Patent application number | Description | Published |
20090140295 | GaN-based semiconductor device and method of manufacturing the same - A GaN-based semiconductor device includes a silicon substrate; an active layer of a GaN-based semiconductor formed on the silicon substrate; a trench formed in the active layer and extending from a top surface of the active layer to the silicon substrate; a first electrode formed on an internal wall surface of the trench so that the first electrode extends from the top surface of the active layer to the silicon substrate; a second electrode formed on the active layer so that a current flows between the first electrode and the second electrode via the active layer; and a bottom electrode formed on a bottom surface of the silicon substrate. The first electrode is formed of a metal capable of being in ohmic contact with the silicon substrate and the active layer. | 06-04-2009 |
20090200645 | SEMICONDUCTOR ELECTRONIC DEVICE - A semiconductor electronic device comprises a substrate; a buffer layer formed on the substrate, the buffer layer including not less than two layers of composite layer in which a first semiconductor layer formed of a nitride-based compound semiconductor layer having a lattice constant smaller than a lattice constant of the substrate and a thermal expansion coefficient larger than a thermal expansion coefficient of the substrate and a second semiconductor layer formed of a nitride-based compound semiconductor having a lattice constant smaller than a lattice constant of the first semiconductor layer and a thermal expansion coefficient larger than a thermal expansion coefficient of the substrate are alternately laminated; an intermediate layer provided between the substrate and the buffer layer, the intermediate layer being formed of a nitride-based compound semiconductor having a lattice constant smaller than a lattice constant of the first semiconductor layer and a thermal expansion coefficient larger than a thermal expansion coefficient of the substrate; and a semiconductor active layer formed on the buffer layer, the semiconductor active layer being formed of a nitride-based compound semiconductor, wherein: thicknesses of the first semiconductor layers in the buffer layer are non-uniform thereamong, and at least one of the first semiconductor layer has a thickness greater than a critical thickness, the critical thickness being a thickness above which a direction of warp caused by the first semiconductor layer to the substrate is inverted. | 08-13-2009 |
20090278172 | GaN based semiconductor element - The field effect transistor includes a laminated structure in which a buffer layer, and an electron transporting layer (undoped GaN layer), and an electron supplying layer (undoped AlGaN layer) are laminated in sequence on a sapphire substrate. An npn laminated structure is formed on a source region of the electron supplying layer, and a source electrode is formed on the npn laminated structure. A drain electrode is formed in a drain region of the electron supplying layer, and an insulating film is formed in an opening region formed in the gate region. When a forward voltage greater than a threshold is applied to the gate electrode, an inversion layer is formed and the drain current flows. By changing a thickness and an impurity concentration of the p-type GaN layer, the threshold voltage can be controlled. The electrical field concentration between the gate electrode and the drain electrode is relaxed due to the drift layer, and voltage resistance improves. | 11-12-2009 |
20100032716 | SEMICONDUCTOR DEVICE - A semiconductor device includes a substrate; a buffer layer; and a compound semiconductor layer laminated on the substrate with the buffer layer in between. The buffer layer has a dislocation density in a plane in parallel to an in-plane direction thereof, so that a volume resistivity of the buffer layer becomes a substantially maximum value. | 02-11-2010 |
20100078678 | SEMICONDUCTOR ELECTRONIC DEVICE AND METHOD OF MANUFACTURING THE SAME - A semiconductor electronic device comprises a substrate; a buffer layer formed on said substrate, having two or more layers of composite layers in which a first semiconductor layer comprising nitride based compound semiconductor having smaller lattice constant and greater coefficient of thermal expansion than the substrate and a second semiconductor layer comprising nitride based compound semiconductor having smaller lattice constant and greater coefficient of thermal expansion than the first semiconductor layer are alternately laminated; a semiconductor operating layer comprising nitride based compound semiconductor formed on said buffer layer; a dislocation reducing layer comprising nitride based compound semiconductor, formed in a location between a location directly under said buffer layer and inner area of said semiconductor operating layer, and comprising a lower layer area and an upper layer area each having an uneven boundary surface, wherein threading dislocation extending from the lower layer area to the upper layer area is bent at said boundary surface. | 04-01-2010 |
