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.

Embodiments described herein generally relate to phased array antenna systems or packages and techniques of making and using the systems and packages. A phased array antenna package may include a distributed phased array antenna comprising (1) a plurality of antenna sub-arrays, which may each include a plurality of antennas, (2) a plurality of Radio Frequency Dies (RFDs), each of the RFDs located proximate and electrically coupled by a trace of a plurality of traces to a corresponding antenna sub-array of the plurality of antenna sub-arrays, and (3) wherein each trace of the plurality of traces configured to electrically couple an antenna of the plurality of antennas to the RFD located proximate the antenna, wherein each trace of the plurality of traces is configured to transmit millimeter wave (mm-wave) radio signals, and wherein the plurality of traces are each of a substantially uniform length.

A method of forming a chip assembly may include forming a plurality of cavities in a carrier; The method may further include arranging a die attach liquid in each of the cavities; arranging a plurality of chips on the die attach liquid, each chip comprising a rear side metallization and a rear side interconnect material disposed over the rear side metallization, wherein the rear side interconnect material faces the carrier; evaporating the die attach liquid; and after the evaporating the die attach liquid, fixing the plurality of chips to the carrier.

A method of forming a chip assembly may include forming a plurality of cavities in a carrier; The method may further include arranging a die attach liquid in each of the cavities; arranging a plurality of chips on the die attach liquid, each chip comprising a rear side metallization and a rear side interconnect material disposed over the rear side metallization, wherein the rear side interconnect material faces the carrier; evaporating the die attach liquid; and after the evaporating the die attach liquid, fixing the plurality of chips to the carrier.

An antenna apparatus includes: a feed line; a first ground layer including surface disposed above or below the feed line and spaced apart from the feed line; and an antenna pattern electrically connected to an end of the feed line and configured to transmit and/or receive a radio frequency (RF) signal, wherein the first ground layer includes a first protruding region protruding in a first longitudinal direction of the surface toward the antenna pattern and at least partially overlapping the feed line above or below the feed line, and second and third protruding regions protruding in the first longitudinal direction from positions spaced apart from the first protruding region in opposite lateral directions of the surface.

Microelectronic assemblies, and related devices and methods, are disclosed herein. For example, in some embodiments, a microelectronic assembly may include a package substrate having a first surface and an opposing second surface; and a die embedded in the package substrate, wherein the die has a first surface and an opposing second surface, the die has first conductive contacts at the first surface and second conductive contacts at the second surface, and the first conductive contacts and the second conductive contacts are electrically coupled to conductive pathways in the package substrate.

Disclosed herein are antenna boards, integrated circuit (IC) packages, antenna modules, and communication devices. For example, in some embodiments, an antenna module may include: an IC package having a die and a package substrate, and the package substrate has a recess therein; and an antenna patch, coupled to the package substrate, such that the antenna patch is over or at least partially in the recess.

Disclosed is an apparatus including a molded multi-die high density interconnect including: a bridge die having a first plurality of interconnects and second plurality of interconnects. The apparatus also includes a first die having a first plurality of contacts and a second plurality of contacts, where the second plurality of contacts is coupled to the first plurality of interconnects of the bridge die. The apparatus also includes a second die having a first plurality of contacts and a second plurality of contacts, where the second plurality of contacts is coupled to the second plurality of interconnects of the bridge die. The coupled second plurality of contacts and interconnects have a smaller height than the first plurality of contacts of the first die and second die.

A micro-device structure includes a substrate having a substrate surface and a substrate contact disposed on or in the substrate surface, a cavity extending into the substrate from the substrate surface, a micro-device disposed in the cavity, the micro-device comprising a micro-device contact, a planarization layer disposed over at least a portion of the substrate, and an electrode disposed at least partially over or on the planarization layer and electrically connected to the micro-device contact.

Embodiments of the present disclosure provide a semiconductor package. In one embodiment, the semiconductor package includes a first integrated circuit die having a first circuit design, and the first integrated circuit die comprises a first device layer and a first interconnect structure. The semiconductor package also includes a second integrated circuit die having a second circuit design different than the first circuit design, and the second integrated circuit die comprises a second device layer and a second interconnect structure having a first side in contact with the first device layer and a second side in direct contact with the first interconnect structure of the first integrated circuit die. The semiconductor package further includes a substrate having a first side bonded to the first interconnect structure, wherein the second integrated circuit die is surrounded by at least a portion of the substrate.