A solder connection may be surrounded by a solder locking layer (1210, 2210) and may be recessed in a hole (1230) in that layer. The recess may be obtained by evaporating a vaporizable portion (1250) of the solder connection. Other features are also provided.

A solder connection may be surrounded by a solder locking layer (1210, 2210) and may be recessed in a hole (1230) in that layer. The recess may be obtained by evaporating a vaporizable portion (1250) of the solder connection. Other features are also provided.

In some embodiments, to increase the height-to-pitch ratio of a solder connection that connects different structures with one or more solder balls, only a portion of a solder ball's surface is melted when the connection is formed on one structure and/or when the connection is being attached to another structure. In some embodiments, non-solder balls are joined by an intermediate solder ball (140i). A solder connection may be surrounded by a solder locking layer (1210) and may be recessed in a hole (1230) in that layer. Other features are also provided.

A method for bonding chips to a landing wafer is disclosed. In one aspect, a volume of alignment liquid is dispensed on a wettable surface of the chip so as to become attached to the surface, after which the chip is moved towards the bonding site on the wafer, the bonding site equally being provided with a wettable surface. A liquid bridge is formed between the chip and the bonding site on the substrate wafer, enabling self-alignment of the chip. Dispensing alignment liquid on the chip and not the wafer is advantageous in terms of mitigating unwanted evaporation of the liquid prior to bonding.

In described examples of an integrated circuit (IC) there is a substrate of semiconductor material having a first region with a first transistor formed therein and a second region with a second transistor formed therein. An isolation trench extends through the substrate and separates the first region of the substrate from the second region of the substrate. An interconnect region having layers of dielectric is disposed on a top surface of the substrate. A dielectric polymer is disposed in the isolation trench and in a layer over the backside surface of the substrate. An edge of the polymer layer is separated from the perimeter edge of the substrate by a space.

A method of producing a semiconductor device includes providing a semiconductor die, providing a metal joining partner, forming a diffusion solderable region by an inkjet metal printing process, forming an assembly to include the diffusion solderable region in between the metal joining partner and the semiconductor die, and performing a diffusion soldering process that forms a soldered joint from the diffusion solderable region in between the semiconductor die and the metal joining partner.

A solder connection may be surrounded by a solder locking layer (1210, 2210) and may be recessed in a hole (1230) in that layer. The recess may be obtained by evaporating a vaporizable portion (1250) of the solder connection. Other features are also provided.

A solder connection may be surrounded by a solder locking layer (1210, 2210) and may be recessed in a hole (1230) in that layer. The recess may be obtained by evaporating a vaporizable portion (1250) of the solder connection. Other features are also provided.

An integrated circuit packaging system and method of manufacture thereof including: providing a substrate; forming contact pads on top of the substrate; forming a protection layer on top of the contact pads and the substrate; exposing the contact pads from the protection layer; printing under bump metallization (UBM) layers over the exposed contact pads extended over the protection layer with conductive inks; and forming bumps on top of the under bump metallization layers. It also including: printing an adhesion layer using conductive ink, wherein the adhesion layer comprises interconnected adhesion layer pads; forming additional under bump metallization (UBM) layers and bumps on top of the adhesion layer pads utilizing an electro-deposition process; and removing connections among the interconnected adhesion layer pads.

An integrated circuit packaging system and method of manufacture thereof including: providing a substrate; forming contact pads on top of the substrate; forming a protection layer on top of the contact pads and the substrate; exposing the contact pads from the protection layer; printing under bump metallization (UBM) layers over the exposed contact pads extended over the protection layer with conductive inks; and forming bumps on top of the under bump metallization layers. It also including: printing an adhesion layer using conductive ink, wherein the adhesion layer comprises interconnected adhesion layer pads; forming additional under bump metallization (UBM) layers and bumps on top of the adhesion layer pads utilizing an electro-deposition process; and removing connections among the interconnected adhesion layer pads.