20100127307 | FIELD EFFECT TRANSISTOR AND METHOD OF MANUFACTURING THE SAME - A semiconductor layer of a second conductive type is formed on a RESURF layer of a first conductive type that is formed on a buffer layer. A contact layer of the first conductive type is formed in or on the semiconductor layer. A source electrode is formed on the contact layer. A drain electrode is formed on the RESURF layer. A gate insulating film is formed on the semiconductor layer to overlap with an end of the semiconductor layer. A gate electrode is formed on the gate insulating film to overlap with the end of the semiconductor layer. A channel formed near the end of the semiconductor layer is electrically connected to the RESURF layer. | 05-27-2010 |
20100210080 | METHOD OF MANUFACTURING GAN-BASED TRANSISTORS - A method of manufacturing a GaN-based field effect transistor is provided by which a lower resistance and a higher breakdown voltage are obtained and which is less affected by a current collapse. A method of manufacturing the GaN-based field effect transistor(s) can comprise performing an epitaxial growth of an AlN layer ( | 08-19-2010 |
20100213577 | SEMICONDUCTOR ELECTRONIC DEVICE AND PROCESS OF MANUFACTURING THE SAME - A semiconductor electronic device comprises a substrate; a buffer layer that comprises composite laminations of which a first semiconductor layer, that is formed of a compound semiconductor of a nitride system, that has a lattice constant to be as smaller than that of such the substrate, and that has a coefficient of thermal expansion to be as larger than that of such the substrate, and a second semiconductor layer that is formed of a compound semiconductor of a nitride system are formed as alternately on to such the substrate; a semiconductor operation layer that is formed of a compound semiconductor of a nitride system and that is formed on to such the buffer layer; and a dislocation reduction layer, which comprises a lower layer region and an upper layer region that are formed at any location at an inner side of such the buffer layer and that comprise an interface of a concave and convex shape therebetween, at which a threading dislocation that draws from such the lower layer region toward such the upper layer region is bending at such the interface, wherein such the second semiconductor layer is comprised of a laminated layers as alternately of a third semiconductor layer that has a lattice constant to be as smaller than that of such the substrate and that has a coefficient of thermal expansion to be as larger than that of such the substrate, and of a fourth semiconductor layer that has a lattice constant to be as smaller than that of such the third semiconductor layer and that has a coefficient of thermal expansion to be as larger than that of such the substrate, and an average of such the lattice constants in the second semiconductor layer is to be smaller than that of such the first semiconductor layer, and an average of such the coefficients of thermal expansion in the second semiconductor layer is to be as larger than that of such the substrate. | 08-26-2010 |
20100244097 | FIELD EFFECT TRANSISTOR - Provided is a GaN based field effect transistor that is capable of normally-off operation, high breakdown voltage and large current. A body electrode | 09-30-2010 |
20110241017 | FIELD EFFECT TRANSISTOR - A field effect transistor includes: a buffer layer that is formed on a substrate; a high resistance layer or a foundation layer that is formed on the buffer layer; a carbon-containing carrier concentration controlling layer that is formed on the high resistance layer or the foundation layer; a carrier traveling layer that is formed on the carrier concentration controlling layer; a carrier supplying layer that is formed on the carrier traveling layer; a recess that is formed from the carrier supplying layer up to a predetermined depth; source/drain electrodes that are formed on the carrier supplying layer with the recess intervening therebetween; a gate insulating film that is formed on the carrier supplying layer so as to cover the recess; and a gate electrode that is formed on the gate insulating film in the recess | 10-06-2011 |
20110241088 | FIELD EFFECT TRANSISTOR, METHOD OF MANUFACTURING FIELD EFFECT TRANSISTOR, AND METHOD OF FORMING GROOVE - A field effect transistor includes a high resistance layer on a substrate, a semiconductor operation layer that is formed on the high resistance layer and includes a channel layer that has the carbon concentration of not more than 1×10 | 10-06-2011 |