Abstract: A semiconductor device of an embodiment includes first and second electrodes; first and second gate electrodes; and semiconductor layer including first and second planes, the semiconductor layer including a first semiconductor region of first conductivity type including first portion, second portion having a carrier concentration higher than the first portion, and third portion having a carrier concentration lower than the second portion; a second semiconductor region of second conductivity type between the first semiconductor region and the first plane and facing the first gate electrode; a third semiconductor region of first conductivity type between the second semiconductor region and the first plane and contacting the first electrode; a fourth semiconductor region of second conductivity type between the first semiconductor region and the second plane and facing the second gate electrode; and a fifth semiconductor region of first conductivity type between the fourth semiconductor region and the second plan

Abstract: A semiconductor device includes a semiconductor substrate including first and second surfaces, and a first semiconductor layer of a first conductivity type, a first electrode on the first surface, a first control electrode that is inwardly from the first surface and electrically insulated from the semiconductor substrate and the first electrode, a second control electrode that is inwardly from the first surface, electrically insulated from the semiconductor substrate and the first electrode via a fourth insulating film, and biased independently from the first control electrode, a third control electrode on the second surface and electrically insulated from the semiconductor substrate, and a second electrode on the second surface and electrically connected to the semiconductor substrate.

Abstract: A semiconductor device of an embodiment includes semiconductor layer including first and second planes, and in order from the first plane's side to the second plane's side, first region of first conductivity type, second region of second conductivity type, third region of second conductivity type having second conductivity type impurity concentration higher than the second region, fourth region of first conductivity type, and fifth region of second conductivity type, and including first and second trench on the first plane's side; first gate electrode in the first trench; first gate insulating film in contact with the fifth semiconductor region; second gate electrode in the second trench; second gate insulating film; a first electrode on the first plane; second electrode on the second plane; first gate electrode pad connected to the first gate electrode; and second gate electrode pad connected to the second gate electrode.

Abstract: It is a purpose of the present invention to provide an insulated gate bipolar transistor device or the like that exhibits high performance and that is suitable for mass production. The insulated bipolar transistor device includes multiple trench structures including at least a trench gate, a first dummy trench, and a second dummy trench. The first dummy trench and the second dummy trench are configured as adjacent trenches. The trench gate is connected to a gate electrode layer. The first dummy trench and the second dummy trench are connected to an emitter electrode layer, and are not connected to the gate electrode layer. A first conductive source layer is also formed between the first dummy trench and the second dummy trench.

Abstract: A semiconductor device includes a semiconductor body including first to fourth semiconductor layers. The second semiconductor layer of second conductivity type is provided on the first semiconductor layer of first conductivity type; the third semiconductor layer of first conductivity type is provided selectively on the second semiconductor layer; and the fourth semiconductor layer of second conductivity type is provided selectively on the second semiconductor layer. The semiconductor device further includes first and second control electrodes. The first and second control electrodes are provided inside the semiconductor body and oppose the second semiconductor layer with first and second insulating films interposed, respectively, and are arranged alternately with a third insulating layer interposed. The first control electrode contacts the third insulating layer at a first surface thereof, and the second control electrode contacts the third insulating layer at a second surface opposite to the first surface.

Abstract: A semiconductor device includes a semiconductor layer having a first plane and a second plane; an emitter electrode on a side of the first plane; at least one collector electrode on a side of the second plane; a first gate electrode on the side of the first plane; at least one second gate electrode on the side of the second plane; a drift region of a first conductivity-type in the semiconductor layer; a collector region of a second conductivity-type in the semiconductor layer; and a first conductivity-type region of the first conductivity-type provided between a part of the collector region and the second plane, wherein the semiconductor device has a first effective gate distance and a second effective gate distance different from the first effective gate distance.

