| Patent application number | Description | Published |
|---|
| 20090090966 | HIGH DENSITY FET WITH INTEGRATED SCHOTTKY - A semiconductor structure includes a monolithically integrated trench FET and Schottky diode. The semiconductor structure further includes a plurality of trenches extending into a semiconductor region. A stack of gate and shield electrodes are disposed in each trench. Body regions extend over the semiconductor region between adjacent trenches, with a source region extending over each body region. A recess having tapered edges extends between every two adjacent trenches from upper corners of the two adjacent trenches through the body region and terminating in the semiconductor region below the body region. An interconnect layer extends into each recess to electrically contact tapered sidewalls of the source regions and the body regions, and to contact the semiconductor region along a bottom of each recess to form a Schottky contact therebetween. | 04-09-2009 |
| 20090111227 | Method for Forming Trench Gate Field Effect Transistor with Recessed Mesas Using Spacers - A method for forming a field effect transistor with an active area and a termination region surrounding the active area includes forming a well region in a first silicon region, where the well region and the first silicon region are of opposite conductivity type. Gate trenches extending through the well region and terminating within the first silicon region are formed. A recessed gate is formed in each gate trench. A dielectric cap is formed over each recessed gate. The well region is recessed between adjacent trenches to expose upper sidewalls of each dielectric cap. A blanket source implant is carried out to form a second silicon region in an upper portion of the recessed well region between every two adjacent trenches. A dielectric spacer is formed along each exposed upper sidewall of the dielectric cap, with every two adjacent dielectric spacers located between every two adjacent gate trenches forming an opening over the second silicon region. The second silicon region is recessed through the opening between every two adjacent dielectric spacers so that only portions of the second silicon region directly below the dielectric spacers remain. The remaining portions of the second silicon region form source regions. | 04-30-2009 |
| 20090315083 | Structure and Method for Forming a Thick Bottom Dielectric (TBD) for Trench-Gate Devices - A semiconductor structure which includes a trench gate FET is formed as follows. A plurality of trenches is formed in a semiconductor region using a mask. The mask includes (i) a first insulating layer over a surface of the semiconductor region, (ii) a first oxidation barrier layer over the first insulating layer, and (iii) a second insulating layer over the first oxidation barrier layer. A thick bottom dielectric (TBD) is formed along the bottom of each trench. The first oxidation barrier layer prevents formation of a dielectric layer along the surface of the semiconductor region during formation of the TBD. | 12-24-2009 |
| 20100320534 | Structure and Method for Forming a Thick Bottom Dielectric (TBD) for Trench-Gate Devices - A semiconductor structure which includes a shielded gate FET is formed as follows. A plurality of trenches is formed in a semiconductor region using a mask. The mask includes (i) a first insulating layer over a surface of the semiconductor region, (ii) a first oxidation barrier layer over the first insulating layer, and (iii) a second insulating layer over the first oxidation barrier layer. A shield dielectric is formed extending along at least lower sidewalls of each trench. A thick bottom dielectric (TBD) is formed along the bottom of each trench. The first oxidation barrier layer prevents formation of a dielectric layer along the surface of the semiconductor region during formation of the TBD. A shield electrode is formed in a bottom portion of each trench. A gate electrode is formed over the shield electrode in each trench. | 12-23-2010 |
| 20120156845 | METHOD OF FORMING A FIELD EFFECT TRANSISTOR AND SCHOTTKY DIODE - A method for forming a field effect transistor and Schottky diode includes forming a well region in a first portion of a silicon region where the field effect transistor is to be formed but not in a second portion of the silicon region where the Schottky diode is to be formed. Gate trenches are formed extending into the silicon region. A recessed gate is formed in each gate trench. A dielectric cap is formed over each recessed gate. Exposed surfaces of the well region are recessed to form a recess between every two adjacent trenches. Without masking any portion of the active area, a zero-degree blanket implant is performed to form a heavy body region of the second conductivity type in the well region between every two adjacent trenches. | 06-21-2012 |
