A package structure and a method of manufacturing the same are provided. The package structure includes a die, a RDL structure, an encapsulant and a conductive terminal. The die is on a redistribution layer (RDL) structure. The RDL structure comprises a polymer layer and a RDL in the polymer layer. The encapsulant is on the RDL structure and laterally aside the die. The encapsulant comprises a body part and an extending part underlying the body part. The conductive terminal is electrically connected to the RDL structure and the die. The body part of the encapsulant encapsulates sidewalls of the die. The extending part of the encapsulant extends into the polymer layer.

Semiconductor packages and methods of forming the same are provided. One of the semiconductor package includes a first die, a dummy die, a first redistribution layer structure, an insulating layer and an insulating layer. The dummy die is disposed aside the first die. The first redistribution layer structure is electrically connected to the first die and having connectors thereover. The insulating layer is disposed over the first die and the dummy die and opposite to the first redistribution layer structure. The insulating layer penetrates through the insulating layer.

A microelectronic device is formed to include an embedded die substrate on an interposer; where the embedded die substrate is formed with no more than a single layer of transverse routing traces. In the device, all additional routing may be allocated to the interposer to which the embedded die substrate is attached. The embedded die substrate may be formed with a planarized dielectric formed over an initial metallization layer supporting the embedded die.

A package includes a corner, a device die, a molding material molding the device die therein, and a plurality of bonding features. The plurality of bonding features includes a corner bonding feature at the corner, wherein the corner bonding feature is elongated. The plurality of bonding features further includes an additional bonding feature, which is non-elongated.

Reliability of a semiconductor device is improved. A first pad electrode is formed in an uppermost layer of a multilayer wiring layer, an insulating film of a non-organic material is formed over the first pad electrode, and an organic insulating film is formed over the insulating film. In the organic insulating film, an opening reaching the first pad electrode and a groove reaching the insulating film are formed. Over the organic insulating film, a plurality of re-wirings each having a barrier metal film and a conductive film are formed. In a plan view, the groove is formed in an area between the re-wirings. At the same time, a width of the groove is smaller than a width of a first portion or a width of a second portion of the re-wirings, respectively, neighboring to each other and extending in a first direction.

A package structure includes a first redistribution circuit structure, a second redistribution circuit structure, a semiconductor die, a waveguide structure, and an antenna. The semiconductor die is sandwiched between and electrically coupled to the first redistribution circuit structure and the second redistribution circuit structure. The waveguide structure is located aside and electrically coupled to the semiconductor die, wherein the waveguide structure includes a part of the first redistribution circuit structure, a part of the second redistribution circuit structure and a plurality of first through vias each connecting to the part of the first redistribution circuit structure and the part of the second redistribution circuit structure. The antenna is located on the semiconductor die, wherein the second redistribution circuit structure is sandwiched between the antenna and the semiconductor die, and the antenna is electrically communicated with the semiconductor die through the waveguide structure.

A package includes a corner, a device die, a molding material molding the device die therein, and a plurality of bonding features. The plurality of bonding features includes a corner bonding feature at the corner, wherein the corner bonding feature is elongated. The plurality of bonding features further includes an additional bonding feature, which is non-elongated.

A microelectronic device is formed to include an embedded die substrate on an interposer; where the embedded die substrate is formed with no more than a single layer of transverse routing traces. In the device, all additional routing may be allocated to the interposer to which the embedded die substrate is attached. The embedded die substrate may be formed with a planarized dielectric formed over an initial metallization layer supporting the embedded die.

A semiconductor package includes an upper redistribution structure, a first substrate, a first semiconductor chip, a second semiconductor chip, a bridge chip, and a first insulating layer. The upper redistribution structure includes an upper redistribution insulating layer and upper redistribution patterns. The first substrate includes an upper surface, a lower surface, a first cavity extending in a vertical direction, and a second cavity provided apart from the first cavity in a horizontal direction and extending in the vertical direction. The first substrate is on an upper surface of the upper redistribution structure. The first semiconductor chip is accommodated in the first cavity and electrically connected to a subset of the upper redistribution patterns. The second semiconductor chip is accommodated in the second cavity and electrically connected to a subset of the upper redistribution patterns. The bridge chip is below the upper redistribution structure. The first insulating layer surrounds the bridge chip.

A microelectronic device is formed to include an embedded die substrate on an interposer; where the embedded die substrate is formed with no more than a single layer of transverse routing traces. In the device, all additional routing may be allocated to the interposer to which the embedded die substrate is attached. The embedded die substrate may be formed with a planarized dielectric formed over an initial metallization layer supporting the embedded die.