Patent application number | Description | Published |
20100219463 | QUASI-VERTICAL STRUCTURE FOR HIGH VOLTAGE MOS DEVICE - A semiconductor device provides a high breakdown voltage and a low turn-on resistance. The device includes: a substrate; a buried n+ layer disposed in the substrate; an n-epi layer disposed over the buried n+ layer; a p-well disposed in the n-epi layer; a source n+ region disposed in the p-well and connected to a source contact on one side; a first insulation layer disposed on top of the p-well and the n-epi layer; a gate disposed on top of the first insulation layer; and a metal electrode extending from the buried n+ layer to a drain contact, wherein the metal electrode is insulated from the n-epi layer and the p-well using by a second insulation layer. | 09-02-2010 |
20110079846 | HIGH VOLTAGE DEVICES, SYSTEMS, AND METHODS FOR FORMING THE HIGH VOLTAGE DEVICES - A high voltage (HV) device includes a gate dielectric structure over a substrate. The gate dielectric structure has a first portion and a second portion. The first portion has a first thickness and is over a first well region of a first dopant type in the substrate. The second portion has a second thickness and is over a second well region of a second dopant type. The first thickness is larger than the second thickness. A gate electrode is disposed over the gate dielectric structure. A metallic layer is over and coupled with the gate electrode. The metallic layer extends along a direction of a channel under the gate dielectric structure. At least one source/drain (S/D) region is disposed within the first well region of the first dopant type. | 04-07-2011 |
20110241114 | HIGH VOLTAGE MOS TRANSISTOR - A high voltage metal-oxide-semiconductor laterally diffused device (HV LDMOS) and a method of making it are provided in this disclosure. The device includes a semiconductor substrate, a gate structure formed on the substrate, a source and a drain formed in the substrate on either side of the gate structure, a first doped well formed in the substrate, and a second doped well formed in the first well. One portion of the second well surrounds the source and the other portion of the second well extends laterally from the first portion in the first well. | 10-06-2011 |
20120061737 | SEMICONDUCTOR DEVICE, METHOD OF FABRICATING THE SAME, AND PATTERNING MASK UTILIZIED BY THE METHOD - A semiconductor device. The device comprises an active region isolated by an isolation structure on a substrate. The device further comprises a gate electrode extending across the active area and overlying the substrate, a pair of source region and drain region, disposed on either side of the gate electrode on the substrate in the active area, and a gate dielectric layer disposed between the substrate and the gate electrode. The gate dielectric layer comprises a relatively-thicker high voltage (HV) dielectric portion and a relatively-thinner low voltage (LV) dielectric portion, wherein the HV dielectric portion occupies a first intersection among the drain region, the isolation structure, and the gate electrode, and a second intersection among the source region, the isolation structure, and the gate electrode. | 03-15-2012 |
20130140667 | LOCALIZED CARRIER LIFETIME REDUCTION - A semiconductor structure includes a substrate, a first power device and a second power device in the substrate, at least one isolation feature between the first and second power device, and a trapping feature adjoining the at least one isolation feature in the substrate. | 06-06-2013 |
20130240982 | QUASI-VERTICAL STRUCTURE FOR HIGH VOLTAGE MOS DEVICE - A semiconductor device which includes a buried layer having a first dopant type disposed in a substrate. The semiconductor device further includes a second layer having the first dopant type over the buried layer, wherein a dopant concentration of the buried layer is higher than a dopant concentration of the second layer. The semiconductor device further includes a first well of a second dopant type disposed in the second layer and a first source region of the first dopant type disposed in the first well and connected to a source contact on one side. The semiconductor device further includes a gate disposed on top of the well and the second layer and a metal electrode extending from the buried layer to a drain contact, wherein the metal electrode is insulated from the second layer and the first well by an insulation layer. | 09-19-2013 |
20130240984 | TRANSISTOR AND METHOD OF MANUFACTURING THE SAME - A manufacture includes a doped layer, a body structure over the doped layer, a trench defined in the doped layer, an insulator partially filling the trench, and a first conductive feature buried in, and separated from the doped layer and the body structure by, the insulator. The doped layer has a first type doping. The body structure has an upper surface and includes a body region. The body region has a second type doping different from the first type doping. The trench has a bottom surface. The first conductive feature extends from a position substantially leveled with the upper surface of the body structure toward the bottom surface of the trench. The first conductive feature overlaps the doped layer for an overlapping distance, and the overlapping distance ranging from 0 to 2 μm. | 09-19-2013 |
20130256833 | TRIPLE WELL ISOLATED DIODE AND METHOD OF MAKING - A triple well isolate diode including a substrate having a first conductivity type and a buried layer formed in the substrate, where the buried layer has a second conductivity type. The triple well isolated diode including an epi-layer formed over the substrate and the buried layer, where the epi-layer has the first conductivity type. The triple well isolated diode including a first well formed in the epi-layer, where the first well has the second conductivity type, a second well formed in the epi-layer, where the second well has the first conductivity type and surrounds the first well, a third well formed in the epi-layer, where the third well has the second conductivity type and surrounds the second well. The triple well isolated diode including a deep well formed in the epi-layer, where the deep well has the first conductivity type and extends beneath the first well. | 10-03-2013 |
20140284706 | QUASI-VERTICAL STRUCTURE HAVING A SIDEWALL IMPLANTATION FOR HIGH VOLTAGE MOS DEVICE - A semiconductor device includes a buried layer having a first dopant type in a substrate. The semiconductor device includes a first layer having the first dopant type over the buried layer. The semiconductor device includes at least one first well of a second dopant type disposed in the first layer. The semiconductor device includes an implantation region of the second dopant type in a sidewall of the first layer, wherein the implantation region is below the at least one first well. The semiconductor device includes a first source region disposed in the at least one first well; and at least one gate disposed on top of the first well and the first layer. The semiconductor device includes a metal electrode extending from the buried layer to a drain contact, wherein the metal electrode is insulated from the first layer and the at least one first well by an insulation layer. | 09-25-2014 |
20140312414 | TRANSISTOR AND METHOD OF MANUFACTURING THE SAME - A method of forming a manufacture includes forming a trench in a doped layer. The trench has an upper portion and a lower portion, and a width of the upper portion is greater than that of the lower portion. A first insulating layer is formed along sidewalls of the lower portion of the trench and a bottom surface of the trench. A gate dielectric layer is formed along sidewalls of the upper portion of the trench. A first conductive feature is formed along sidewalls of the gate dielectric layer. A second insulating layer covering the first conductive feature and the first insulating layer is formed, and a second conductive feature is formed along sidewalls of the second insulating layer and a bottom surface of the second insulating layer. | 10-23-2014 |