Patent application number | Description | Published |
20120313175 | SEMICONDUCTOR DEVICE - The present invention provides a semiconductor device including a substrate, a deep well, a high-voltage well, and a doped region. The substrate and the high-voltage well have a first conductive type, and the deep well and the doped region have a second conductive type different from the first conductive type. The substrate has a high-voltage region and a low-voltage region, and the deep well is disposed in the substrate in the high-voltage region. The high-voltage well is disposed in the substrate between the high-voltage region and the low-voltage region, and the doped region is disposed in the high-voltage well. The doped region and the high-voltage well are electrically connected to a ground. | 12-13-2012 |
20120319189 | HIGH-VOLTAGE SEMICONDUCTOR DEVICE - The present invention provides a high-voltage semiconductor device including a deep well, a first doped region disposed in the deep well, a high-voltage well, a second doped region disposed in the high-voltage well, a first gate structure disposed on the high-voltage well between the second doped region and the first doped region, a doped channel region disposed in the high-voltage region and in contact with the second doped region and the deep well, and a third doped region disposed in the high-voltage well. The high-voltage well has a first conductive type, and the deep well, the first doped region, the second doped region, the doped channel region, and the third doped region have a second conductive type different from the first conductive type. | 12-20-2012 |
20120326266 | HIGH-VOLTAGE SEMICONDUCTOR DEVICE - A high-voltage semiconductor device is disclosed. The HV semiconductor device includes: a substrate; a well of first conductive type disposed in the substrate; a first doping region of second conductive type disposed in the p-well; a first isolation structure disposed in the well of first conductive type and surrounding the first doping region of second conductive type; and a first drift ring of second conductive type disposed between the first doping region of second conductive type and the first isolation structure. | 12-27-2012 |
20130277742 | SEMICONDUCTOR STRUCTURE AND METHOD FOR MANUFACTURING THE SAME - A semiconductor structure comprises a substrate having a first conductive type; a deep well having a second conductive type formed in the substrate and extending down from a surface of the substrate; a first well having the first conductive type and a second well having the second conductive type both formed in the deep well and extending down from the surface of the substrate, and the second well spaced apart from the first well; a gate electrode formed on the substrate and disposed between the first and second wells; an isolation extending down from the surface of the substrate and disposed between the gate electrode and the second well; a conductive plug including a first portion and a second portion electrically connected to each other, and the first portion electrically connected to the gate electrode, and the second portion penetrating into the isolation. | 10-24-2013 |
20130328123 | SEMICONDUCTOR DEVICE - A semiconductor device includes a semiconductor substrate, a buried layer disposed in the semiconductor substrate; a deep well disposed in the semiconductor substrate; a first doped region disposed in the deep well, wherein the first doped region contacts the buried layer; a conductive region having the first conductivity type surrounding and being adjacent to the first doped region, wherein the conductive region has a concentration higher than the first doped region; a first heavily doped region disposed in the first doped region; a well having a second conductivity type disposed in the deep well; a second heavily doped region disposed in the well; a gate disposed on the semiconductor substrate between the first heavily doped region and the second heavily doped region; and a first trench structure and a second trench structure, wherein a depth of the second trench structure is substantially deeper than a depth of the buried layer. | 12-12-2013 |
20130334600 | TRANSISTOR DEVICE AND MANUFACTURING METHOD THEREOF - A transistor device and a manufacturing method thereof are provided. The transistor device includes a substrate, a first well, a second well, a shallow trench isolation (STI), a source, a drain and a gate. The first well is disposed in the substrate. The second well is disposed in the substrate. The STI is disposed in the second well. The STI has at least one floating diffusion island. The source is disposed in the first well. The drain is disposed in the second well. The electric type of the floating diffusion island is different from or the same with that of the drain. The gate is disposed above the first well and the second well, and partially overlaps the first well and the second well. | 12-19-2013 |
20140042527 | HIGH VOLTAGE METAL-OXIDE-SEMICONDUCTOR TRANSISTOR DEVICE - A high voltage metal-oxide-semiconductor transistor device includes a substrate, at least an isolation structure formed in the substrate, a gate formed on the substrate, and a source region and a drain region formed in the substrate at respective sides of the gate. The isolation structure further includes a recess. The gate includes a first gate portion formed on a surface of the substrate and a second gate portion downwardly extending from the first gate portion and formed in the recess. | 02-13-2014 |
