Embodiments of the invention include molded modules and methods for forming molded modules. According to an embodiment the molded modules may be integrated into an electrical package. Electrical packages according to embodiments of the invention may include a die with a redistribution layer formed on at least one surface. The molded module may be mounted to the die. According to an embodiment, the molded module may include a mold layer and a plurality of components encapsulated within the mold layer. Terminals from each of the components may be substantially coplanar with a surface of the mold layer in order to allow the terminals to be electrically coupled to the redistribution layer on the die. Additional embodiments of the invention may include one or more through mold vias formed in the mold layer to provide power delivery and/or one or more faraday cages around components.

Embodiments are generally directed to package stacking using chip to wafer bonding. An embodiment of a device includes a first stacked layer including one or more semiconductor dies, components or both, the first stacked layer further including a first dielectric layer, the first stacked layer being thinned to a first thickness; and a second stacked layer of one or more semiconductor dies, components, or both, the second stacked layer further including a second dielectric layer, the second stacked layer being fabricated on the first stacked layer.

A semiconductor device package comprises a semiconductor device, a first encapsulant surrounding the semiconductor device, a second encapsulant covering the semiconductor device and the first encapsulant, and a redistribution layer extending through the second encapsulant and electrically connected to the semiconductor device.

Semiconductor package includes a pair of dies, a redistribution structure, and a conductive plate. Each die includes a contact pad. Redistribution structure is disposed on the pair of dies, and electrically connects the pair of dies. Redistribution structure includes an innermost dielectric layer, an outermost dielectric layer, and a redistribution conductive layer. Innermost dielectric layer is closer to the pair of dies. Redistribution conductive layer extends between the innermost dielectric layer and the outermost dielectric layer. Outermost dielectric layer is furthest from the pair of dies. Conductive plate is electrically connected to the contact pads of the pair of dies. Conductive plate extends over the outermost dielectric layer of the redistribution structure and over the pair of dies. Vertical projection of the conductive plate falls on spans of the dies of the pair of dies.

A package structure is provided, which includes a redistribution structure, an interposer substrate disposed over the redistribution structure, a first semiconductor die disposed between the redistribution structure and the interposer substrate, a second semiconductor die partially overlapping the first semiconductor die in a direction perpendicular to a surface of the redistribution structure, and a first protective layer surrounding the first semiconductor die.

A structure including stacked substrates, a first semiconductor die, a second semiconductor die, and an insulating encapsulation is provided. The first semiconductor die is disposed over the stacked substrates. The second semiconductor die is stacked over the first semiconductor die. The insulating encapsulation includes a first encapsulation portion encapsulating the first semiconductor die and a second encapsulation portion encapsulating the second semiconductor die.

A package structure includes a first dielectric layer disposed on a first patterned circuit layer, a first conductive via in the first dielectric layer and electrically connected to the first patterned circuit layer, a circuit layer on the first dielectric layer, a second dielectric layer on the first dielectric layer and covering the circuit layer, a second patterned circuit layer on the second dielectric layer and including conductive features, a chip on the conductive features, and a molding layer disposed on the second dielectric layer and encapsulating the chip. The circuit layer includes a plurality of portions separated from each other and including a first portion and a second portion. The number of pads corresponding to the first portion is different from that of pads corresponding to the second portion. An orthographic projection of each portion overlaps orthographic projections of at least two of the conductive features.

A semiconductor package includes a redistribution layer including, a first insulating layer including a first trench, a first conductive layer including a first conductive region extending along a top surface of the first insulating layer and a second conductive region disposed inside the first trench, a second insulating layer on the first conductive layer and the first insulating layer, the second insulating layer including a second trench at least partially overlapping the first trench, the second trench exposing a part of the first conductive region and a second conductive layer including a third conductive region extending along a top surface of the second insulating layer and a fourth conductive region disposed on the second conductive region inside a via trench including sidewalls of the first trench and the second trench, and wherein the second and fourth conductive regions have a width in a range of 20 m to 600 m.

A package structure including a semiconductor die, a redistribution layer, a plurality of antenna patterns, a die attach film, and an insulating encapsulant is provided. The semiconductor die have an active surface and a backside surface opposite to the active surface. The redistribution layer is located on the active surface of the semiconductor die and electrically connected to the semiconductor die. The antenna patterns are located over the backside surface of the semiconductor die. The die attach film is located in between the semiconductor die and the antenna patterns, wherein the die attach film includes a plurality of fillers, and an average height of the die attach film is substantially equal to an average diameter of the plurality of fillers. The insulating encapsulant is located in between the redistribution layer and the antenna patterns, wherein the insulating encapsulant encapsulates the semiconductor die and the die attach film.

A packaging structure and a formation method thereof are provided. The packaging structure includes a carrier board, and a plurality of semiconductor chips adhered to the carrier board. Each semiconductor chip has a functional surface and a non-functional surface opposite to the functional surface, and a plurality of pads are formed on the functional surface of a semiconductor chip of the plurality of chips. A metal bump is formed on a surface of a pad of the plurality of pads, and a first encapsulation layer is formed on the functional surface. The packaging structure also includes a second encapsulation layer formed over the carrier board.