Microelectronic assemblies, related devices and methods, are disclosed herein. In some embodiments, a microelectronic assembly may include a glass substrate having a plurality of conductive through-glass vias (TGV); a magnetic core inductor including: a first conductive TGV at least partially surrounded by a magnetic material; and a second conductive TGV electrically coupled to the first TGV; a first die in a first dielectric layer, wherein the first dielectric layer is on the glass substrate; and a second die in a second dielectric layer, wherein the second dielectric layer is on the first dielectric layer, and wherein the second die is electrically coupled to the magnetic core inductor.

A semiconductor package includes a first redistribution structure, including a first insulating layer and a first redistribution layer disposed below the first insulating layer; a semiconductor chip disposed on the first redistribution structure, including a connection terminal electrically connected to the first redistribution layer and buried in the first insulating layer; an encapsulant disposed on the first redistribution structure that seals a portion of the semiconductor chip; a second redistribution structure, including a second redistribution layer disposed on the encapsulant; and a through via, including a pattern portion buried in the first insulating layer and electrically connected to the first redistribution layer and a via portion penetrating through the encapsulant and electrically connecting the pattern portion and the second redistribution layer. The connection terminal and the pattern portion are located at a first level and are electrically connected to each other at a second level lower than the first level.

A method includes forming a set of through-vias in a substrate, the set of through-vias partially penetrating a thickness of the substrate. First connectors are formed over the set of through-vias on a first side of the substrate. The first side of the substrate is attached to a carrier. The substrate is thinned from the second side to expose the set of through-vias. Second connectors are formed over the set of through-vias on the second side of the substrate. A device die is bonded to the second connectors. The substrate is singulated into multiple packages.

An apparatus including a circuit structure including a device stratum; one or more electrically conductive interconnect levels on a first side of the device stratum and coupled to ones of the transistor devices; and a substrate including an electrically conductive through silicon via coupled to the one or more electrically conductive interconnect levels so that the one or more interconnect levels are between the through silicon via and the device stratum. A method including forming a plurality of transistor devices on a substrate, the plurality of transistor devices defining a device stratum; forming one or more interconnect levels on a first side of the device stratum; removing a portion of the substrate; and coupling a through silicon via to the one or more interconnect levels such that the one or more interconnect levels is disposed between the device stratum and the through silicon via.

A semiconductor package includes: a wiring structure including at least one wiring layer; a semiconductor chip disposed on the wiring structure and connected to the wiring structure; a connecting terminal formed on a first surface of the wiring structure; a support member spaced apart from the wiring structure; a dummy connecting terminal formed on a first surface of the support member; and a mold layer covering a side surface of the wiring structure, a first surface of the semiconductor chip, and a second surface and a side surface of the support member.

A package structure includes a core substrate including a substrate base including a plurality of first cavities and a plurality of second cavities, a plurality of blocks in the plurality of second cavities; and a plurality of bridge structures that extend between each of the plurality of blocks and the substrate base, a plurality of semiconductor chips in the plurality of first cavities, and a molding layer configured to cover the core substrate and the plurality of semiconductor chips, a portion of the molding layer being in the plurality of first cavities and the plurality of second cavities.

A package structure and a method of forming the same are provided. The package structure includes a package substrate, an interposer substrate, a first semiconductor device, and a second semiconductor device. The interposer substrate is disposed over the package substrate and includes a silicon substrate. The interposer substrate has a bottom surface facing and adjacent to the package substrate, a top surface opposite the bottom surface, and a cavity formed on the top surface. The first semiconductor device is disposed on the top surface of the interposer substrate. The second semiconductor device is received in the cavity and electrically connected to the first semiconductor device and/or the interposer substrate.

A semiconductor device includes a first redistribution substrate, a semiconductor chip on a top surface of the first redistribution substrate, a conductive structure on the top surface of the first redistribution substrate and laterally spaced apart from the semiconductor chip, and a molding layer on the first redistribution substrate and covering a sidewall of the semiconductor chip and a sidewall of the conductive structure. The conductive structure includes a first conductive structure having a first sidewall, and a second conductive structure on a top surface of the first conductive structure and having a second sidewall. The first conductive structure has an undercut at a lower portion of the first sidewall. The second conductive structure has a protrusion at a lower portion of the second sidewall.

A semiconductor package and manufacturing method is disclosed. The semiconductor package includes a semiconductor chip having a plurality of chip terminals formed on one surface thereof, a redistribution layer electrically connected to the chip terminal and extending outwardly from a side surface of the chip to electrically connect the chip terminal to an external device, an external pad provided on the insulating layer, formed to be in contact with the redistribution layer exposed from the insulating layer to be electrically connected to the redistribution layer, and exposed to an upper side of the insulating layer; an external connection terminal formed on the external pad and contacting an external device, a protective layer formed to surround at least one surface and a side surface of the chip, and an insulating layer formed to cover the redistribution layer.

Disclosed is a semiconductor package comprising a package substrate, an interposer substrate on the package substrate and including a first redistribution substrate, a second redistribution substrate on a bottom surface of the first redistribution substrate, and an interposer molding layer between the first redistribution substrate and the second redistribution substrate, a connection substrate on the interposer substrate and having a connection hole that penetrates the connection substrate, a first semiconductor chip on the interposer substrate and in the connection hole, a second semiconductor chip on the interposer substrate, in the connection hole and horizontally spaced apart from the first semiconductor chip, and a connection semiconductor chip in the interposer molding layer and on the bottom surface of the first redistribution substrate.