Abstract: A semiconductor device includes a semiconductor body; a first electrode on the semiconductor body; control electrodes provided in the semiconductor body along the surface thereof; and first films electrically insulating the control electrodes from the semiconductor body. The semiconductor body includes first, third, sixth layers of a first conductivity type, and second, fourth, fifth layers of a second conductivity type. The second to sixth layers are provided between the first electrode and the first layer. The second and third layers are positioned between two adjacent control electrodes. The fourth to sixth layers are positioned between other two adjacent control electrodes. The sixth layer positioned between the fourth layer and the fifth layer. The sixth layer includes a major portion and a boundary portion between the major portion and one of the first films. An impurity concentration in the boundary portion is lower than that in the major portion.

Abstract: A semiconductor circuit of an embodiment includes semiconductor device and a control circuit. The semiconductor device includes a semiconductor layer that has a first region of a first-conductivity type, a second region of a second-conductivity type, a third region of the first-conductivity type, fourth region of the second-conductivity type, first and second trench, first and second gate electrode, a first gate insulating film in contact with the fourth region, and a second gate insulating film spaced away from the fourth region. The semiconductor device includes a first gate electrode pad connected to the first gate electrode, and a second gate electrode pad connected to the second gate electrode. Prior to changing a first gate voltage from a turn-ON voltage to a turn-OFF voltage, a second gate voltage changed from a first voltage to a second voltage. The second voltage is a negative voltage when the first-conductivity type is p-type.

Abstract: A semiconductor device includes a third electrode between a first semiconductor region and a second electrode, a fourth electrode between the first semiconductor region and the second electrode, a second semiconductor region between the first semiconductor region and the second electrode and between the third electrode and the fourth electrode, a third semiconductor region between the second semiconductor region and the second electrode, a fourth electrode between the first semiconductor region and the second electrode to be electrically connected to the second electrode, and a fifth semiconductor region between the first electrode and the first semiconductor region. A first insulating film is provided between the third electrode and the first semiconductor region, the second semiconductor region, the third semiconductor region and the second electrode.

Abstract: A semiconductor device according to as embodiment includes a semiconductor layer having a first plane and a second plane; a first trench provided in the semiconductor layer; a first gate electrode provided in the first trench; a second trench provided in the semiconductor layer; a second gate electrode provided in the second trench; a third trench provided in the semiconductor layer; a first resistive layer provided in the third trench; a first electrode provided on a side of the first plane of the semiconductor layer; a second electrode provided on a side of the second plane of the semi conductor layer; and a gate electrode pad provided on the side of the first plane of the semiconductor layer, is electrically connected to the first gate electrode through the first resistive layer, and is electrically connected to the second gate electrode.

Abstract: According to one embodiment, a semiconductor device includes a first electrode, a second electrode, a semiconductor layer provided between the first electrode and the second electrode, a plurality of gate electrodes provided in the semiconductor layer and extending in a first direction, a plurality of gate interconnects provided in the semiconductor layer and connected with the gate electrodes, the gate interconnects extending in a second direction crossing the first direction, an insulating film provided between the gate electrodes and the semiconductor layer, and between the gate interconnects and the semiconductor layer, and an inter-layer insulating film provided between the gate electrodes and the second electrode, and between the gate interconnects and the second electrode.

Abstract: A semiconductor device includes a semiconductor layer between a collector electrode and an emitter electrode. The semiconductor layer includes a base region of a first conductivity type, a first collector layer of a second conductivity type between the collector electrode in a cell region in which an emitter layer is arranged and the base layer, and a second collector layer of the second conductivity type between the collector electrode in a boundary region in which a gate wiring is arranged and the base layer. A peak value of an impurity concentration of the second conductivity type in the second collector layer is higher than a peak value of an impurity concentration of the second conductivity type in the first collector layer.

Abstract: A semiconductor device includes a third electrode between a first semiconductor region and a second electrode, a fourth electrode between the first semiconductor region and the second electrode, a second semiconductor region between the first semiconductor region and the second electrode and between the third electrode and the fourth electrode, a third semiconductor region between the second semiconductor region and the second electrode, a fourth electrode between the first semiconductor region and the second electrode to be electrically connected to the second electrode, and a fifth semiconductor region between the first electrode and the first semiconductor region. A first insulating film is provided between the third electrode and the first semiconductor region, the second semiconductor region, the third semiconductor region and the second electrode.

