An SIP module includes a plurality of electrical components mounted to an interconnect substrate. The electrical components and interconnect substrate are covered by an encapsulant. A conductive post is formed through the encapsulant. A plurality of openings is formed in the encapsulant by laser in a form of a circuit pattern. A conductive material is deposited over a surface of the encapsulant and into the openings to form an electrical circuit pattern. A portion of the conductive material is removed by a grinder to expose the electrical circuit pattern. The grinding operation planarizes the surface of the encapsulant and the electrical circuit pattern. The electrical circuit pattern can be a trace, contact pad, RDL, or other interconnect structure. The electrical circuit pattern can also be a shielding layer or antenna. An electrical component is disposed over the SIP module and electrical circuit pattern.

A semiconductor device has a first package layer. A first shielding layer is formed over the first package layer. The first shielding layer is patterned to form a redistribution layer. An electrical component is disposed over the redistribution layer. An encapsulant is deposited over the electrical component. A second shielding layer is formed over the encapsulant. The second shielding layer is patterned. The patterning of the first shielding layer and second shielding layer can be done with a laser. The second shielding layer can be patterned to form an antenna.

A semiconductor package including: a redistribution layer including redistribution line patterns, redistribution vias connected to the redistribution line patterns, and a redistribution insulating layer surrounding the redistribution line patterns and the redistribution vias; semiconductor chips including at least one upper semiconductor chip disposed on a lowermost semiconductor chip of the semiconductor chips, wherein the at least one upper semiconductor chip is thicker than the lowermost semiconductor chip; bonding wires each having a first end and a second end, wherein the bonding wires connect the semiconductor chips to the redistribution layer, wherein the first end of each of the bonding wires is connected to a respective chip pad of the semiconductor chips and the second end of each of the bonding wires is connected to a respective one of the redistribution line patterns; and a molding member surrounding, on the redistribution layer, the semiconductor chips and the bonding wires.

A semiconductor device includes an integrated circuit, first conductive features, second conductive features, a package structure, and an encapsulant. The integrated circuit has an active surface and a rear surface opposite to the active surface. The first conductive features surround the integrated circuit. The second conductive features are stacked on the first conductive features. The package structure is disposed on the second conductive features and the rear surface of the integrated circuit. The encapsulant laterally encapsulates the integrated circuit, the first conductive features, the second conductive features, and the package structure.

In one example, a semiconductor device can comprise a substrate, a device stack, first and second internal interconnects, and an encapsulant. The substrate can comprise a first and second substrate sides opposite each other, a substrate outer sidewall between the first substrate side and the second substrate side, and a substrate inner sidewall defining a cavity between the first substrate side and the second substrate side. The device stack can be in the cavity and can comprise a first electronic device, and a second electronic device stacked on the first electronic device. The first internal interconnect can be coupled to the substrate and the device stack. The encapsulant can cover the substrate inner sidewall and the device stack and can fill the cavity. Other examples and related methods are disclosed herein.

The disclosure provides an electronic device including a substrate, a first semiconductor element, and a first protective structure. The first semiconductor element is disposed on the substrate and electrically connected to the substrate. The first semiconductor element has a first surface away from the substrate. The first protective structure covers at least a portion of the first surface.

A semiconductor package includes a substrate, a die stack on the substrate, and connection terminals between the substrate and the die stack. The die stack includes a first die having a first active surface facing the substrate, the first die including first through electrodes vertically penetrating the first die, a second die on the first die and having a second active surface, the second die including second through electrodes vertically penetrating the second die, and a third die on the second die and having a third active surface facing the substrate. The second active surface of the second die is in direct contact with one of the first or third active surfaces.

A semiconductor package includes a circuit board structure, a redistribution layer structure, a package structure, and a ring structure. The redistribution layer structure has a first region and a second region surrounding the first region. The redistribution layer structure is disposed over and electrically connected to the circuit board structure. A metal density in the second region is greater than a metal density in the first region. The package structure is disposed over the first region of the redistribution layer structure. The package structure is electrically connected to the redistribution layer structure. The ring structure is disposed over the second region of the redistribution layer structure.

A semiconductor package includes a first redistribution substrate, a first semiconductor chip mounted on the first redistribution substrate, a first molding layer on the first redistribution substrate and covering a top surface and lateral surfaces of the first semiconductor chip, a second redistribution substrate on the first molding layer, and an adhesive film between the second redistribution substrate and the first molding layer. The adhesive film is spaced apart from the first semiconductor chip and covers a top surface of the first molding layer. A lateral surface of the adhesive film is coplanar with a lateral surface of the second redistribution substrate.

A semiconductor device includes a package substrate, and a first die group bonded onto the package substrate. The first die group characterized by a first thickness. The semiconductor device also has a second die group bonded onto the package substrate. The second die group characterized by a second thickness. The semiconductor device further includes a carrier substrate disposed on the first die group. The carrier substrate is characterized by a third thickness that is a function of a difference between the first thickness and the second thickness. A molding compound material is disposed on the package substrate and covers the first die group and the second die group. The molding compound material includes a cavity between the first die group and the second die group.