A semiconductor device includes a shielding wire formed across a semiconductor die and an auxiliary wire supporting the shielding wire, thereby reducing the size of a package while shielding the electromagnetic interference generated from the semiconductor die. In one embodiment, the semiconductor device includes a substrate having at least one circuit device mounted thereon, a semiconductor die spaced apart from the circuit device and mounted on the substrate, a shielding wire spaced apart from the semiconductor die and formed across the semiconductor die, and an auxiliary wire supporting the shielding wire under the shielding wire and formed to be perpendicular to the shielding wire. In another embodiment, a bump structure is used to support the shielding wire. In a further embodiment, an auxiliary wire includes a bump structure portion and wire portion and both the bump structure portion and the wire portion are used to support the shielding wire.

Electrode pads disposed on a first surface of a semiconductor element include a first pad located close to a corner and a second pad located apart from the corner compared with the first pad. A first wire connected to the first pad has a smaller Young's modulus than a second wire connected to the second pad. A thickness of an intermetallic compound layer formed by the first wire and the first pad is larger than a thickness of an intermetallic compound layer formed by the second wire and the second pad.

Electrode pads disposed on a first surface of a semiconductor element include a first pad located close to a corner and a second pad located apart from the corner compared with the first pad. A first wire connected to the first pad has a smaller Young's modulus than a second wire connected to the second pad. A thickness of an intermetallic compound layer formed by the first wire and the first pad is larger than a thickness of an intermetallic compound layer formed by the second wire and the second pad.

A semiconductor device comprising: bonding pads formed in the first wiring layer; and first wirings and a second wiring formed in a second wiring layer provided one layer below the first wiring layer. Here, a power supply potential and a reference potential are to be supplied to each first wiring and the second wiring, respectively. Also, in transparent plan view, each of the first wirings is arranged next to each other, and is arranged at a first position of the second wiring layer, that is overlapped with the bonding region of the first bonding pad. Also, in transparent plan view, the second wiring is arranged at a second position of the second wiring layer, that is overlapped with a first region located between the first bonding pad and the second bonding pad. Further, a width of each first wiring is less than a width of the second wiring.

A semiconductor device comprising: bonding pads formed in the first wiring layer; and first wirings and a second wiring formed in a second wiring layer provided one layer below the first wiring layer. Here, a power supply potential and a reference potential are to be supplied to each first wiring and the second wiring, respectively. Also, in transparent plan view, each of the first wirings is arranged next to each other, and is arranged at a first position of the second wiring layer, that is overlapped with the bonding region of the first bonding pad. Also, in transparent plan view, the second wiring is arranged at a second position of the second wiring layer, that is overlapped with a first region located between the first bonding pad and the second bonding pad. Further, a width of each first wiring is less than a width of the second wiring.

An apparatus includes a substrate for mounting an integrated circuit. The substrate includes a primary layer including a first surface that is a first external surface of the substrate. The substrate includes an inner layer that is located below the primary layer and including a second surface. A portion of the second surface of the inner layer is exposed via an open area associated with the primary layer. The inner layer includes a first multiple of wire bond pads that are exposed via the open area associated with the primary layer.

An apparatus includes a substrate for mounting an integrated circuit. The substrate includes a primary layer including a first surface that is a first external surface of the substrate. The substrate includes an inner layer that is located below the primary layer and including a second surface. A portion of the second surface of the inner layer is exposed via an open area associated with the primary layer. The inner layer includes a first multiple of wire bond pads that are exposed via the open area associated with the primary layer.

A semiconductor package includes a leadframe including a die pad and a plurality of leads including a first lead, wherein the first lead includes a first ball bond. A semiconductor die having a plurality of bond pads including a first bond pad is on the die pad including a second ball bond on the first bond pad and a stitch bond on the second ball bond. A first wirebond connection is between the first ball bond and the stitch bond.

A semiconductor device includes a first substrate, a second substrate spaced apart from the first substrate in a first direction, a first metal layer on the first substrate, a second metal layer on the first substrate and spaced apart from the first metal layer in a second direction, a first semiconductor element, and a second semiconductor element. The second substrate includes a main wiring and a signal wiring. The first semiconductor element includes a first electrode on the first metal layer, a second electrode connected to the main wiring, and a first gate electrode connected to the signal wiring. The second semiconductor element includes a third electrode on the second metal layer, a fourth electrode connected to the main wiring, and a second gate electrode connected to the signal wiring. During operation, current flows in wiring layers of the main wiring in opposite directions.

A semiconductor device includes a first substrate, a second substrate spaced apart from the first substrate in a first direction, a first metal layer on the first substrate, a second metal layer on the first substrate and spaced apart from the first metal layer in a second direction, a first semiconductor element, and a second semiconductor element. The second substrate includes a main wiring and a signal wiring. The first semiconductor element includes a first electrode on the first metal layer, a second electrode connected to the main wiring, and a first gate electrode connected to the signal wiring. The second semiconductor element includes a third electrode on the second metal layer, a fourth electrode connected to the main wiring, and a second gate electrode connected to the signal wiring. During operation, current flows in wiring layers of the main wiring in opposite directions.