Patent application number | Description | Published |
20130126886 | GAN-BASED SCHOTTKY BARRIER DIODE WITH ALGAN SURFACE LAYER - A method of fabricating a Schottky diode using gallium nitride (GaN) materials includes providing an n-type GaN substrate having a first surface and a second surface. The second surface opposes the first surface. The method also includes forming an ohmic metal contact electrically coupled to the first surface of the n-type GaN substrate and forming an n-type GaN epitaxial layer coupled to the second surface of the n-type GaN substrate. The method further includes forming an n-type aluminum gallium nitride (AlGaN) surface layer coupled to the n-type GaN epitaxial layer and forming a Schottky contact electrically coupled to the n-type AlGaN surface layer. | 05-23-2013 |
20130127006 | GAN-BASED SCHOTTKY BARRIER DIODE WITH FIELD PLATE - A method for fabricating a III-nitride semiconductor device includes providing a III-nitride substrate having a first surface and a second surface opposing the first surface, forming a III-nitride epitaxial layer coupled to the first surface of the III-nitride substrate, and removing at least a portion of the III-nitride epitaxial layer to form a first exposed surface. The method further includes forming a dielectric layer coupled to the first exposed surface, removing at least a portion of the dielectric layer, and forming a metallic layer coupled to a remaining portion of the dielectric layer such that the remaining portion of the dielectric layer is disposed between the III-nitride epitaxial layer and the metallic layer. | 05-23-2013 |
20130146885 | Vertical GaN-Based Metal Insulator Semiconductor FET - A semiconductor structure includes a III-nitride substrate having a top surface and an opposing bottom surface and a first III-nitride layer of a first conductivity type coupled to the top surface of the III-nitride substrate. The semiconductor structure also includes a second III-nitride layer of a second conductivity type coupled to the first III-nitride layer along a vertical direction and a third III-nitride layer of a third conductivity type coupled to the second III-nitride layer along the vertical direction. The semiconductor structure further includes a first trench extending through a portion of the third III-nitride layer to the first III-nitride layer, a second trench extending through another portion of the third III-nitride layer to the second III-nitride layer, and a first metal layer coupled to the second and the third III-nitride layers. | 06-13-2013 |
20130161705 | METHOD AND SYSTEM FOR A GAN VERTICAL JFET WITH SELF-ALIGNED SOURCE AND GATE - A semiconductor device includes a III-nitride substrate, a first III-nitride epitaxial layer coupled to the III-nitride substrate and having a mesa, and a second III-nitride epitaxial layer coupled to a top surface of the mesa. The semiconductor device further includes a III-nitride gate structure coupled to a side surface of the mesa, and a spacer configured to provide electrical insulation between the second III-nitride epitaxial layer and the III-nitride gate structure. | 06-27-2013 |
20140051236 | GAN-BASED SCHOTTKY BARRIER DIODE WITH FIELD PLATE - A method for fabricating a III-nitride semiconductor device includes providing a III-nitride substrate having a first surface and a second surface opposing the first surface, forming a III-nitride epitaxial layer coupled to the first surface of the III-nitride substrate, and removing at least a portion of the III-nitride epitaxial layer to form a first exposed surface. The method further includes forming a dielectric layer coupled to the first exposed surface, removing at least a portion of the dielectric layer, and forming a metallic layer coupled to a remaining portion of the dielectric layer such that the remaining portion of the dielectric layer is disposed between the III-nitride epitaxial layer and the metallic layer. | 02-20-2014 |
20140370669 | METHOD AND SYSTEM FOR A GALLIUM NITRIDE VERTICAL JFET WITH SELF-ALIGNED SOURCE AND GATE - A semiconductor device includes a III-nitride substrate, a first III-nitride epitaxial layer coupled to the III-nitride substrate and having a mesa, and a second III-nitride epitaxial layer coupled to a top surface of the mesa. The semiconductor device further includes a III-nitride gate structure coupled to a side surface of the mesa, and a spacer configured to provide electrical insulation between the second III-nitride epitaxial layer and the III-nitride gate structure. | 12-18-2014 |
20140374769 | GAN-BASED SCHOTTKY BARRIER DIODE WITH ALGAN SURFACE LAYER - A Schottky diode and method of fabricating the Schottky diode using gallium nitride (GaN) materials is disclosed. The method includes providing an n-type GaN substrate having first and second opposing surfaces. The method also includes forming an ohmic metal contact electrically coupled to the first surface, forming an n-type GaN epitaxial layer coupled to the second surface, and forming an n-type aluminum gallium nitride (AlGaN) surface layer coupled to the n-type GaN epitaxial layer. The AlGaN surface layer has a thickness which is less than a critical thickness, and the critical thickness is determined based on an aluminum mole fraction of the AlGaN surface layer. The method also includes forming a Schottky contact electrically coupled to the n-type AlGaN surface layer, where, during operation, an interface between the n-type GaN epitaxial layer and the n-type AlGaN surface layer is substantially free from a two-dimensional electron gas. | 12-25-2014 |
20150340514 | METHOD AND SYSTEM FOR A GALLIUM NITRIDE VERTICAL JFET WITH SELF-ALIGNED SOURCE AND GATE - A semiconductor device includes a III-nitride substrate, a first III-nitride epitaxial layer coupled to the III-nitride substrate and having a mesa, and a second III-nitride epitaxial layer coupled to a top surface of the mesa. The semiconductor device further includes a III-nitride gate structure coupled to a side surface of the mesa, and a spacer configured to provide electrical insulation between the second III-nitride epitaxial layer and the III-nitride gate structure. | 11-26-2015 |