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 first semiconductor device includes: a first wiring layer including a first interlayer insulating film, a first electrode pad, and a first dummy electrode, the first electrode pad being embedded in the first interlayer insulating film and having one surface located on same plane as one surface of the first interlayer insulating film, and the first dummy electrode being embedded in the first interlayer insulating film, having one surface located on same plane as the one surface of the first interlayer insulating film, and being disposed around the first electrode pad; and a second wiring layer including a second interlayer insulating film, a second electrode pad, and a second dummy electrode, the second electrode pad being embedded in the second interlayer insulating film, having one surface located on same surface as one surface of the second interlayer insulating film, and being bonded to the first electrode pad, and the second dummy electrode having one surface located on same plane as the surface located closer to the first interlayer insulating film of the second interlayer insulating film, being disposed around the second electrode pad, and being bonded to the first dummy electrode. A second semiconductor device includes: a first semiconductor section including a first electrode, the first electrode being formed on a surface located closer to a bonding interface and extending in a first direction; and a second semiconductor section including a second electrode and disposed to be bonded to the first semiconductor section at the bonding interface, the second electrode being bonded to the first electrode and extending in a second direction that intersects with the first direction.

A first semiconductor device includes: a first wiring layer including a first interlayer insulating film, a first electrode pad, and a first dummy electrode, the first electrode pad being embedded in the first interlayer insulating film and having one surface located on same plane as one surface of the first interlayer insulating film, and the first dummy electrode being embedded in the first interlayer insulating film, having one surface located on same plane as the one surface of the first interlayer insulating film, and being disposed around the first electrode pad; and a second wiring layer including a second interlayer insulating film, a second electrode pad, and a second dummy electrode, the second electrode pad being embedded in the second interlayer insulating film, having one surface located on same surface as one surface of the second interlayer insulating film, and being bonded to the first electrode pad, and the second dummy electrode having one surface located on same plane as the surface located closer to the first interlayer insulating film of the second interlayer insulating film, being disposed around the second electrode pad, and being bonded to the first dummy electrode. A second semiconductor device includes: a first semiconductor section including a first electrode, the first electrode being formed on a surface located closer to a bonding interface and extending in a first direction; and a second semiconductor section including a second electrode and disposed to be bonded to the first semiconductor section at the bonding interface, the second electrode being bonded to the first electrode and extending in a second direction that intersects with the first direction.

A semiconductor device includes an integrated circuit attached to a chip carrier in a flip chip configuration. A substrate extends to a back surface of the integrated circuit, and an interconnect region extends to a front surface of the integrated circuit. A substrate bond pad is disposed at the front surface, and is electrically coupled through the interconnect region to the semiconductor material. The chip carrier includes a substrate lead at a front surface of the chip carrier. The substrate lead is electrically coupled to the substrate bond pad. An electrically conductive compression sheet is disposed on the back surface of the integrated circuit, with lower compression tips making electrical contact with the semiconductor material in the substrate. The electrically conductive compression sheet is electrically coupled to the substrate lead of the chip carrier by a back surface shunt disposed outside of the integrated circuit.

A memory may include a first wafer, and a second wafer stacked on and bonded to the first wafer. The first wafer may include a cell structure including a memory cell array; and a first logic structure disposed under the cell structure, and including a row control circuit. The second wafer may include a second logic structure including a column control circuit.

An integrated circuit package module includes an integrated circuit package device including a contact element, and a bonding system formed on the integrated circuit package device. The bonding system includes a bonding system substrate and a bonding element formed in the bonding system substrate and conductively coupled to the contact element of the integrated circuit package device. The bonding element includes (a) a conduction component conductively connected to the contact element, the conduction component formed from a first metal having a first melting point, and (b) a bonding component formed from a second metal having a second melting point lower than the first melting point of the first metal.

Described herein is a method of forming wafer-level packages from a wafer. The method includes adhesively attaching front sides of first integrated circuits within the wafer to back sides of second integrated circuits such that pads on the front sides of the first integrated circuits and pads on front sides of the second integrated circuits are exposed. The method further includes forming a laser direct structuring (LDS) activatable layer over the front sides of the first integrated circuits and the second integrated circuits and over edges of the second integrated circuits, and forming desired patterns of structured areas within the LDS activatable layer. The method additionally includes metallizing the desired patterns of structured areas to form conductive areas within the LDS activatable layer.

A multi-chip package comprising an interconnection substrate; a first semiconductor IC chip over the interconnection substrate, wherein the first semiconductor IC chip comprises a first silicon substrate, a plurality of first metal vias passing through the first silicon substrate, a plurality of first transistors on a top surface of the first silicon substrate and a first interconnection scheme over the first silicon substrate, wherein the first interconnection scheme comprises a first interconnection metal layer over the first silicon substrate, a second interconnection metal layer over the first interconnection layer and the first silicon substrate and a first insulating dielectric layer over the first silicon substrate and between the first and second interconnection metal layers; a second semiconductor IC chip over and bonded to the first semiconductor IC chip; and a plurality of second metal vias over and coupling to the interconnection substrate, wherein the plurality of second metal vias are in a space extending from a sidewall of the first semiconductor IC chip.

A method includes forming a first substrate including a first dielectric layer and a first metal pad, forming a second substrate including a second dielectric layer and a second metal pad, and bonding the first dielectric layer to the second dielectric layer, and the first metal pad to the second metal pad. One or both of the first and second substrates is formed by forming a first insulating layer, forming an opening in the layer, forming a barrier on an inner surface of the opening, forming a metal pad material on the barrier, polishing the metal pad material to expose a portion of the barrier and to form a gap, expanding the gap, forming a second insulating layer to fill the opening and the gap, and polishing the insulating layers such that a top surface of the metal pad is substantially planar with an upper surface of the polished layer.

An integrated circuit (IC) package includes a first die with a first surface overlaying a substrate. The first die includes a first metal pad at a second surface opposing the first surface. The IC package also includes a dielectric layer having a first surface contacting the second surface of the first die. The IC package further includes a second die with a surface that contacts a second surface of the dielectric layer. The second die includes a second metal pad aligned with the first metal pad of the first die. A plane perpendicular to the second surface of the first die intersects the first metal pad and the second metal pad.