Semiconductor die assemblies and methods of forming the same are described herein. As an example, a semiconductor die assembly may include a thermally conductive casing, a first face of a logic die coupled to the thermally conductive casing to form a thermal path that transfers heat away from the logic die to the thermally conductive casing, a substrate coupled to a second face of the logic die, and a die embedded at least partially in a cavity of the substrate.

A silicon interposer includes a substrate having a frontside surface and a backside surface, a first redistribution layer (RDL) structure disposed on the frontside surface, a plurality of first connecting elements disposed on the first RDL structure, a second RDL structure disposed on the backside surface, a plurality of second connecting elements disposed on the second RDL structure, and a plurality of through silicon vias in the substrate to electrically connect the first RDL structure to the second RDL structure. The first connecting elements have a first pitch. The second connecting elements have a second pitch. The second pitch is greater than the first pitch.

An integrated circuit (IC) package includes a first substrate having a backside surface and a top surface with a cavity disposed therein. The cavity has a floor defining a front side surface. A plurality of first electroconductive contacts are disposed on the front side surface, and a plurality of second electroconductive contacts are disposed on the back side surface. A plurality of first electroconductive elements penetrate through the first substrate and couple selected ones of the first and second electroconductive contacts to each other. A first die containing an IC is electroconductively coupled to corresponding ones of the first electroconductive contacts. A second substrate has a bottom surface that is sealingly attached to the top surface of the first substrate, and a dielectric material is disposed in the cavity so as to encapsulate the first die.

A device and method of forming the device that includes cavities formed in a substrate of a substrate device, the substrate device also including conductive vias formed in the substrate. Chip devices, wafers, and other substrate devices can be mounted to the substrate device. Encapsulation layers and materials may be formed over the substrate device in order to fill the cavities.

A chip package may include: a first die; at least one second die disposed over the first die; and a lid disposed over lateral portions of the first die and at least partially surrounding the at least one second die, the lid having inclined sidewalls spaced apart from and facing the at least one second die.

A device includes a substrate with a die over the substrate. A molding compound surrounds the die and includes a structural interface formed along a peripheral region of the molding compound.

The interposer-chip-arrangement comprises an interposer (1), metal layers arranged above a main surface (10), a further metal layer arranged above a further main surface (11) opposite the main surface, an electrically conductive interconnection (7) through the interposer, the interconnection connecting one of the metal layers and the further metal layer, a chip (12) arranged at the main surface or at the further main surface, the chip having a contact pad (15), which is electrically conductively connected with the interconnection, a dielectric layer (2) arranged above the main surface with the metal layers embedded in the dielectric layer, a further dielectric layer (3) arranged above the further main surface with the further metal layer embedded in the further dielectric layer, and an integrated circuit (25) in the interposer, the integrated circuit being connected with at least one of the metal layers (5).

A semiconductor device has a first build-up interconnect structure formed over a substrate. The first build-up interconnect structure includes an insulating layer and conductive layer formed over the insulating layer. A vertical interconnect structure and semiconductor die are disposed over the first build-up interconnect structure. The semiconductor die, first build-up interconnect structure, and substrate are disposed over a carrier. An encapsulant is deposited over the semiconductor die, first build-up interconnect structure, and substrate. A second build-up interconnect structure is formed over the encapsulant. The second build-up interconnect structure electrically connects to the first build-up interconnect structure through the vertical interconnect structure. The substrate provides structural support and prevents warpage during formation of the first and second build-up interconnect structures. The substrate is removed after forming the second build-up interconnect structure. A portion of the insulating layer is removed exposing the conductive layer for electrical interconnect with subsequently stacked semiconductor devices.

A three-dimensional flash memory system is disclosed. The system comprises a memory array comprising a plurality of stacked dies, where each die comprises memory cells. The system further comprises a plurality of pins, where the function of at least some of the pins can be configured using a mechanism that selects a function for those pins from a plurality of possible functions.

A microelectronic wireless transmission device including: a substrate able to be traversed by radio waves intended to be emitted by the device, an antenna, an electrical power supply, an integrated circuit, electrically connected to the antenna and to the electrical power supply, and able to transmit to the antenna electrical signals intended to be emitted by the antenna in the form of the said radio waves, a cap rigidly connected to the substrate and forming, with the substrate, at least one cavity in which the antenna and the integrated circuit are positioned, where the cap comprises an electrically conductive material connected electrically to an electrical potential of the electrical power supply and/or of the integrated circuit, and able to form a reflector with regard to the radio waves intended to be emitted by the antenna.