A wire comprising a wire core with a surface, the wire core having a coating layer superimposed on its surface, wherein the wire core includes: (a) pure silver consisting of silver and further components; or (b) doped silver consisting of silver, at least one doping element, and further components; or (c) a silver alloy consisting of silver, palladium and further components; or (d) a silver alloy consisting of silver, palladium, gold, and further components; or (e) a doped silver alloy consisting of silver, palladium, gold, at least one doping element, and further components, wherein the individual amount of any further component is less than 30 wt.-ppm and the individual amount of any doping element is at least 30 wt.-ppm, and the coating layer is a single-layer of gold or palladium or a double-layer comprised of an inner layer of nickel or palladium and an adjacent outer layer of gold.

Systems and methods are provided for producing an integrated circuit package, e.g., an SOIC package, having reduced or eliminated lead delamination caused by epoxy outgassing resulting from the die attach process in which an integrated circuit die is attached to a lead frame by an epoxy. The epoxy outgassing may be reduced by heating the epoxy during or otherwise in association with the die attach process, e.g. using a heating device provided at the die attach unit. Heating the epoxy may achieve additional cross-linking in the epoxy reaction, which may thereby reduce outgassing from the epoxy, which may in turn reduce or eliminate subsequent lead delamination. A heating device located at or near the die attach site may be used to heat the epoxy to a temperature of 55 C.5 C. during or otherwise in association with the die attach process.

The present invention relates to an electronic unit having at least one first electronic component and one second electronic component that are fastened to a substrate. A shielding is arranged between the first and second electronic components that comprises an elevated portion that projects from a plane defined by the substrate or that extends from its surface, that acts as a shielding and that is formed in one piece with the substrate.

The present invention relates to an electronic unit having at least one first electronic component and one second electronic component that are fastened to a substrate. A shielding is arranged between the first and second electronic components that comprises an elevated portion that projects from a plane defined by the substrate or that extends from its surface, that acts as a shielding and that is formed in one piece with the substrate.

A wire comprising a wire core with a surface, the wire core having a coating layer superimposed on its surface, wherein the wire core includes: (a) pure silver consisting of silver and further components; or (b) doped silver consisting of silver, at least one doping element, and further components; or (c) a silver alloy consisting of silver, palladium and further components; or (d) a silver alloy consisting of silver, palladium, gold, and further components; or (e) a doped silver alloy consisting of silver, palladium, gold, at least one doping element, and further components, wherein the individual amount of any further component is less than 30 wt.-ppm and the individual amount of any doping element is at least 30 wt.-ppm, and the coating layer is a single-layer of gold or palladium or a double-layer comprised of an inner layer of nickel or palladium and an adjacent outer layer of gold.

Systems and methods are provided for producing an integrated circuit package, e.g., an SOIC package, having reduced or eliminated lead delamination caused by epoxy outgassing resulting from the die attach process in which an integrated circuit die is attached to a lead frame by an epoxy. The epoxy outgassing may be reduced by heating the epoxy during or otherwise in association with the die attach process, e.g. using a heating device provided at the die attach unit. Heating the epoxy may achieve additional cross-linking in the epoxy reaction, which may thereby reduce outgassing from the epoxy, which may in turn reduce or eliminate subsequent lead delamination. A heating device located at or near the die attach site may be used to heat the epoxy to a temperature of 55 C.5 C. during or otherwise in association with the die attach process.

A bonding wire for a high-speed signal line for connecting a pad electrode of a semiconductor device and a lead electrode on a circuit board contains palladium (Pd), platinum (Pt), silver (Ag), and a trace additive element.

An electronic device may comprise a semiconductor element and a wire bond connecting the semiconductor element to a substrate. Using a woven bonding wire may improve the mechanical and electrical properties of the wire bond. Furthermore, there may be a cost benefit. Woven bonding wires may be used in any electronic device, for example in power devices or integrated logic devices.

An alloyed 2N copper wire for bonding in microelectronics contains 2N copper and one or more corrosion resistance alloying materials selected from Ag, Ni, Pd, Au, Pt, and Cr. A total concentration of the corrosion resistance alloying materials is between about 0.009 wt % and about 0.99 wt %.

An alloyed 2N copper wire for bonding in microelectronics contains 2N copper and one or more corrosion resistance alloying materials selected from Ag, Ni, Pd, Au, Pt, and Cr. A total concentration of the corrosion resistance alloying materials is between about 0.009 wt % and about 0.99 wt %.