A package structure is provided. The package structure includes a substrate, a conductive pad, and a conductive wire. The conductive pad is disposed over the substrate. The conductive wire includes an end portion connected to the conductive pad, wherein a grain arrangement of the end portion is distinct from a grain arrangement of the conductive pad.

A light emitting device includes: a base comprising a first lead, a second lead, and a supporting member; a light emitting element mounted on the first lead; a protection element mounted on the second lead; a wire including a first end and a second end, wherein the first end is connected to an upper surface of the first lead, and the second end is connected to a first terminal electrode of the protection element; a resin frame located on an upper surface of the base, wherein the resin frame covers at least part of the protection element and surrounds the light emitting element and the first end of the wire; a first resin member surrounded by the resin frame and covering the light emitting element and the first end of the wire; and a second resin member covering the resin frame and the first resin member.

A method comprises heating a first electrically conductive layer that is to be electrically contacted, and that is arranged on a first element, and pressing a first end of a bonding wire on the first electrically conductive layer by exerting pressure to the first end of the bonding wire, and further by exposing the first end of the bonding wire to ultrasonic energy, thereby deforming the first end of the bonding wire and creating a permanent substance-to-substance bond between the first end of the bonding wire and the first electrically conductive layer. The bonding wire either comprises a rounded cross section with a diameter of at least 125 m or a rectangular cross section with a first width of at least 500 m and a first height of at least 50 m.

A light emitting device includes: a base comprising a first lead, a second lead, and a supporting member; a light emitting element mounted on the first lead; a protection element mounted on the second lead; a wire including a first end and a second end, wherein the first end is connected to an upper surface of the first lead, and the second end is connected to a first terminal electrode of the protection element; a resin frame located on an upper surface of the base, wherein the resin frame covers at least part of the protection element and surrounds the light emitting element and the first end of the wire; a first resin member surrounded by the resin frame and covering the light emitting element and the first end of the wire; and a second resin member covering the resin frame and the first resin member.

A semiconductor device is provided to reduce thermal fatigue in a junction portion of an external wiring to enhance long-term reliability, where the semiconductor device includes a semiconductor substrate, a transistor portion and a diode portion that are alternately arranged along a first direction parallel to a front surface of the semiconductor substrate inside the semiconductor substrate, a surface electrode that is provided above the transistor portion and the diode portion and that is electrically connected to the transistor portion and the diode portion, an external wiring that is joined to the surface electrode and that has a contact width with the surface electrode in the first direction, the contact width being larger than at least one of a width of the transistor portion in the first direction and a width of the diode portion in the first direction.

A semiconductor device 10 includes a pair of electrodes 16 and a conductive connection member 21 electrically bonded to the pair of electrodes 16. At least a portion of a perimeter of a bonding surface 24 of at least one of the pair of electrodes 16 and the conductive connection member 21 includes an electromigration reducing area 22.

A light emitting device includes: a base comprising a first lead, a second lead, and a supporting member; a light emitting element mounted on the first lead; a protection element mounted on the second lead; a wire including a first end and a second end, wherein the first end is connected to an upper surface of the first lead, and the second end is connected to a first terminal electrode of the protection element; a resin frame located on an upper surface of the base, wherein the resin frame covers at least part of the protection element and surrounds the light emitting element and the first end of the wire; a first resin member surrounded by the resin frame and covering the light emitting element and the first end of the wire; and a second resin member covering the resin frame and the first resin member.

An electrical interconnection includes a wire loop having a first end bonded to a first bonding site using a first bonding portion, and a second end bonded to a second bonding site using a second bonding portion. The second bonding portion includes a folded portion having a wire that extends from the second end of the wire loop and is folded on the second bonding site. The folded portion includes a first folded portion connected to the second end of the wire loop and extending toward the first bonding site, a second folded portion provided on the first folded portion, and a tail protruding from a portion of the second folded portion. An interface is formed between the first and second folded portions. A top surface of the second folded portion includes an inclined surface recessed toward the first folded portion.

A semiconductor device includes a die pad, a semiconductor chip with a bonding pad being formed, a lead one end of which is located in the vicinity of the semiconductor chip, a coupling wire that connects an electrode and the lead, and a sealing body that seals the semiconductor chip, the coupling wire, a part of the lead, and a part of the die pad. A lower surface of the die pad is exposed from a lower surface of the sealing body, the die pad and the coupling wire are comprised of copper, and a thickness of the semiconductor chip is larger than the sum of a thickness of the die pad and a thickness from an upper surface of the semiconductor chip to an upper surface of the sealing body.

According to one embodiment, a semiconductor device includes a semiconductor element on a substrate. A first surface of the semiconductor element faces away from the substrate and a second surface faces the substrate. A first surface electrode is on the first surface of the semiconductor element. A bonding wire is connected to the first surface electrode at a bonding portion. A first sealing member covers the bonding portion. A second sealing member covers a portion of the first surface electrode outside the bonding portion. A third sealing member covers the first sealing member and the second sealing member.