A semiconductor device includes a pre-molded leadframe mounting substrate. The substrate includes a die pad (configured to have a semiconductor die mounted thereon) and a first electrically conductive pad and a second electrically conductive pad. A strip of insulating material is molded between the first and second electrically conductive pads to provide a mutually electrically insulation and extends in a longitudinal direction with the first electrically conductive pad and the second electrically conductive pad lying on opposite sides of the strip of insulating material. A semiconductor die is arranged on the die pad in register with the strip of insulating material. A single electrically conductive ribbon extending in register with the strip of insulating material electrically couples the semiconductor die with both the first and second electrically conductive pads to provide a common current flow path from the semiconductor die towards the first and the second electrically conductive pads.

The present invention provides a semiconductor device including an insulating layer, a conductive layer bonded to one main surface of the insulating layer, a semiconductor element arranged such that the upper surface of the semiconductor element faces a direction same as the one main surface of the insulating layer, an upper electrode provided on the upper surface of the semiconductor element, a wiring member that has one end electrically bonded to the upper electrode of the semiconductor element and has another end electrically bonded to the conductive layer, and has a hollow portion, a first sealing material, and a second sealing material, in which the first sealing material seals at least part of the semiconductor element so as to be in contact with the semiconductor element, and the second sealing material seals the wiring member so as to be in contact with the wiring member.

The present invention provides a semiconductor device including an insulating layer, a conductive layer bonded to one main surface of the insulating layer, a semiconductor element arranged such that the upper surface of the semiconductor element faces a direction same as the one main surface of the insulating layer, an upper electrode provided on the upper surface of the semiconductor element, a wiring member that has one end electrically bonded to the upper electrode of the semiconductor element and has another end electrically bonded to the conductive layer, and has a hollow portion, a first sealing material, and a second sealing material, in which the first sealing material seals at least part of the semiconductor element so as to be in contact with the semiconductor element, and the second sealing material seals the wiring member so as to be in contact with the wiring member.

The present invention provides a semiconductor device including an insulating layer, a conductive layer bonded to one main surface of the insulating layer, a semiconductor element arranged such that the upper surface of the semiconductor element faces a direction same as the one main surface of the insulating layer, an upper electrode provided on the upper surface of the semiconductor element, a wiring member that has one end electrically bonded to the upper electrode of the semiconductor element and has another end electrically bonded to the conductive layer, and has a hollow portion, a first sealing material, and a second sealing material, in which the first sealing material seals at least part of the semiconductor element so as to be in contact with the semiconductor element, and the second sealing material seals the wiring member so as to be in contact with the wiring member.

The present invention provides a semiconductor device including an insulating layer, a conductive layer bonded to one main surface of the insulating layer, a semiconductor element arranged such that the upper surface of the semiconductor element faces a direction same as the one main surface of the insulating layer, an upper electrode provided on the upper surface of the semiconductor element, a wiring member that has one end electrically bonded to the upper electrode of the semiconductor element and has another end electrically bonded to the conductive layer, and has a hollow portion, a first sealing material, and a second sealing material, in which the first sealing material seals at least part of the semiconductor element so as to be in contact with the semiconductor element, and the second sealing material seals the wiring member so as to be in contact with the wiring member.

The present invention provides a semiconductor device including an insulating layer, a conductive layer bonded to one main surface of the insulating layer, a semiconductor element arranged such that the upper surface of the semiconductor element faces a direction same as the one main surface of the insulating layer, an upper electrode provided on the upper surface of the semiconductor element, a wiring member that has one end electrically bonded to the upper electrode of the semiconductor element and has another end electrically bonded to the conductive layer, and has a hollow portion, a first sealing material, and a second sealing material, in which the first sealing material seals at least part of the semiconductor element so as to be in contact with the semiconductor element, and the second sealing material seals the wiring member so as to be in contact with the wiring member.

The present invention provides a semiconductor device including an insulating layer, a conductive layer bonded to one main surface of the insulating layer, a semiconductor element arranged such that the upper surface of the semiconductor element faces a direction same as the one main surface of the insulating layer, an upper electrode provided on the upper surface of the semiconductor element, a wiring member that has one end electrically bonded to the upper electrode of the semiconductor element and has another end electrically bonded to the conductive layer, and has a hollow portion, a first sealing material, and a second sealing material, in which the first sealing material seals at least part of the semiconductor element so as to be in contact with the semiconductor element, and the second sealing material seals the wiring member so as to be in contact with the wiring member.

Provided is a semiconductor device having improved reliability. In the semiconductor device in an embodiment, a mark is provided correspondingly to the bonding area of a belt-like wiring exposed from an opening provided in a solder resist. As a result, in an alignment step for the wire bonding area, the coordinate position of the wire bonding area can be adjusted using not the end portion of the opening formed in the solder resist, but the mark formed correspondingly to the wire bonding area as a reference. Also, in the semiconductor device in the embodiment, the mark serving as a characteristic pattern is formed. This allows the wire bonding area to be adjusted based on camera recognition.

Provided is a semiconductor device having improved reliability. In the semiconductor device in an embodiment, a mark is provided correspondingly to the bonding area of a belt-like wiring exposed from an opening provided in a solder resist. As a result, in an alignment step for the wire bonding area, the coordinate position of the wire bonding area can be adjusted using not the end portion of the opening formed in the solder resist, but the mark formed correspondingly to the wire bonding area as a reference. Also, in the semiconductor device in the embodiment, the mark serving as a characteristic pattern is formed. This allows the wire bonding area to be adjusted based on camera recognition.

Provided is a semiconductor device having improved reliability. In the semiconductor device in an embodiment, a mark is provided correspondingly to the bonding area of a belt-like wiring exposed from an opening provided in a solder resist. As a result, in an alignment step for the wire bonding area, the coordinate position of the wire bonding area can be adjusted using not the end portion of the opening formed in the solder resist, but the mark formed correspondingly to the wire bonding area as a reference. Also, in the semiconductor device in the embodiment, the mark serving as a characteristic pattern is formed. This allows the wire bonding area to be adjusted based on camera recognition.