A semiconductor device includes a substrate having a cell region and a circuit region, an upper wiring layer on the substrate, and a redistribution wiring layer on the upper wiring layer. The upper wiring layer includes a secondary uppermost wiring in the circuit region and an uppermost wiring on the secondary uppermost wiring. The uppermost wiring includes an uppermost chip pad electrically connected to the secondary uppermost wiring. At least a portion of the uppermost chip pad in the cell region. The redistribution wiring layer includes a redistribution wiring electrically connected to the uppermost chip pad. At least a portion of the redistribution wiring serving as a landing pad connected to an external connector.

The manufacturing yield of a semiconductor device is improved. There is provided a semiconductor device of a cascode coupling system, which is equipped with a plurality of normally-on junction FETs using as a material, a substance larger in bandgap than silicon, and a normally-off MOSFET using silicon as a material. At this time, the semiconductor chip has a plurality of junction FET semiconductor chips (semiconductor chip CHP0 and semiconductor chip CHP1) formed with the junction FETs in a divided fashion, and a MOSFET semiconductor chip (semiconductor chip CHP2) formed with the MOSFET.

A wide gap semiconductor device comprises a first conductive-type semiconductor layer (32); a second conductive-type region (41), (42) that is provided on the first conductive-type semiconductor layer (32); a first electrode (1), of which a part is disposed on the second conductive-type region (41), (42) and the other part is disposed on the first conductive-type semiconductor layer (32); an insulating layer (51), (52), (53) that is provided adjacent to the first electrode (10) on the first conductive-type semiconductor layer (32) and that extends to an end part of the wide gap semiconductor device; and a second electrode (20) that is provided between the first electrode (10) and the end part of the wide gap semiconductor device and that forms a schottky junction with the first conductive-type semiconductor layer (32).

A Wafer-level chip scale package (WLCSP) includes a semiconductor structure and a first bonding pad formed over a portion of the semiconductor structure. The WLCSP further includes a passivation layer formed over the semiconductor structure and the first bonding pad, exposing portions of the first bonding pad. The WLCSP further includes a conductive redistribution layer formed over the passivation layer and the portions of the first bonding pad exposed by the passivation layer. The WLCSP further includes a planarization layer formed over the passivation layer and the conductive redistribution layer, exposing a portion of the conductive redistribution layer. The WLCSP further includes an under-bump-metallurgy (UBM) layer formed over the planarization layer and a conductive bump formed over the UBM layer.

Wafers include multiple bulk redistribution layers. A terminal contact pad is on a surface of one of the bulk redistribution layers. A final redistribution layer is formed on the surface and in contact with the terminal contact pad. The final redistribution layer is formed from a material other than a material of the plurality of bulk redistribution layers. A solder ball is formed on the terminal contact pad.

Wafers and methods of forming solder balls include etching a hole in a final redistribution layer over a terminal contact pad on a wafer to expose the terminal contact pad. Solder is injected into the hole using an injection nozzle that is in direct contact with the final redistribution layer. The final redistribution layer is etched back. The injected solder is reflowed to form a solder ball.

Embodiments are directed to a method of forming a semiconductor chip package and resulting structures having an annular PSPI region formed under a BLM pad. An annular region is formed under a barrier layer metallurgy (BLM) pad. The annular region includes a photosensitive polyimide (PSPI). A conductive pedestal is formed on a surface of the BLM pad and a solder bump is formed on a surface of the conductive pedestal. The annular PSPI region reduces wafer warpage and ULK peeling stress.

An apparatus relating generally to a substrate is disclosed. In this apparatus, a post extends from the substrate. The post includes a conductor member. An upper portion of the post extends above an upper surface of the substrate. An exterior surface of the post associated with the upper portion is in contact with a dielectric layer. The dielectric layer is disposed on the upper surface of the substrate and adjacent to the post to provide a dielectric collar for the post. An exterior surface of the dielectric collar is in contact with a conductor layer. The conductor layer is disposed adjacent to the dielectric collar to provide a metal collar for the post, where a top surface of each of the conductor member, the dielectric collar and the metal collar have formed thereon a bond structure for interconnection of the metal collar and the conductor member.

A semiconductor chip package includes a first die and a second die. The first die and second die are coplanar and disposed in proximity to each other in a side-by-side fashion. A non-straight line shaped interface gap is disposed between the first die and second die. A molding compound surrounds the first die and second die. A redistribution layer (RDL) structure is disposed on the first die, the second die and on the molding compound. The first semiconductor die is electrically connected to the second semiconductor die through the RDL structure.

The invention is to provide a structure of IC pad and its forming method. The structure is arranged in an insulation layer and is comprised of a lower electric-conduction layer, a compound layer structure and a pad layer. The lower electric-conduction layer is arranged at an appropriate position in the insulation layer and is connected to an electric potential. The compound layer structure is arranged on the insulation layer and is composed of at least one electric-conduction layer and at least one electric-conduction connecting layer, both are inter-overlapped to each other. The pad layer is arranged on the compound layer structure.