Alternative surfaces for conductive pad layers of silicon bridges for semiconductor packages, and the resulting silicon bridges and semiconductor packages, are described. In an example, a semiconductor structure includes a substrate having a lower insulating layer disposed thereon. The substrate has a perimeter. A metallization structure is disposed on the lower insulating layer. The metallization structure includes conductive routing disposed in a dielectric material stack. First and second pluralities of conductive pads are disposed in a plane above the metallization structure. Conductive routing of the metallization structure electrically connects the first plurality of conductive pads with the second plurality of conductive pads. An upper insulating layer is disposed on the first and second pluralities of conductive pads. The upper insulating layer has a perimeter substantially the same as the perimeter of the substrate.

A wiring structure includes an upper conductive structure, a lower conductive structure and an intermediate layer. The upper conductive structure includes at least one upper dielectric layer and at least one upper circuit layer in contact with the dielectric layer. The lower conductive structure includes at least one lower dielectric layer and at least one lower circuit layer in contact with the lower dielectric layer. The at least one lower dielectric layer of the lower conductive structure is substantially free of glass fiber. The intermediate layer is disposed between the upper conductive structure and the lower conductive structure and bonds the upper conductive structure and the lower conductive structure together. The upper conductive structure is electrically connected to the lower conductive structure.

Systems and methods for applying solder to a pin. The methods comprising: disposing a given amount of solder on a non-wetable surface of a planar substrate; aligning the pin with the solder disposed on the non-wetable surface of the planar substrate; inserting the pin in the solder; and performing a reflow process to cause the solder to transfer from the planar substrate to the pin.

A device includes an interposer, which includes a substrate having a top surface. An interconnect structure is formed over the top surface of the substrate, wherein the interconnect structure includes at least one dielectric layer, and metal features in the at least one dielectric layer. A plurality of through-substrate vias (TSVs) is in the substrate and electrically coupled to the interconnect structure. A first die is over and bonded onto the interposer. A second die is bonded onto the interposer, wherein the second die is under the interconnect structure.

The invention provides a semiconductor package and a method for fabricating a base for a semiconductor package. The semiconductor package includes a base. The base has a device-attach surface. A radio-frequency (RF) device is embedded in the base. The RF device is close to the device-attach surface.

The present invention relates to a chip-on film type semiconductor package including an integrated circuit chip, a printed circuit board layer, and a graphite layer, in which the integrated circuit chip is connected to one surface of the printed circuit board layer directly or by means of a mounting element and the graphite layer is laminated on an opposite surface of the printed circuit board layer and a display device including the same.

A device includes an interposer, which includes a substrate having a top surface. An interconnect structure is formed over the top surface of the substrate, wherein the interconnect structure includes at least one dielectric layer, and metal features in the at least one dielectric layer. A plurality of through-substrate vias (TSVs) is in the substrate and electrically coupled to the interconnect structure. A first die is over and bonded onto the interposer. A second die is bonded onto the interposer, wherein the second die is under the interconnect structure.

In one aspect of this disclosure, an electronic device mounting board includes a substrate having a first surface and a second surface opposite to the first surface. The substrate has a first recess located on the first surface and a second recess located on the second surface. The substrate includes an electrode pad. The electrode pad is located in the first recess. The second recess in the substrate contains a reinforcement dividing the second recess into a plurality of recesses. The reinforcement is located separate from the electrode pad or is located to overlap the electrode pad in a plan view.

The present invention relates to a chip-on film type semiconductor package including an integrated circuit chip, a printed circuit board layer, an outer lead bonder pad, and a graphite layer, in which the integrated circuit chip is connected to one surface of the printed circuit board layer directly or by means of a mounting element, the outer lead bonder pad is located on one surface of the printed circuit board layer, and the graphite layer is laminated on an opposite surface of the printed circuit board layer and a display device including the same.

A wiring structure includes an upper conductive structure, a lower conductive structure and an intermediate layer. The upper conductive structure includes at least one upper dielectric layer and at least one upper circuit layer in contact with the dielectric layer. The lower conductive structure includes at least one lower dielectric layer and at least one lower circuit layer in contact with the lower dielectric layer. The at least one lower dielectric layer of the lower conductive structure is substantially free of glass fiber. The intermediate layer is disposed between the upper conductive structure and the lower conductive structure and bonds the upper conductive structure and the lower conductive structure together. The upper conductive structure is electrically connected to the lower conductive structure.