of the first package substrate.

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 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.

Semiconductor packages and package assemblies having active dies and external die mounts on a silicon wafer, and methods of fabricating such semiconductor packages and package assemblies, are described. In an example, a semiconductor package assembly includes a semiconductor package having an active die attached to a silicon wafer by a first solder bump. A second solder bump is on the silicon wafer laterally outward from the active die to provide a mount for an external die. An epoxy layer may surround the active die and cover the silicon wafer. A hole may extend through the epoxy layer above the second solder bump to expose the second solder bump through the hole. Accordingly, an external memory die can be connected directly to the second solder bump on the silicon wafer through the hole.

A semiconductor package includes a first substrate including a first recess formed in a top surface of the first substrate, a first semiconductor chip disposed in the first recess and mounted on the first substrate, an interposer substrate disposed on the first semiconductor chip and including a second recess formed in a bottom surface of the interposer substrate, an adhesive layer disposed in the second recess and in contact with a top surface of the first semiconductor chip, a plurality of connection terminals spaced apart from the first recess and connecting the first substrate to the interposer substrate, and a molding layer disposed between the first substrate and the interposer substrate.

Apparatuses relating to a microelectronic package are disclosed. In one such apparatus, a substrate has first contacts on an upper surface thereof. A microelectronic die has a lower surface facing the upper surface of the substrate and having second contacts on an upper surface of the microelectronic die. Wire bonds have bases joined to the first contacts and have edge surfaces between the bases and corresponding end surfaces. A first portion of the wire bonds are interconnected between a first portion of the first contacts and the second contacts. The end surfaces of a second portion of the wire bonds are above the upper surface of the microelectronic die. A dielectric layer is above the upper surface of the substrate and between the wire bonds. The second portion of the wire bonds have uppermost portions thereof bent over to be parallel with an upper surface of the dielectric layer.