Patent application number | Description | Published |
20140159103 | PARTIAL SOI ON POWER DEVICE FOR BREAKDOWN VOLTAGE IMPROVEMENT - The present disclosure relates to a method and apparatus to increase breakdown voltage of a semiconductor power device. A bonded wafer is formed by bonding a device wafer to a handle wafer with an intermediate oxide layer. The device wafer is thinned substantially from its original thickness. A power device is formed within the device wafer through a semiconductor fabrication process. The handle wafer is patterned to remove section of the handle wafer below the power device, resulting in a breakdown voltage improvement for the power device as well as a uniform electrostatic potential under reverse biasing conditions of the power device, wherein the breakdown voltage is determined. Other methods and structures are also disclosed. | 06-12-2014 |
20140264559 | SUPER JUNCTION TRENCH METAL OXIDE SEMICONDUCTOR DEVICE AND METHOD OF MAKING THE SAME - A method for forming a semiconductor device includes forming a hard mask layer over a substrate comprising a semiconductor material of a first conductivity type, and forming a plurality of trenches in the hard mask layer and extending into the substrate. Each trench has at least one side wall and a bottom wall. The method further includes forming at least one barrier insulator layer along the at least one side wall and over the bottom wall of each trench, removing the at least one barrier insulator layer over the bottom wall of each trench, and filling the plurality of trenches with a semiconductor material of a second conductivity type. | 09-18-2014 |
20150041891 | Ultra-High Voltage Laterally-Diffused MOS Devices and Methods of Forming the Same - Embodiments for the present disclosure include a semiconductor device, an ultra-high voltage (UHV) laterally-diffused metal-oxide-semiconductor (LDMOS) transistor, and methods of forming the same. An embodiment includes a first well region of a first conductivity type in a top surface of a substrate, and a second well region of a second conductivity type in the top surface of the substrate. The second well region laterally separated from the first well region by a portion of the substrate. The embodiment further includes a third region of the second conductivity type in the first well region, and a first field oxide region in the first well region, a second field oxide region in the second well region, the second field oxide region having a second bottom surface, and the first field oxide region having a first bottom surface lower than the second bottom surface and on and directly contacting the third region. | 02-12-2015 |
20150061007 | HIGH-VOLTAGE SUPER JUNCTION BY TRENCH AND EPITAXIAL DOPING - A high-voltage super junction device is disclosed. The device includes a semiconductor substrate region having a first conductivity type and having neighboring trenches disposed therein. The neighboring trenches each have trench sidewalls and a trench bottom surface. A region having a second conductivity type is disposed in or adjacent to a trench and meets the semiconductor substrate region at a p-n junction. A gate electrode is formed on the semiconductor substrate region and electrically is electrically isolated from the semiconductor substrate region by a gate dielectric. A body region having the second conductivity type is disposed on opposite sides of the gate electrode near a surface of the semiconductor substrate. A source region having the first conductivity type is disposed within in the body region on opposite sides of the gate electrode near the surface of the semiconductor substrate. | 03-05-2015 |
20150076660 | SEMICONDUCTOR STRUCTURE AND MANUFACTURING METHOD THEREOF - A semiconductor structure includes a semiconductor substrate, a first doped region, a second doped region and a dielectric. The first doped region and the second doped region respectively has an aspect ratio and a dopant concentration uniformity along a depth in the semiconductor substrate. The dielectric is between the first doped region and the second doped region. The dopant concentration uniformity is within 0.2% and the aspect ratio of the semiconductor substrate is greater than about 10. | 03-19-2015 |
20150108542 | BIPOLAR TRANSISTOR STRUCTURE HAVING SPLIT COLLECTOR REGION AND METHOD OF MAKING THE SAME - A bipolar transistor includes a substrate and a first well in the substrate, the first well having a first dopant type. The bipolar transistor further includes a split collector region in the first well. The split collector region includes a highly doped central region having a second dopant type opposite the first dopant type; and a lightly doped peripheral region having the second dopant type, the lightly doped peripheral region surrounding the highly doped central region. A dopant concentration of the lightly doped peripheral region is less than a dopant concentration of the highly doped central region. | 04-23-2015 |
20150187872 | SUPER JUNCTION WITH AN ANGLED TRENCH, TRANSISTOR HAVING THE SUPER JUNCTION AND METHOD OF MAKING THE SAME - A super junction includes a substrate and an epitaxial layer over the substrate, the epitaxial layer having a first dopant type. The super junction further includes an angled trench in the epitaxial layer, the angled trench having sidewalls disposed at an angle ranging from about 85-degrees to about 89-degrees with respect to a top surface of the epitaxial layer. The super junction further includes a doped body in the epitaxial layer surrounding the angled trench, the doped body having a second dopant type, the second dopant type opposite that of the first dopant type. | 07-02-2015 |
20150236107 | ULTRA HIGH VOLTAGE SEMICONDUCTOR DEVICE WITH ELECTROSTATIC DISCHARGE CAPABILITIES - A semiconductor device comprises a semiconductor substrate, a first layer over the semiconductor substrate, and a drain region in the first layer. The drain region comprises a drain rectangular portion having a first end and a second end, a first drain end portion contiguous with the drain rectangular portion and extending from the first end of the drain rectangular portion away from a center of the drain region, and a second drain end portion contiguous with the drain rectangular portion and extending from the second end of the drain rectangular portion away from the center of the drain region. The semiconductor device also comprises a source region free from contact with and surrounding the drain region in the first layer. The first drain end portion and the second drain end portion have a same doping type and a different doping concentration than the drain rectangular portion. | 08-20-2015 |
20150236149 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING - A semiconductor device includes a gate structure, and a source region and a drain region on opposite sides of the gate structure. The source region comprises a first region of a first conductivity type, and a second region of a second conductivity type, the second conductivity type opposite to the first conductivity type. The first region is arranged between the second region and the gate structure. The second region comprises at least one projection protruding into the first region and toward the gate structure. | 08-20-2015 |