Abstract: According to one embodiment, an IGBT has a first semiconductor layer of a first conductivity type, a second semiconductor layer of a second conductivity type, a third semiconductor layer of the second conductivity type, a fourth semiconductor layer of the first conductivity type, and a fifth semiconductor layer of the second conductivity type, between a first electrode and a second electrode, on the first electrode in order. A third electrode is provided on the third semiconductor layer, the fourth semiconductor layer, and the fifth semiconductor layer via a gate insulating film, and is insulated from the first electrode and the second electrode. A fourth electrode is provided between the third electrode and the second semiconductor layer, and is insulated from the third electrode and the second semiconductor layer.

Abstract: A semiconductor device according to as embodiment includes a semiconductor layer having a first plane and a second plane; a first trench provided in the semiconductor layer; a first gate electrode provided in the first trench; a second trench provided in the semiconductor layer; a second gate electrode provided in the second trench; a third trench provided in the semiconductor layer; a first resistive layer provided in the third trench; a first electrode provided on a side of the first plane of the semiconductor layer; a second electrode provided on a side of the second plane of the semi conductor layer; and a gate electrode pad provided on the side of the first plane of the semiconductor layer, is electrically connected to the first gate electrode through the first resistive layer, and is electrically connected to the second gate electrode.

Abstract: A semiconductor device according to an embodiment includes a transistor including a first electrode, a second electrode, and a first gate electrode; a first detector detecting a change in a first parameter of the transistor over time to acquire first temporal change data; and a first storage storing the first temporal change data.

Abstract: A semiconductor device according to an embodiment includes a semiconductor layer having a first plane and a second plane; an emitter electrode provided on a first plane side of the semiconductor layer; a collector electrode provided on a second plane side of the semiconductor layer; a first gate electrode pad provided on the first plane side; a second gate electrode pad provided on the first plane side; a cell region including a first trench provided in the semiconductor layer and a first gate electrode that is provided in the first trench and is connected to the first gate electrode pad; and a cell end region that is adjacent to the cell region and includes a second trench provided in the semiconductor layer and a second gate electrode which is provided in the second trench and is connected to the second gate electrode pad.

Abstract: A semiconductor device includes first and second electrodes spaced apart along a first direction, a first semiconductor region of a first conductivity type between the first and second electrodes, first and second conductive regions between the first semiconductor region and the second electrode and electrically connected to the second electrode, a third electrode between the first and second conductive regions, second and third semiconductor regions of a second conductivity type respectively between the first and second conductive regions and the third electrode, and fourth and fifth semiconductor regions of the first conductivity type respectively between the second and third semiconductor regions and the second electrode. The third electrode extends in the first direction toward the first electrode farther than portions of the second and third semiconductor regions that are alongside the third electrode.

Abstract: According to one embodiment, in a semiconductor device, The first semiconductor region is provided between the first and the second electrode. The second semiconductor region is provided between the first semiconductor region and the second electrode. The first and second connection region are electrically connected to the second electrode, reaches the first semiconductor region. The first insulating film is provided between the first connection region and the second semiconductor region and between the first connection region and the first semiconductor region. The second insulating film is provided between the second connection region and the second semiconductor region and between the second connection region and the first semiconductor region.

Abstract: A semiconductor device includes a third electrode between a first semiconductor region and a second electrode, a fourth electrode between the first semiconductor region and the second electrode, a second semiconductor region between the first semiconductor region and the second electrode and between the third electrode and the fourth electrode, a third semiconductor region between the second semiconductor region and the second electrode, a fourth electrode between the first semiconductor region and the second electrode to be electrically connected to the second electrode, and a fifth semiconductor region between the first electrode and the first semiconductor region. A first insulating film is provided between the third electrode and the first semiconductor region, the second semiconductor region, the third semiconductor region and the second electrode.