A bonding pad formed to a desired thickness is arranged close to a surface of an image sensor. An imaging apparatus includes a semiconductor substrate, a wiring layer, and a signal transmission section. On the semiconductor substrate, a photoelectric conversion section for generating an image signal corresponding to emitted light is formed. The wiring section is formed by having an insulation layer and a wiring layer stacked one on top of the other. The signal transmission section is formed between a recessed section formed on a surface different from the light-receiving surface of the semiconductor substrate on the one hand and the wiring section on the other hand, the signal transmission section being arranged partially in the recessed section. The signal transmission section transmits an image signal transmitted by the wiring layer through an opening formed from the light-receiving surface of the semiconductor substrate toward the recessed section.

A semiconductor device comprising: a substrate; a semiconductor layer; and a wiring structure section between the substrate and the semiconductor layer, the wiring structure section including a plurality of stacked wiring layers and a plurality of stacked insulating films, the wiring structure section including an electrode, wherein an opening for connecting a member to the electrode is formed in the semiconductor layer and the wiring structure section; the semiconductor layer has an isolation region in which an insulating film is embedded and which surrounds the opening; the wiring structure section has a ring which is formed of the plurality of wiring layers and surround the opening; and a distance between the opening and the ring closest to the opening is larger than a distance between the opening and the isolation region closest to the opening.

A semiconductor device comprising: a substrate; a semiconductor layer; and a wiring structure section between the substrate and the semiconductor layer, the wiring structure section including a plurality of stacked wiring layers and a plurality of stacked insulating films, the wiring structure section including an electrode, wherein an opening for connecting a member to the electrode is formed in the semiconductor layer and the wiring structure section; the semiconductor layer has an isolation region in which an insulating film is embedded and which surrounds the opening; the wiring structure section has a ring which is formed of the plurality of wiring layers and surround the opening; and a distance between the opening and the ring closest to the opening is larger than a distance between the opening and the isolation region closest to the opening.

Methods of forming connector pad structures, interconnect structures, and structures thereof are disclosed. In some embodiments, a method of forming a connector pad structure includes forming an underball metallization (UBM) pad, and increasing a surface roughness of the UBM pad by exposing the UBM pad to a plasma treatment. A polymer material is formed over a first portion of the UBM pad, leaving a second portion of the UBM pad exposed.

Methods of forming connector pad structures, interconnect structures, and structures thereof are disclosed. In some embodiments, a method of forming a connector pad structure includes forming an underball metallization (UBM) pad, and increasing a surface roughness of the UBM pad by exposing the UBM pad to a plasma treatment. A polymer material is formed over a first portion of the UBM pad, leaving a second portion of the UBM pad exposed.

A semiconductor device and a semiconductor package, the device including a first buffer dielectric layer on a first dielectric layer; a second dielectric layer and a second buffer dielectric layer sequentially disposed on the first buffer dielectric layer, the second buffer dielectric layer being in contact with the first buffer dielectric layer; and a pad interconnection structure that penetrates the first buffer dielectric layer and the second buffer dielectric layer, wherein the pad interconnection structure includes copper and tin.

A semiconductor device has a semiconductor chip region which contains a semiconductor chip and a first portion of a passivation film covering the semiconductor chip and a scribe line region which contains a second portion of the passivation film connected to the first portion of the passivation film, a first insulating film protruding from a distal end of the second portion of the passivation film, and at least a part of a first wiring. A first portion of the first insulating film is disposed along the distal end of the second portion of the passivation film, a second portion of the first insulating film protrudes laterally beyond the first portion of the first insulating film, and the first wiring protrudes laterally beyond the second portion of the first insulating film.

A semiconductor device has a semiconductor chip region which contains a semiconductor chip and a first portion of a passivation film covering the semiconductor chip and a scribe line region which contains a second portion of the passivation film connected to the first portion of the passivation film, a first insulating film protruding from a distal end of the second portion of the passivation film, and at least a part of a first wiring. A first portion of the first insulating film is disposed along the distal end of the second portion of the passivation film, a second portion of the first insulating film protrudes laterally beyond the first portion of the first insulating film, and the first wiring protrudes laterally beyond the second portion of the first insulating film.

Methods of forming connector pad structures, interconnect structures, and structures thereof are disclosed. In some embodiments, a method of forming a connector pad structure includes forming an underball metallization (UBM) pad, and increasing a surface roughness of the UBM pad by exposing the UBM pad to a plasma treatment. A polymer material is formed over a first portion of the UBM pad, leaving a second portion of the UBM pad exposed.

Methods of forming connector pad structures, interconnect structures, and structures thereof are disclosed. In some embodiments, a method of forming a connector pad structure includes forming an underball metallization (UBM) pad, and increasing a surface roughness of the UBM pad by exposing the UBM pad to a plasma treatment. A polymer material is formed over a first portion of the UBM pad, leaving a second portion of the UBM pad exposed.