A method for manufacturing a light emitting device includes: preparing a first substrate having an upper surface comprising an element placement region; placing a light emitting element in the element placement region; disposing an uncured, sheet-like light-transmissive member on the light emitting element and bringing an outer edge of a lower surface of the light-transmissive member into contact with an outer upper surface of the element placement region of the first substrate by pressing the light-transmissive member; and disposing a first protrusion portion along an outer edge of an upper surface of the light-transmissive member so that the first protrusion portion extends over the upper surface of the first substrate and the upper surface of the light-transmissive member.

An object of the present invention is to provide an Ag alloy bonding wire for a semiconductor device capable of extending the high-temperature life of a wire, reducing chip damage during ball bonding, and improving characteristics such as ball bonding strength in applications of on-vehicle memory devices. The Ag alloy bonding wire for a semiconductor device according to the present invention contains one or more of In and Ga for a total of 110 at ppm or more and less than 500 at ppm, and one or more of Pd and Pt for a total of 150 at ppm or more and less than 12,000 at ppm, and a balance being made up of Ag and unavoidable impurities.

A semiconductor package may include: a base layer; first to Nth semiconductor chips (N is a natural number of 2 or more) sequentially offset stacked over the base layer so that a chip pad portion of one side edge region is exposed, wherein the chip pad portion includes a chip pad and includes a redistribution pad that partially contacts the chip pad and extends away from the chip pad; and a bonding wire connecting the chip pad of a kth semiconductor chip among the first to Nth semiconductor chips to the redistribution pad of a k−1th semiconductor chip or a k+1th semiconductor chip when k is a natural number greater than 1 and the bonding wire connecting the chip pad of the kth semiconductor chip to a pad of the base layer or the redistribution pad of the k−1th semiconductor chip when k is 1.

A semiconductor package may include: a base layer; first to Nth semiconductor chips (N is a natural number of 2 or more) sequentially offset stacked over the base layer so that a chip pad portion of one side edge region is exposed, wherein the chip pad portion includes a chip pad and includes a redistribution pad that partially contacts the chip pad and extends away from the chip pad; and a bonding wire connecting the chip pad of a kth semiconductor chip among the first to Nth semiconductor chips to the redistribution pad of a k−1th semiconductor chip or a k+1th semiconductor chip when k is a natural number greater than 1 and the bonding wire connecting the chip pad of the kth semiconductor chip to a pad of the base layer or the redistribution pad of the k−1th semiconductor chip when k is 1.

There is provided a copper bonding wire that exhibits a favorable bondability even when a scrub at the time of bonding is reduced. The copper bonding wire is characterized in that when a sum of percentages of Cu, Cu.sub.2O, CuO and Cu(OH).sub.2 on a surface of the wire as measured by X-ray Photoelectron Spectroscopy (XPS) is defined as 100%, Cu[II]/Cu[I] which is a ratio of a total percentage of CuO and Cu(OH).sub.2 (Cu[II]) corresponding to bivalent Cu to a percentage of Cu.sub.2O (Cu[I]) corresponding to monovalent Cu falls within a range from 0.8 to 12.

The present application provides a device for disassembling electronics, the device comprising transporting means (4) and/or holding means (5) arranged to receive one or more objects containing one or more electronic components, the holding means (5) being adjustable, imaging means (3) for imaging the object and/or measuring means for measuring the object, one or more removal means (6) for removing one or more electronic components from the object, the means being operatively connected to a control unit (1). The present application also provides a method for disassembling electronics with the device.

The present application provides a device for disassembling electronics, the device comprising transporting means (4) and/or holding means (5) arranged to receive one or more objects containing one or more electronic components, the holding means (5) being adjustable, imaging means (3) for imaging the object and/or measuring means for measuring the object, one or more removal means (6) for removing one or more electronic components from the object, the means being operatively connected to a control unit (1). The present application also provides a method for disassembling electronics with the device.

There is provided a bonding wire for semiconductor devices that exhibits a favorable bondability even when being applied to wedge bonding at the room temperature, and also achieves an excellent bond reliability. The bonding wire includes a core material of Cu or Cu alloy (hereinafter referred to as a “Cu core material”), and a coating containing a noble metal formed on a surface of the Cu core material. A concentration of Cu at a surface of the wire is 30 to 80 at%.

A semiconductor package includes a die pad, a semiconductor die mounted on the die pad, a plurality of leads including a power lead disposed along a peripheral edge of the die pad, at least one connecting bar connecting the die pad, a power bar disposed on one side of the connecting bar, and a surface mount device (SMD) having a first terminal and a second terminal. The first terminal is electrically connected to the ground level through a first bond wire. The second terminal is electrically connected a power level through a second bond wire.

A semiconductor package includes a die pad, a semiconductor die mounted on the die pad, a plurality of leads including a power lead disposed along a peripheral edge of the die pad, at least one connecting bar connecting the die pad, a power bar disposed on one side of the connecting bar, and a surface mount device (SMD) having a first terminal and a second terminal. The first terminal is electrically connected to the ground level through a first bond wire. The second terminal is electrically connected a power level through a second bond wire.