A fan-out wafer level package structure includes a chip, a molding compound, at least one circuit layer, and at least one dielectric layer. The molding compound encapsulates the chip. The at least one circuit layer is disposed on a surface of the chip and a surface of the molding compound coplanar to the surface of the chip. The at least one circuit layer includes a plurality of traces. Each of the traces includes a first portion and a second portion. The first portion is located at an edge region of a projection of the chip onto the dielectric layer. A width of the first portion is larger than a width of the second portion. The at least one dielectric layer is disposed at a side of the at least one circuit layer.

A fan-out semiconductor package includes a first interconnection member having a through-hole; a semiconductor chip disposed in the through-hole of the first interconnection member and having an active surface having connection pads disposed thereon and an inactive surface opposite the active surface; an encapsulant encapsulating at least some portions of the first interconnection member and the semiconductor chip; and a second interconnection member disposed on the first interconnection member and the semiconductor chip. The first interconnection member and the second interconnection member respectively include a plurality of redistribution layers electrically connected to the connection pads of the semiconductor chip, and the semiconductor chip has a groove defined in the active surface and between a peripheral edge of the semiconductor chip and the connection pads of the semiconductor chip.

A fan-out semiconductor package includes: a first interconnection member having a through-hole; a semiconductor chip disposed in the through-hole of the first interconnection member and having an active surface having connection pads disposed thereon and an inactive surface opposing the active surface; an encapsulant encapsulating at least portions of the first interconnection member and the semiconductor chip; a second interconnection member disposed on the first interconnection member and the semiconductor chip; and connection terminals disposed on the second interconnection member. The first interconnection member and the second interconnection member respectively include redistribution layers electrically connected to the connection pads of the semiconductor chip, and a connection pad and a connection terminal are electrically connected to each other by a pathway passing through the redistribution layer of the first interconnection member.

A fan-out semiconductor package module includes: a fan-out semiconductor package including a first interconnection member having a through-hole, a semiconductor chip disposed in the through-hole, an encapsulant encapsulating at least portions of the first interconnection member and the semiconductor chip, a second interconnection member disposed on the first interconnection member and the semiconductor chip, a third interconnection member disposed on the encapsulant, first connection terminals disposed on the second interconnection member, and second connection terminals disposed on the third interconnection member, the first to third interconnection members including, respectively, redistribution layers electrically connected to connection pads of the semiconductor chip; and a component package stacked on the fan-out semiconductor package and including a wiring substrate connected to the second interconnection member through the first connection terminals and a plurality of mounted components mounted on the wiring substrate.

Disclosed is a fan-out wafer level packaging (FOWLP) apparatus includes a semiconductor die having at least one input/output (I/O) connection, a first plurality of package balls having a first package ball layout, a first conductive layer forming a first redistribution layer (RDL) and configured to electrically couple to the first plurality of package balls, and a second conductive layer forming a second RDL and including at least one conductive pillar configured to electrically couple the at least one I/O connection of the semiconductor die to the first conductive layer, wherein the second conductive layer enables the semiconductor die to be electrically coupled to a second plurality of package balls having a second package ball layout without a change in position of the at least one I/O connection of the semiconductor die.

A fan-out semiconductor package includes a semiconductor chip having an active surface, the active surface having a connection pad disposed thereon, and an inactive surface opposing the active surface; an encapsulant encapsulating at least a portion of the semiconductor chip; an insulating layer disposed on the active surface of the semiconductor chip; and a redistribution layer disposed on the insulating layer and electrically connected to the connection pad. The insulating layer includes a low Df dielectric material.

A fan-out semiconductor package includes: a first connection member having a through-hole; a semiconductor chip disposed in the through-hole of the first connection member and having an active surface having connection pads disposed thereon and an inactive surface opposing the active surface; an encapsulant encapsulating at least portions of the first connection member and the inactive surface of the semiconductor chip; and a second connection member disposed on the first connection member and the active surface of the semiconductor chip. The first connection member and the second connection member include, respectively, redistribution layers electrically connected to the connection pads of the semiconductor chip, and the first connection member includes a coil pattern layer electrically connected to the connection pads of the semiconductor chip.

Among other things, a method of fabricating an integrated electronic device package is described. First trace portions of an electrically conductive trace are formed on an electrically insulating layer of a package structure, and vias of the conductive trace are formed in a sacrificial layer disposed on the electrically insulating layer. The sacrificial layer is removed, and a die is placed above the electrically insulating layer. Molding material is formed around exposed surfaces of the die and exposed surfaces of the vias, and a magnetic structure is formed within the layer of molding material. Second trace portions of the electrically conductive trace are formed above the molding material and the magnetic structure. The electrically conductive trace and the magnetic structure form an inductor. The electrically conductive trace may have a coil shape surrounding the magnetic structure. The die may be positioned between portions of the inductor.

A fan-out semiconductor package includes a frame having a through hole, a semiconductor chip disposed in the through hole and including connection pads, an encapsulant encapsulating at least a portion of the frame and the semiconductor chip, and a redistribution layer disposed on the frame and the semiconductor chip and including a first region and a second region. In the first region, a first via and a second via, electrically connected to one of the connection pads, disposed in different layers, and connected by a wiring pattern, are disposed. In the second region, a third via and a fourth via, electrically connected to another of the connection pads, disposed in different layers, and connected by the wiring pattern, are disposed. A distance between axes of the first via and the second via is shorter than a distance between axes of the third via and the fourth via.

A manufacturing method of a semiconductor package includes etching a first surface and a side surface of a base substrate, the base substrate including the first, a second and the side surfaces positioned between the first and the second surfaces, the base substrate containing a metal, attaching a metal different from the metal contained in the base substrate to the first and the side surfaces, disposing a semiconductor device on the second surface, the semiconductor device having an external terminal, forming a resin insulating layer sealing the semiconductor device, forming a first conductive layer on the resin insulating layer, forming an opening, exposing the external terminal, in the first conductive layer and the resin insulating layer; and forming a metal layer on the first and the side surfaces, on the first conductive layer and in the opening.