20140051202 | METHOD OF FABRICATING SOLAR CELL - A method of fabricating a solar cell includes the following steps. At first, a substrate including a doped layer is provided. Subsequently, a patterned material layer partially overlapping the doped layer is formed on the substrate, and a first metal layer is conformally formed on the patterned material layer and the doped layer. Furthermore, a patterned mask layer totally overlapping the patterned material layer is formed on the first metal layer, and a second metal layer is formed on the doped layer not overlapped by the patterned material layer. Then, the patterned mask layer, the first metal layer between the patterned mask layer and the patterned material layer and a part of the patterned material layer are removed. | 02-20-2014 |
20140091369 | HIGH VOLTAGE METAL-OXIDE-SEMICONDUCTOR TRANSISTOR DEVICE - A HV MOS transistor device is provided. The HV MOS transistor device includes a substrate comprising at least an insulating region formed thereon, a gate positioned on the substrate and covering a portion of the insulating region, a drain region and a source region formed at respective sides of the gate in the substrate, and a first implant region formed under the insulating region. The substrate comprises a first conductivity type, the drain, the source, and the first implant region comprise a second conductivity type, and the first conductivity type and the second conductivity type are complementary to each other. | 04-03-2014 |
20140091389 | HIGH VOLTAGE METAL-OXIDE-SEMICONDUCTOR TRANSISTOR DEVICE - A high voltage metal-oxide-semiconductor transistor device includes a substrate having an insulating region formed therein, a gate covering a portion of the insulating region and formed on the substrate, a source region and a drain region formed at respective sides of the gate in the substrate, a body region formed in the substrate and partially overlapped by the gate, and a first implant region formed in the substrate underneath the gate and adjacent to the body region. The substrate and body region include a first conductivity type. The source region, the drain region, and the first implant region include a second conductivity type. The first conductivity type and the second conductivity type are complementary to each other. | 04-03-2014 |
20140131797 | SEMICONDUCTOR STRUCTURE AND METHOD FOR MANUFACTURING THE SAME - A semiconductor structure comprises a substrate having a first conductive type; a deep well having a second conductive type formed in the substrate and extending down from a surface of the substrate; a first well having the first conductive type and a second well having the second conductive type both formed in the deep well and extending down from the surface of the substrate, and the second well spaced apart from the first well; a gate electrode formed on the substrate and disposed between the first and second wells; an isolation extending down from the surface of the substrate and disposed between the gate electrode and the second well; a conductive plug penetrating into the isolation and reaching the bottom thereof; and a first doping electrode region having the second conductive type, formed within the second well and below the isolation to connect the conductive plug. | 05-15-2014 |
20140339636 | HIGH VOLTAGE METAL-OXIDE-SEMICONDUCTOR TRANSISTOR DEVICE - A high voltage metal-oxide-semiconductor (HV MOS) transistor device includes a substrate, a drifting region formed in the substrate, a plurality of isolation structures formed in the drift region and spaced apart from each other by the drift region, a plurality of doped islands respectively formed in the isolation structures, a gate formed on the substrate, and a source region and a drain region formed in the substrate at respective two sides of the gate. The gate covers a portion of each isolation structure. The drift region, the source region, and the drain region include a first conductivity type, the doped islands include a second conductivity type, and the first conductivity type and the second conductivity type are complementary to each other. | 11-20-2014 |
20140367789 | POWER ARRAY WITH STAGGERED ARRANGEMENT FOR IMPROVING ON-RESISTANCE AND SAFE OPERATING AREA - A power array with a staggered arrangement for improving on-resistance and safe operating area of a device is provided. Each power array includes two or more rows with a plurality of parallel device units arranged along the row. Each device unit includes a source region, a drain region, and a gate disposed between the source region and the drain region, wherein each drain region is offset from the adjacent drain region of adjacent rows in a row direction. | 12-18-2014 |
20150079754 | METHOD OF FABRICATING HIGH VOLTAGE METAL-OXIDE-SEMICONDUCTOR TRANSISTOR DEVICE - The present invention provides a method of fabricating a HV MOS transistor device, including forming a deep well in a substrate, and the deep well; forming a first doped region in the deep well, and the first doped region, wherein a doping concentration of the first doped region and a doping concentration of the deep well in at least one electric field concentration region has a first ratio, the doping concentration of the first doped region and the doping concentration of the deep well outside the electric field concentration region has a second ratio, and the first ratio is greater than the second ratio; and forming a high voltage well in the substrate, and forming a second doped region and a third doped region respectively in the deep well and in the high voltage well. | 03-19-2015 |