A semiconductor package assembly includes a carrier with a die attach surface and a contact pad separated from the die attach surface, a semiconductor die mounted on the die attach surface, the semiconductor die having a front side metallization that faces away from the die attach surface, an interconnect ribbon attached to the semiconductor die and the contact pad such that the interconnect ribbon electrically connects the front side metallization to the contact pad, and an electrically insulating encapsulant body that encapsulates the semiconductor die and at least part of the interconnect ribbon. The interconnect ribbon includes a layer stack of a first metal layer and a second layer formed on top of the first metal layer. The first metal layer includes a different metal as the second metal layer. The first metal layer faces the front side metallization.

A technique capable of shortening process time for plasma cleaning is provided. A method of manufacturing a semiconductor device includes a step of preparing a substrate including a plurality of device regions each including a semiconductor chip electrically connected to a plurality of terminals formed on a main surface by a wire, a step of delivering the substrate while emitting plasma generated in atmospheric pressure to the main surface of the substrate, a step of delivering the substrate while capturing an image of a region of the main surface of the substrate and a step of forming a sealing body by sealing the semiconductor chip and the wire with a resin.

A technique capable of shortening process time for plasma cleaning is provided. A method of manufacturing a semiconductor device includes a step of preparing a substrate including a plurality of device regions each including a semiconductor chip electrically connected to a plurality of terminals formed on a main surface by a wire, a step of delivering the substrate while emitting plasma generated in atmospheric pressure to the main surface of the substrate, a step of delivering the substrate while capturing an image of a region of the main surface of the substrate and a step of forming a sealing body by sealing the semiconductor chip and the wire with a resin.

A semiconductor storage device according to an embodiment includes a substrate, a first semiconductor chip, and a second semiconductor chip. The first semiconductor chip includes a first surface contacting with the substrate, a second surface on an opposite side to the first surface, and a first pad provided on the second surface. The second semiconductor chip includes a third surface contacting with the second surface, a fourth surface on an opposite side to the third surface, and a cutout portion. The cutout portion is provided at a corner portion where the third surface crosses a lateral surface between the third surface and the fourth surface. The cutout portion overlaps with at least a part of the first pad as viewed from above the fourth surface.

A semiconductor storage device according to an embodiment includes a substrate, a first semiconductor chip, and a second semiconductor chip. The first semiconductor chip includes a first surface contacting with the substrate, a second surface on an opposite side to the first surface, and a first pad provided on the second surface. The second semiconductor chip includes a third surface contacting with the second surface, a fourth surface on an opposite side to the third surface, and a cutout portion. The cutout portion is provided at a corner portion where the third surface crosses a lateral surface between the third surface and the fourth surface. The cutout portion overlaps with at least a part of the first pad as viewed from above the fourth surface.

A semiconductor device includes: a semiconductor module including a switching device, a first wiring connected to the switching device, a second wiring positioned adjacent to the first wiring and generating induced electromotive force according to a change in an electric current flowing in the first wiring, and a sealing material sealing the switching device, the first wiring and the second wiring, wherein both of one end and the other end of the second wiring are exposed from the sealing material; a substrate including a GND electrode connected to the one end and on which the semiconductor module is mounted; and a diode rectifying the induced electromotive force output from the other end.

A semiconductor device includes: a semiconductor module including a switching device, a first wiring connected to the switching device, a second wiring positioned adjacent to the first wiring and generating induced electromotive force according to a change in an electric current flowing in the first wiring, and a sealing material sealing the switching device, the first wiring and the second wiring, wherein both of one end and the other end of the second wiring are exposed from the sealing material; a substrate including a GND electrode connected to the one end and on which the semiconductor module is mounted; and a diode rectifying the induced electromotive force output from the other end.

A semiconductor device includes a substrate and a semiconductor die including an active surface with bond pads, an opposite inactive surface, and stepped side surfaces extending between the active surface and the inactive surface. The stepped side surfaces include a first planar surface extending from the inactive surface towards the active surface, a second planar surface extending from the active surface towards the inactive surface, and a side surface offset between the first planar surface and the second planar surface. The semiconductor device further includes an adhesive layer covering at least a portion of a surface area of the second surface and attaching the semiconductor die to the substrate.

A semiconductor device includes a substrate and a semiconductor die including an active surface with bond pads, an opposite inactive surface, and stepped side surfaces extending between the active surface and the inactive surface. The stepped side surfaces include a first planar surface extending from the inactive surface towards the active surface, a second planar surface extending from the active surface towards the inactive surface, and a side surface offset between the first planar surface and the second planar surface. The semiconductor device further includes an adhesive layer covering at least a portion of a surface area of the second surface and attaching the semiconductor die to the substrate.

An electronic structure, an electronic package structure and method of manufacturing an electronic device are provided. The electronic structure includes a carrier and a protection layer. The carrier includes a first pad, a second pad and a first dielectric layer. The first pad is at a side of the carrier and configured to bond with a conductive pad. The second pad is at the side of carrier and configured to electrically connect an exterior circuit. The first dielectric layer includes a first portion around the first pad and a second portion around the second pad, wherein a top surface of the first portion and a top surface of the second portion are substantially coplanar. The protection layer is on the second pad and covers the second pad.