A packaged multichip device includes a first IC die with an isolation capacitor utilizing a top metal layer as its top plate and a lower metal layer as its bottom plate. A second IC die has a second isolation capacitor utilizing its top metal layer as its top plate and a lower metal layer as its bottom plate. A first bondwire end is coupled to one top plate and a second bondwire end is coupled to the other top plate. The second bondwire end includes a stitch bond including a wire approach angle not normal to the top plate it is bonded to and is placed so that the stitch bond's center is positioned at least 5% further from an edge of this top plate on a bondwire crossover side compared to a distance of the stitch bond's center from the side opposite the bondwire crossover side.

A method of manufacturing a high quality a semiconductor device, includes loading a substrate comprising a conductive film and an insulating film into a process chamber. The insulating film is formed around the conductive film to expose the conductive film. A process gas, which comprises a component that reacts with a desorbed gas generated from the insulating film is supplied into the process chamber which causes a protective film to be selectively formed on the insulating film.

Reliability of a semiconductor device is improved. A first pad electrode is formed in an uppermost layer of a multilayer wiring layer, an insulating film of a non-organic material is formed over the first pad electrode, and an organic insulating film is formed over the insulating film. In the organic insulating film, an opening reaching the first pad electrode and a groove reaching the insulating film are formed. Over the organic insulating film, a plurality of re-wirings each having a barrier metal film and a conductive film are formed. In a plan view, the groove is formed in an area between the re-wirings. At the same time, a width of the groove is smaller than a width of a first portion or a width of a second portion of the re-wirings, respectively, neighboring to each other and extending in a first direction.

An electronic device includes an electronic element, and a wire bonded to the electronic element. The electronic element includes a bonding pad to which the wire is bonded. The main component of the bonding pad is Al. A metal is mixed in the wire, and the mixed metal is one of Pt, Pd and Au.

A semiconductor device including a semiconductor substrate; a conductive film covering a front face of the semiconductor substrate, a front face of the conductive film having plural straight-line shaped concave portions disposed in parallel to each other; and a protecting film covering the front face of the conductive film, the protecting film having an opening that has an edge forming an angle with the plural concave portions of greater than 0 and less than 90, and that partially exposes the conductive film.

A semiconductor device (10) includes: a substrate (1); a wiring (6) formed above the substrate (1); a titanium nitride film (7) formed on the wiring (6); an oxide film (3) formed on the titanium nitride film (7); a silicon nitride film (4) formed on the oxide film (3); and a pad portion (8) exposing the wiring (6), and formed at a place where a first opening portion (91) formed in the silicon nitride film (4) and a second opening portion (92) formed in the titanium nitride film (7) overlap with each other in plan view, and being inside a third opening portion (93) formed in the oxide film (3) in plan view, wherein the silicon nitride film (4) is formed on top of and in contact with the titanium nitride film (7) inside the third opening portion (93) in plan view.

A customized seal ring for a semiconductor device is formed of multiple seal ring cells that are selected and arranged to produce a seal ring design. The cells include first cells that are coupled to ground and second cells that are not coupled to ground. The second cells that are not coupled to ground, include a higher density of metal features in an inner portion thereof, than the first seal ring cells. Dummy metal vias and other metal features that may be present in the inner portion of the second seal ring cells are absent from the inner portion of the first seal ring cells that are coupled to ground. The seal ring design may include various arrangements, including alternating and repeating sequences of the different seal ring cells.

The present disclosure provides embodiments of package devices and methods for making package devices for a semiconductor die. One embodiment includes a die mounting structure having a finished bond pad that includes a copper bond pad and a cobalt-containing layer over a top surface of the copper bond pad, and a wire bond structure that is bonded to a top surface of the cobalt-containing layer of the finished bond pad, where cobalt-containing material of the cobalt-containing layer is located between a bottom surface of the wire bond structure and the top surface of the copper bond pad such that the cobalt-containing material is present under a center portion of the wire bond structure.

The present invention provides a semiconductor structure and a method of fabricating the same. The method includes: providing a chip having conductive pads, forming a metal layer on the conductive pads, forming a passivation layer on a portion of the metal layer, and forming conductive pillars on the metal layer. Since the metal layer is protected by the passivation layer, the undercut problem is solved, the supporting strength of the conductive pillars is increased, and the product reliability is improved.

The present invention provides a semiconductor structure and a method of fabricating the same. The method includes: providing a chip having conductive pads, forming a metal layer on the conductive pads, forming a passivation layer on a portion of the metal layer, and forming conductive pillars on the metal layer. Since the metal layer is protected by the passivation layer, the undercut problem is solved, the supporting strength of the conductive pillars is increased, and the product reliability is improved.