A semiconductor device includes a first conductivity type semiconductor layer having a first and second surfaces, device and outer regions, a channel region of a second conductivity type in a surface layer portion of the first surface in the device region, an emitter region of a first conductivity type in a surface layer portion of the channel region, a gate electrode at the first surface in the device region, the gate electrode facing the channel region across a gate insulating film, a collector region of a second conductivity type in a surface layer portion of the second surface in the device region, an inner cathode region of a first conductivity type in the surface layer portion of the second surface in the device region, and an outer cathode region of a first conductivity type in the surface layer portion of the second surface in the outer region.

A semiconductor device according to one or more embodiment may include: an IGBT region including a first semiconductor region of a first conductivity type; a second semiconductor region of a second conductivity type arranged on the first semiconductor region; a third semiconductor region of the first conductivity type arranged on the second semiconductor region; a fourth semiconductor region of the second conductivity type arranged on the first semiconductor region and opposite the second semiconductor region; and a control electrode that is arranged via an insulating film opposite the second semiconductor region; and a diode region comprising a fifth semiconductor region of the second conductivity type on the first semiconductor region. In the semiconductor device according to one or more embodiments, an impurity concentration of the fifth semiconductor region may be lower than the impurity concentration of the second semiconductor region.

An MIM capacitor structure includes numerous inter-metal dielectrics. A trench is embedded within the inter-metal dielectrics. A capacitor is disposed within the trench. The capacitor includes a first electrode layer, a capacitor dielectric layer and a second electrode layer. The first electrode layer, the capacitor dielectric layer and the second electrode layer fill in and surround the trench. The capacitor dielectric layer is between the first electrode layer and the second electrode layer. A silicon oxide liner surrounds a sidewall of the trench and contacts the first electrode layer.

A semiconductor device includes a substrate layer having a floating base region of a first conductivity type. A first well of a second conductivity type and the floating base region form a first pn junction. A first conductive structure is electrically connected to the first well. A barrier region of the second conductivity type and the floating base region form an auxiliary pn junction. A second conductive structure is electrically connected to the floating base region through a rectifying structure. A pull-down structure is configured to produce a voltage drop between the barrier region and the second conductive structure, when charge carriers cross the auxiliary pn junction.

A semiconductor device of embodiments includes: a semiconductor layer having a first face and a second face; a first semiconductor region of a first conductive type in the semiconductor layer, in contact with the second face, and including a first portion having a first minimum width, a second portion having a second minimum width smaller than the first minimum width, and a third portion connecting the first portion and the second portion and having a third minimum width smaller than the second minimum width; a plurality of second semiconductor regions of a second conductive type in contact with the second face; a third semiconductor region of the second conductive type between the first semiconductor region and the first face; a fourth semiconductor region of the first conductive type; a fifth semiconductor region of the second conductive type; a gate electrode facing the fourth semiconductor region.

A semiconductor device includes: a semiconductor substrate; a trench gate portion on the semiconductor substrate; a surface electrode covering an upper side of the semiconductor substrate; and an interlayer insulating film insulating the trench gate portion from the surface electrode. The semiconductor substrate includes: a drift region; a body region above the drift region; a barrier region below at least a part of the body region; and a pillar region extending from the surface of the semiconductor substrate to the barrier region and in Schottky contact with the surface electrode. The interlayer insulating film has an acute angle between a top surface and a side surface thereof.

Provided is a semiconductor device including a semiconductor substrate; a transistor portion provided in the semiconductor substrate; a current sensing portion for detecting current flowing through the transistor portion; an emitter electrode set to an emitter potential of the transistor portion; a sense electrode electrically connected to the current sensing portion; and a Zener diode electrically connected between the emitter electrode and the sense electrode. Provided is a semiconductor device fabricating method including providing a transistor portion in a semiconductor substrate; providing a current sensing portion for detecting current flowing through the transistor portion; providing an emitter electrode set to an emitter potential of the transistor portion; providing a sense electrode electrically connected to the current sensing portion; and providing a Zener diode electrically connected between the emitter electrode and the sense electrode.

Solder bumps are placed in direct contact with the silicon substrate of an amplifier integrated circuit having a flip chip configuration. A plurality of amplifier transistor arrays generate waste heat that promotes thermal run away of the amplifier if not directed out of the integrated circuit. The waste heat flows through the thermally conductive silicon substrate and out the solder bump to a heat-sinking plane of an interposer connected to the amplifier integrated circuit via the solder bumps.

Provided is a semiconductor device comprising a semiconductor substrate that includes a transistor region; an emitter electrode that is provided on the semiconductor substrate; a first dummy trench portion that is provided on the transistor region of the semiconductor substrate and includes a dummy conducting portion that is electrically connected to the emitter electrode; and a first contact portion that is a partial region of the transistor region, provided between an end portion of a long portion of the first dummy trench portion and an end portion of the semiconductor substrate, and electrically connects the emitter electrode and a semiconductor region with a first conductivity type provided in the transistor region.

A semiconductor device of embodiments includes: a transistor region including a semiconductor layer having a first face and a second face opposite to the first face, a first transistor having a first gate electrode provided on a first face side of the semiconductor layer, and a second transistor having a second gate electrode provided on a second face side of the semiconductor layer; and an adjacent region adjacent to the transistor region and including the semiconductor layer and a third transistor having a third gate electrode electrically connected to the second gate electrode and provided on the second face side of the semiconductor layer and the third transistor having an absolute value of a threshold voltage smaller than an absolute value of a threshold voltage of the second transistor.