A manufacturing method of an integrated driving module with energy conversion function includes providing a carrier board and forming an integrated electromagnetic induction component layer having a first dielectric layer, a plurality of conductive coil layers and a plurality of conductive connecting components on a surface of the carrier board. A patterned conductive circuit layer is formed on the integrated electromagnetic induction component layer, and electrically connecting to each other through the conductive connecting components. An embedded electrical component is patterned on the patterned conductive circuit layer. A conductive component is disposed on the patterned conductive circuit layer. Thereafter, the method forms a second dielectric layer to cover the embedded electrical component and the conductive component and removes the carrier board to form a plurality of integrated driving modules.

A chip on film package structure including a flexible film, a patterned metal layer, a chip, a patterned solder resist layer, and a code-included pattern is provided. The flexible film comprises a chip mounting region and a peripheral region surrounding the chip mounting region. The patterned metal layer disposed on the flexible film. The chip mounted on the chip mounting region and electrically connected to the patterned metal layer. The patterned solder resist layer exposing the chip mounting region and covering a part of the patterned metal layer. The code-included pattern disposed on the peripheral region of the flexible film. The code-included pattern comprises a plurality of machine-readable data. A method for reading a code-included pattern on a package structure is also provided.

The present publication discloses a method for manufacturing a circuit-board structure. In the method, a conductor layer is made, which comprises a conductor foil and a conductor pattern on the surface of the conductor foil. A component is attached to the conductor layer and the conductor layer is thinned, in such a way that the conductor material of the conductor layer is removed from outside the conductor pattern.

An antenna module includes a wiring structure including a plurality of insulating layers, a plurality of wiring layers, and a plurality of via layers; an antenna disposed on an upper surface of the wiring structure; a heat dissipation structure disposed around the antenna on the upper surface of the wiring structure; and an encapsulant disposed on the upper surface of the wiring structure and covering at least a portion of each of the antenna and the heat dissipation structure.

The present publication discloses a circuit-board structure, including a conductor layer on an insulating material layer, and a conductor pattern on top of the conductor foil. A component is attached to the conductor foil and the conductor pattern, the component embedded at least in part in adhesive which attaches the component to the insulating material layer. A recess is formed in the conductor foil and the insulating material layer, and contact openings are in the insulating material layer at locations of contact areas of the component. Conductor material of the conductor foil is not present outside the conductor pattern, and the conductor foil is located between the conductor pattern and the insulating material layer.

An antenna module includes a wiring structure including a plurality of insulating layers, a plurality of wiring layers, and a plurality of via layers; an antenna disposed on an upper surface of the wiring structure; a heat dissipation structure disposed around the antenna on the upper surface of the wiring structure; and an encapsulant disposed on the upper surface of the wiring structure and covering at least a portion of each of the antenna and the heat dissipation structure.

A method of making an electrical device is described. The method comprises the steps: (i) providing a layer of interlayer material having a first major surface and a second opposing major surface; (ii) positioning at least a first electrically operable component on the first major surface of the first layer of interlayer material, the first electrically operable component being mounted on a first circuit board; and (iii) providing a layer of adhesive material, preferably as a liquid, to cover at least a portion of the first major surface of the layer of interlayer material and at least a portion of the first electrically operable component and/or at least a portion of the first circuit board such that following step (iii) the first electrically operable component is fixed on the layer of interlayer material by at least a portion of the layer of adhesive material.

An antenna module includes a wiring structure including a plurality of insulating layers, a plurality of wiring layers, and a plurality of via layers; an antenna disposed on an upper surface of the wiring structure; a heat dissipation structure disposed around the antenna on the upper surface of the wiring structure; and an encapsulant disposed on the upper surface of the wiring structure and covering at least a portion of each of the antenna and the heat dissipation structure.

A package structure includes an inner wiring layer, a first dielectric layer, a first outer wiring layer, and an electronic component assembly. The first dielectric layer includes a first surface and a second surface facing away from the first surface. The inner wiring layer and the electronic component assembly are embedded into the first dielectric layer from the first surface. The first outer wiring layer is disposed on the second surface. The electronic component assembly includes a first electronic element and a second electronic element. The second electronic element is disposed close to the second surface, and an electrical connector of the second electronic element faces the second surface. The first electronic element is disposed on a side of the second electronic element facing away from the second surface, and exposed from the first surface. The first outer wiring layer electrically connects the electrical connector of the second electronic element and the inner wiring layer, respectively. A method for manufacturing the package structure is also provided.

A method of making an electrical device is described. The method comprises the steps: (i) providing a layer of interlayer material having a first major surface and a second opposing major surface; (ii) positioning at least a first electrically operable component on the first major surface of the first layer of interlayer material, the first electrically operable component being mounted on a first circuit board; and (iii) providing a layer of adhesive material, preferably as a liquid, to cover at least a portion of the first major surface of the layer of interlayer material and at least a portion of the first electrically operable component and/or at least a portion of the first circuit board such that following step (iii) the first electrically operable component is fixed on the layer of interlayer material by at least a portion of the layer of adhesive material.