A semiconductor device of the present invention includes a semiconductor element, a surface electrode formed on a surface of the semiconductor element, a metal film formed on the surface electrode so as to have a joining portion and a stress relieving portion formed so as to border on and surround the joining portion, solder joined to the joining portion while avoiding the stress relieving portion, and an external electrode joined to the joining portion through the solder.

A method of forming a 3D package. The method may include joining an interposer to a laminate chip carrier with the solid state diffusion of a first plurality of solder bumps by applying a first selective non-uniform heat and first uniform pressure; joining a top chip to the interposer with the solid state diffusion of a second plurality of solder bumps by applying a second selective non-uniform heat and second uniform pressure; heating the 3D package, the first and second pluralities of solder bumps to a temperature greater than the reflow temperature of the first and second pluralities of solder bumps, where the second plurality of solder bumps achieves the reflow temperature before the first plurality of solder bumps, where the first and second selective non-uniform heats being less that the reflow temperature of the first and second pluralities of solder bumps, respectively.

A semiconductor device of the present invention includes a semiconductor element, a surface electrode formed on a surface of the semiconductor element, a metal film formed on the surface electrode so as to have a joining portion and a stress relieving portion formed so as to border on and surround the joining portion, solder joined to the joining portion while avoiding the stress relieving portion, and an external electrode joined to the joining portion through the solder.

A microelectronic device includes a laminated mounting substrate including a die side and a land side with a surface finish layer disposed in a recess on the mounting substrate die side. An electrically conductive first plug is in contact with the surface finish layer and an electrically conductive subsequent plug is disposed on the mounting substrate land side and it is electrically coupled to the electrically conductive first plug and disposed directly below the electrically conductive first plug.

A device comprising a chip including a substrate defining one or more electronic devices and a printed circuit board electrically connected to the chip via one or more solder elements sandwiched between the chip and the printed circuit board, and the solder elements, and buffer layers having a Young's Modulus of 2.5 GPa or less.

A semiconductor device of the present invention includes a semiconductor element, a surface electrode formed on a surface of the semiconductor element, a metal film formed on the surface electrode so as to have a joining portion and a stress relieving portion formed so as to border on and surround the joining portion, solder joined to the joining portion while avoiding the stress relieving portion, and an external electrode joined to the joining portion through the solder.

A preform structure for soldering a semiconductor chip arrangement includes a carbon fiber composite sheet and a solder layer formed over the carbon fiber composite sheet.

A preform structure for soldering a semiconductor chip arrangement includes a carbon fiber composite sheet and a solder layer formed over the carbon fiber composite sheet.