An integrated circuit (IC) package includes an interconnect comprising patches of unoxidized metal that are circumscribed by a region of roughened metal formed of oxidized metal. The IC package also includes a die mounted on the interconnect. The die is conductively coupled to at least a subset of the patches of unoxidized metal.

A light emitting diode package, including: a housing, wherein the housing includes a primary cavity, a primary cavity light emitting surface, and a secondary cavity, wherein the secondary cavity is positioned adjacent to the primary cavity; a lead frame associated with the housing; a light emitting diode light source, wherein the light emitting diode light source is associated with the primary cavity of the housing; an encapsulant filled into the primary cavity, wherein the encapsulant is associated with a light converting element; and wherein the ratio of the surface area of the primary cavity light emitting surface to that of the light emitting diode light source is less than 2.0.

A lead frame for assembling a smart card is formed with a substrate having first and second opposing major surfaces. A die receiving area is formed in the first major surface of the substrate and surrounded by conductive vias. A conductive coating is formed on the second major surface of the substrate and patterned to form electrical contact pads over the conductive vias. A conductive trace is formed on the first major surface of the substrate. The conductive trace extends between at least two adjacent vias and partially surrounds the at least two adjacent conductive vias, thereby forming a gap in the portion of the trace that surrounds the vias. An electrical connection between an integrated circuit chip and the conductive via extends over the gap. The gap prevents the electrical connection from inadvertently contacting the conductive trace.

A lead frame for assembling a smart card is formed with a substrate having first and second opposing major surfaces. A die receiving area is formed in the first major surface of the substrate and surrounded by conductive vias. A conductive coating is formed on the second major surface of the substrate and patterned to form electrical contact pads over the conductive vias. A conductive trace is formed on the first major surface of the substrate. The conductive trace extends between at least two adjacent vias and partially surrounds the at least two adjacent conductive vias, thereby forming a gap in the portion of the trace that surrounds the vias. An electrical connection between an integrated circuit chip and the conductive via extends over the gap. The gap prevents the electrical connection from inadvertently contacting the conductive trace.

The present invention relates to a structure for packaging and the method for manufacturing the same. The structure for packaging comprise two or more metal members disposed on a substrate or a semiconductor device. A patterned layer and an insulation layer are disposed surrounding the metal members. There is a gap between the patterned layer and the insulation layer. Thereby, while bonding the metal members, metal spilling can be avoided, for further preventing the structure from short circuit or current leakage.

A method includes applying a die attach material to a die pad of an integrated circuit package. The die attach material is employed as a bonding material to the die pad. The method includes mounting an integrated circuit die to the die pad of the integrated circuit via the die attach material. The method includes printing an adhesion deposition material on the die attach material appearing at the interface of the integrated circuit die and the die pad of the integrated circuit package to mitigate delamination between the integrated circuit die and the die pad.

A method includes applying a die attach material to a die pad of an integrated circuit. The die attach material is employed as a bonding material to the die pad. The method includes mounting an integrated circuit die to the die pad of the integrated circuit via the die attach material. The method includes printing an adhesion deposition material on the die attach material appearing at the interface of the integrated circuit die and the die pad of the integrated circuit to mitigate delamination between the integrated circuit die and the die pad.

In a microelectronic package, a first wire bond wire is coupled to an upper surface of a substrate. A first bond mass is coupled to another end of the first wire bond wire. A second wire bond wire is coupled to the upper surface. A second bond mass is coupled to another end of the second wire bond wire. The first and second wire bond wires laterally jut out horizontally away from the upper surface of the substrate for at least a distance of approximately 2 to 3 times a diameter of both the first wire bond wire and the second wire bond wire. The first wire bond wire and the second wire bond wire are horizontal for the distance with respect to being co-planar with the upper surface within +/10 degrees.

A method includes applying a die attach material to a die pad of an integrated circuit. The die attach material is employed as a bonding material to the die pad. The method includes mounting an integrated circuit die to the die pad of the integrated circuit via the die attach material. The method includes printing an adhesion deposition material on the die attach material appearing at the interface of the integrated circuit die and the die pad of the integrated circuit to mitigate delamination between the integrated circuit die and the die pad.

A method includes applying a die attach material to a die pad of an integrated circuit. The die attach material is employed as a bonding material to the die pad. The method includes mounting an integrated circuit die to the die pad of the integrated circuit via the die attach material. The method includes printing an adhesion deposition material on the die attach material appearing at the interface of the integrated circuit die and the die pad of the integrated circuit to mitigate delamination between the integrated circuit die and the die pad.