A semiconductor device comprises a first conductive layer. A second conductive layer is formed over the first conductive layer. A semiconductor component is disposed over the first conductive layer. The second conductive layer lies in a plane between a top surface of the semiconductor component and a bottom surface of the semiconductor component. A third conductive layer is formed over the semiconductor component opposite the first conductive layer. The semiconductor device includes a symmetrical structure. A first insulating layer is formed between the first conductive layer and semiconductor component. A second insulating layer is formed between the semiconductor component and third conductive layer. A height of the first insulating layer between the first conductive layer and semiconductor component is between 90% and 110% of a height of the second insulating layer between the semiconductor component and third conductive layer. The semiconductor component includes a passive device.

A method for making a semiconductor device includes forming rims on first and second dice. The rims extend laterally away from the first and second dice. The second die is stacked over the first die, and one or more vias are drilled through the rims after stacking. The semiconductor device includes redistribution layers extending over at least one of the respective first and second dice and the corresponding rims. The one or more vias extend through the corresponding rims, and the one or more vias are in communication with the first and second dice through the rims.

An integrated circuit chip includes a front face having an electrical connection pad. An overmolded encapsulation block encapsulates the integrated circuit chip and includes a front layer at least partially covering a front face of the integrated circuit chip. A through-hole the encapsulation block is located above the electrical connection pad of the integrated circuit chip. A wall of the through-hole is covered with an inner metal layer that is joined to the front pad of the integrated circuit chip. A front metal layer covers a local zone of the front face of the front layer, with the front metal layer being joined to the inner metal layer to form an electrical connection. The inner metal layer and the front metal layer are attached or anchored to activated additive particles that are included in the material of the encapsulation block.

A manufacturing method of a semiconductor package includes locating a plurality of semiconductor packages on a substrate, forming a resin insulating layer covering the plurality of semiconductor devices, forming grooves, in the resin insulating layer, enclosing each of the plurality of semiconductor devices and reaching the substrate, and irradiating the substrate with laser light in positional correspondence with the grooves to separate the plurality of semiconductor devices from each other.

A manufacturing method of a semiconductor package includes locating, on a substrate, a semiconductor device having an external terminal provided on a top surface thereof, forming a resin insulating layer covering the semiconductor device, forming an opening, exposing the external terminal, in the resin insulating layer, performing plasma treatment on a bottom surface of the opening, performing chemical treatment on the bottom surface of the opening after the plasma treatment, and forming a conductive body to be connected with the external terminal exposed in the opening.

A three-dimensional structure in which a wiring is provided on a surface is provided. At least a part of the surface of the three-dimensional structure includes an insulating layer containing filler. A recessed gutter for wiring is provided on the surface of the three-dimensional structure, and at least a part of a wiring conductor is embedded in the recessed gutter for wiring.

Electronic module (100), which comprises a first substrate (102), a first dielectric layer (104) on the first substrate (102), at least one electronic chip (106), which is mounted with a first main surface (108) directly or indirectly on partial region of the first dielectric layer (104), a second substrate (110) over a second main surface (114) of the at least one electronic chip (106), and an electrical contacting (116) for the electric contact of the at least one electronic chip (106) through the first dielectric layer (104), wherein the first adhesion layer (104) on the first substrate (102) extends over an area, which exceeds the first main surface (108).

A stacked chip package structure includes a first chip, pillar bumps, a first encapsulant, a first redistribution layer, a second chip, a second encapsulant, a second redistribution layer and a through via. The pillar bumps are disposed on a plurality of first pads of the first chip respectively. The first encapsulant encapsulates the first chip and exposes the pillar bumps. The first redistribution layer is disposed on the first encapsulant and electrically connects the first chip. The second chip is disposed on the first redistribution layer. The second encapsulant encapsulates the second chip. The second redistribution layer is disposed on the second encapsulant and electrically coupled to the second chip. The through via penetrates the second encapsulant and electrically connects the first redistribution layer and the second redistribution layer.

A stacked chip package structure includes a first chip, stud bumps, a second chip, pillar bumps, an encapsulant and conductive vias. The first stud bumps are respectively disposed on a plurality of first pads of the first chip, wherein each first stud bump includes a rough surface, and the rough surface of each first stud bump is rougher than a top surface of each first pad. The second chip is disposed on the first chip and exposes the first pads. The pillar bumps are respectively disposed on a plurality of second pads of the second chips. The encapsulant encapsulates the first chip and the second chip and exposes a top surface of each second stud bump. The first conductive vias penetrate the encapsulant and connect the first stud bumps. Each first conductive via covers the rough surface of each first stud bump.

Provided is a printed circuit board including: an insulating layer; electronic devices embedded in the insulating layer; and an adhesive layer for fixing the electronic devices.