According to an embodiment, the semiconductor device (100) comprises a semiconductor body (1) with a first side (10) and a second side (20) opposite to the first side. The semiconductor device further comprises a first thyristor structure (I) and a second thyristor structure (II). The second thyristor structure is arranged laterally beside the first thyristor structure. Each of the first and the second thyristor structure comprises a first base region (11a, 11b) at the first side and agate electrode (1a, 1b) on the first side adjoining the assigned first base region. The first base regions of the two thyristor structures are regions of the semiconductor body and are of the same conductivity type. The gate electrodes of the thyristor structures are individually and independently electrically contactable.

A transistor device and a method for manufacturing a transistor device are disclosed. The transistor device includes a semiconductor body and a plurality of transistor cells. Each transistor cell includes: a drift region, a body region, and a source region; a gate electrode connected to a gate node; and a field electrode connected to a source node. The gate electrode is dielectrically insulated from the body region by a gate dielectric, and is arranged in a first trench extending from a first surface into the semiconductor body. The field electrode is dielectrically insulated from the drift region by a high-k dielectric, and is arranged in a second trench. The second trench extends from the first surface into the semiconductor body and is spaced apart from the first trench, and the field electrode extends at least as deep as the first trench into the semiconductor body.

A power semiconductor device comprises a semiconductor body, a gate electrode, and an extraction electrode, wherein the semiconductor body comprises a source region of a first conductivity type, well region of a second conductivity type different from the first conductivity type at the gate electrode, a drift region which is of the first conductivity type, and a barrier region which is of the first conductivity type, the barrier region is located between the drift region and the extraction electrode.

A semiconductor device includes: a transistor provided in a first region of a semiconductor layer in a plan view; a transistor provided in a second region adjacent to the first region of the semiconductor layer in the plan view; and a drain pad provided in a third region not overlapping the first region and the second region in the plan view. In the plan view, the first region and the second region are one region and an other region that divide an area of the semiconductor layer excluding the third region in half. In the plan view, the transistors are arranged in a first direction. The center of the third region is located on a straight center line that divides the semiconductor layer in half in the first direction and is orthogonal to the first direction. In the plan view, the drain pad is contained in the third region.

A power semiconductor device having a barrier region is provided. A power unit cell of the power semiconductor device has at least two trenches that may both extend into the barrier region. The at least two trenches may both have a respective trench electrode coupled to a control terminal of the power semiconductor device. For example, the trench electrodes are structured to reduce the total gate charge of the power semiconductor device. The barrier region may be p-doped and vertically confined, i.e., in and against the extension direction, by the drift region. The barrier region can be electrically floating.

There is provided a semiconductor device including: a drift region of a first conductivity type disposed in a semiconductor substrate; a base region of a second conductivity type disposed above the drift region; an emitter region of the first conductivity type disposed above the base region; a plurality of trench portions arrayed in a predetermined array direction on a front surface side of the semiconductor substrate; a trench contact disposed on the front surface side of the semiconductor substrate between two adjacent trench portions; and a contact layer of the second conductivity type disposed under the trench contact and having a higher doping concentration than the base region, wherein a lower end of the trench contact is deeper than a lower end of the emitter region, and the emitter region and the contact layer are in contact with each other at a side wall of the trench contact.

A semiconductor device includes a semiconductor layer made of SiC. A transistor element having an impurity region is formed in a front surface portion of the semiconductor layer. A first contact wiring is formed on a back surface portion of the semiconductor layer, and defines one electrode electrically connected to the transistor element. The first contact wiring has a first wiring layer forming an ohmic contact with the semiconductor layer without a silicide contact and a second wiring layer formed on the first wiring layer and having a resistivity lower than that of the first wiring layer.

The gate electrode includes a first side surface portion facing a region of a side surface of a mesa part, a second side surface portion positioned at a side opposite to the first side surface portion, a bottom portion oblique to the first and second side surface portions, the bottom portion connecting the first side surface portion and the second side surface portion, a first corner portion positioned between the first side surface portion and the bottom portion, and a second corner portion positioned between the second side surface portion and the bottom portion. An angle between a first straight line and a second straight line is not more than 60. The first straight line is a straight line extending in a first direction and passing through the first corner portion. The second straight line is a straight line passing through the first and second corner portions.

Provided is a semiconductor device including: a semiconductor substrate including an active portion in which transistor portions and diode portions are alternately provided and provided with a plurality of trench portions extending in an extending direction of the transistor portion and the diode portion; an emitter electrode provided above a front surface of the semiconductor substrate; and a protective film of polyimide provided on an upper surface of the emitter electrode, wherein the diode portion includes a lifetime control region including a lifetime killer irradiated from a front surface side of the semiconductor substrate, wherein the active portion includes a protected region provided with the protective film and an unprotected region not provided with the protective film, and wherein the diode portion is included in the unprotected region and the protected region is included in the transistor portion.

An SiC semiconductor device comprises: a chip that includes an SiC monocrystal and has a main surface; a trench structure that has a first side wall extending in an a-axis direction of the SiC monocrystal and a second side wall extending in an m-axis direction of the SiC monocrystal and is formed in the main surface; and a contact region of a first conductivity type that is formed in a region inside the chip along the trench structure at an interval in the m-axis direction from the first side wall.