A semiconductor device includes: a first chip mounting portion and a second chip mounting portion adjacent to each other in a first direction; a first semiconductor chip and a third semiconductor chip adjacent to each other in a second direction and mounted on the first chip mounting portion; and a second semiconductor chip mounted on the second chip mounting portion. The third semiconductor has: one or more first transformers used to transmit a signal from the first semiconductor chip to the second semiconductor chip; and one or more second transformers used to transmit a signal from the second semiconductor chip to the first semiconductor chip. In plan view, the first and second transformers are arranged along a side facing the second semiconductor chip, and the one of more first transformers are arranged closer to the first semiconductor chip than the one of more second transformers.

Provided is a metal component that is used for manufacturing a semiconductor device, the metal component including a substrate having a conductivity; and a noble metal plating layer formed on all or part of a surface of the substrate, wherein the noble metal plating layer has a lumpy protrusion on a surface of the noble metal plating layer.

A semiconductor chip is provided. The semiconductor chip may include a front side including a control chip contact and a first controlled chip contact, a back side including a second controlled chip contact, a backside metallization formed over the back side in contact with the second controlled chip contact, and a stop region extending at least partially along an outer edge of the back side between a contact portion of the backside metallization and the outer edge of the back side. The contact portion is configured to be attached to an electrically conductive structure by a die attach material, a surface of the stop region is recessed with respect to a surface of the contact portion, and/or the surface of the stop region has a lower wettability with respect to the die attach material than the contact portion.

A lead frame including a die pad having a first surface and a second surface opposite the first surface, a lead having a third surface flush with the first surface and a fourth surface opposite the third surface, and a link portion connecting the die pad and the lead, wherein the link portion includes a first portion that surrounds the die pad between the die pad and the lead in a plan view, wherein the first portion has a fifth surface flush with the first surface and the third surface, and has a sixth surface opposite the fifth surface, wherein the second surface is closer to a plane containing the first surface, the third surface, and the fifth surface than is the fourth surface, and wherein the sixth surface is closer to the plane containing the first surface, the third surface, and the fifth surface than is the second surface.

A semiconductor device can include: a semiconductor chip including a first and second surface, a first electrode on the first surface, an active area on the second surface, a second electrode on the second surface, and a third electrode on the second surface; a first conductive member in the active area of the semiconductor chip and electrically connected to the semiconductor chip; a second conductive member in a second area and isolated from the first conductive member, the second area an area in which, when viewed from above, with respect to a first area of the active area in which the first conductive member is not provided, circles sharing centers of shortest distances between an outer periphery of the first conductive member and an outer periphery of the active area can be drawn largest in the first area; and a lead terminal connected to the first conductive member.

A system includes: an inverter configured to convert DC power from a battery to AC power to drive a motor, wherein the inverter includes: a first power module, the first power module including: a first substrate including a first conductive layer; a second substrate including a second conductive layer; a power switch between the first conductive layer and the second conductive layer, the power switch including a gate connection, wherein the power switch is configured to selectively electrically connect the first conductive layer to the second conductive layer based on a signal to the gate connection; and a point-of-use controller between the first conductive layer and the second conductive layer, the point-of-use controller configured to provide the signal to the gate connection to control the power switch.

A semiconductor device includes: a conductive substrate; a plurality of semiconductor chips each having a first main electrode on a bottom surface side and a second main electrode on a top surface side, the plural semiconductor chips being arranged to form a first column and a second column connected parallel to each other on the conductive substrate; and a control wiring substrate including an insulating layer, a plurality of top-surface conductive layers provided on a top surface of the insulating layer, and a plurality of bottom-surface conductive layers each having a narrower width than the insulating layer and provided on a bottom surface of the insulating layer, the bottom-surface conductive layers being arranged on the conductive substrate between the first column and the second column of the semiconductor chips.

A semiconductor device according to an embodiment includes a metal frame separated from a semiconductor chip, and a metal connector connected to the semiconductor chip via a first bonding material on an electrode of the semiconductor chip, and connected to the metal frame via a second bonding material on a disposition surface of the metal frame. The metal connector includes: a first part connected to the first bonding material and serving as a first end; a second part connected to the first part and rising toward the metal frame; a third part connected to the second part and serving as a second end; and a notch that opens on a second-end-side surface formed on the third part, adjacent to a connecting surface connected to the second bonding material, and opposed to a tilted surface of the metal frame adjacent to and tilted with respect to the disposition surface.