Patent application number | Description | Published |
20090230465 | Trench-Gate Field Effect Transistors and Methods of Forming the Same - A field effect transistor includes a body region of a first conductivity type over a semiconductor region of a second conductivity type. A gate trench extends through the body region and terminates within the semiconductor region. At least one conductive shield electrode is disposed in the gate trench. A gate electrode is disposed in the gate trench over but insulated from the at least one conductive shield electrode. A shield dielectric layer insulates the at lease one conductive shield electrode from the semiconductor region. A gate dielectric layer insulates the gate electrode from the body region. The shield dielectric layer is formed such that it flares out and extends directly under the body region. | 09-17-2009 |
20100065904 | High density trench field effect transistor - A semiconductor structure comprises trenches extending into a semiconductor region. Portions of the semiconductor region extend between adjacent trenches forming mesa regions. A gate electrode is in each trench. Well regions of a first conductivity type extend in the semiconductor region between adjacent trenches. Source regions of a second conductivity type are in the well regions. Heavy body regions of the first conductivity type are in the well regions. The source regions and the heavy body regions are adjacent trench sidewalls, and the heavy body regions extend over the source regions along the trench sidewalls to a top surface of the mesa regions. | 03-18-2010 |
20100140689 | Trench-Based Power Semiconductor Devices with Increased Breakdown Voltage Characteristics - Exemplary power semiconductor devices with features providing increased breakdown voltage and other benefits are disclosed. | 06-10-2010 |
20100140696 | Trench-Based Power Semiconductor Devices With Increased Breakdown Voltage Characteristics - Exemplary power semiconductor devices with features providing increased breakdown voltage and other benefits are disclosed. | 06-10-2010 |
20100140697 | Trench-Based Power Semiconductor Devices with Increased Breakdown Voltage Characteristics - Exemplary power semiconductor devices with features providing increased breakdown voltage and other benefits are disclosed. | 06-10-2010 |
20100207205 | Structures and Methods for Improving Trench-Shielded Semiconductor Devices and Schottky Barrier Rectifier Devices - Various structures and methods for improving the performance of trench-shielded power semiconductor devices and the like are described. | 08-19-2010 |
20100258862 | TRENCH-GATE FIELD EFFECT TRANSISTOR WITH CHANNEL ENHANCEMENT REGION AND METHODS OF FORMING THE SAME - A field effect transistor includes a body region of a first conductivity type in a semiconductor region of a second conductivity type. A gate trench extends through the body region and terminating within the semiconductor region. A source region of the second conductivity type extends in the body region adjacent the gate trench. The source region and an interface between the body region and the semiconductor region define a channel region therebetween which extends along the gate trench sidewall. A channel enhancement region of the second conductivity type is formed adjacent the gate trench. The channel enhancement region partially extends into a lower portion of the channel region to thereby reduce a resistance of the channel region. | 10-14-2010 |
20110018059 | Shield Contacts in a Shielded Gate MOSFET - A semiconductor structure comprises an active region comprising trenches extending into a semiconductor region. Each trench includes a shield electrode and a gate electrode. The semiconductor structure also comprises a shield contact region adjacent to the active region. The shield contact region comprises at least one contact trench extending into the semiconductor region. The shield electrode from at least one of the trenches in the active region extends along a length of the contact trench. The semiconductor structure also comprises an interconnect layer extending over the active region and the shield contact region. In the active region the interconnect layer is isolated from the gate electrode in each trench by a dielectric layer and contacts mesa surfaces of the semiconductor region adjacent to the trenches. In the shield contact region the interconnect layer contacts the shield electrode and the mesa surfaces of the semiconductor region adjacent to the contact trench. | 01-27-2011 |
20110177662 | Method of Forming Trench-Gate Field Effect Transistors - A method of forming a field effect transistor includes: forming a trench in a semiconductor region; forming a shield electrode in the trench; performing an angled sidewall implant of impurities of the first conductivity type to form a channel enhancement region adjacent the trench; forming a body region of a second conductivity type in the semiconductor region; and forming a source region of the first conductivity type in the body region, the source region and an interface between the body region and the semiconductor region defining a channel region therebetween, the channel region extending along the trench sidewall. The channel enhancement region partially extends into a lower portion of the channel region to thereby reduce a resistance of the channel region. | 07-21-2011 |
20110275208 | SHIELD CONTACTS IN A SHIELDED GATE MOSFET - A semiconductor structure is formed as follows. Trenches are formed in a semiconductor region and a shield electrode is formed in each trench. Gate electrodes are formed in a portion of the trenches that form an active region. Each gate electrode is disposed over the shield electrode and is isolated from the shield electrode by an inter-electrode dielectric. An interconnect layer is formed extending over the trenches. The interconnect layer is isolated from the gate electrodes in the active region by a dielectric layer and contacts the shield electrodes in a shield contact region separate from the active region. The interconnect layer contacts mesa surfaces between adjacent trenches in the shield contact region. | 11-10-2011 |
20120104490 | Trench-Gate Field Effect Transistors and Methods of Forming the Same - A field effect transistor includes a body region of a first conductivity type over a semiconductor region of a second conductivity type. A gate trench extends through the body region and terminates within the semiconductor region. At least one conductive shield electrode is disposed in the gate trench. A gate electrode is disposed in the gate trench over but insulated from the at least one conductive shield electrode. A shield dielectric layer insulates the at lease one conductive shield electrode from the semiconductor region. A gate dielectric layer insulates the gate electrode from the body region. The shield dielectric layer is formed such that it flares out and extends directly under the body region. | 05-03-2012 |
20120193748 | TRENCH-BASED POWER SEMICONDUCTOR DEVICES WITH INCREASED BREAKDOWN VOLTAGE CHARACTERISTICS - Exemplary power semiconductor devices with features providing increased breakdown voltage and other benefits are disclosed. | 08-02-2012 |
20120220091 | METHODS OF MAKING POWER SEMICONDUCTOR DEVICES WITH THICK BOTTOM OXIDE LAYER - A method for forming thick oxide at the bottom of a trench formed in a semiconductor substrate includes forming a conformal oxide film by a sub-atmospheric chemical vapor deposition process that fills the trench and covers a top surface of the substrate. The method also includes etching the oxide film off the top surface of the substrate and inside the trench to leave a substantially flat layer of oxide having a target thickness at the bottom of the trench. | 08-30-2012 |
20120235229 | INTER-POLY DIELECTRIC IN A SHIELDED GATE MOSFET DEVICE - In one general aspect, an apparatus can include a shield dielectric disposed within a trench aligned along an axis within an epitaxial layer of a semiconductor, and a shield electrode disposed within the shield dielectric and aligned along the axis. The apparatus can include a first inter-poly dielectric having a portion intersecting a plane orthogonal to the axis where the plane intersects the shield electrode, and a second inter-poly dielectric having a portion intersecting the plane and disposed between the first inter-poly dielectric and the shield electrode. The apparatus can also include a gate dielectric having a portion disposed on the first inter-poly dielectric. | 09-20-2012 |
20130026563 | STRUCTURES AND METHODS FOR FORMING HIGH DENSITY TRENCH FIELD EFFECT TRANSISTORS - A semiconductor structure comprises trenches extending into a semiconductor region. Portions of the semiconductor region extend between adjacent trenches forming mesa regions. A gate electrode is in each trench. Well regions of a first conductivity type extend in the semiconductor region between adjacent trenches. Source regions of a second conductivity type are in the well regions. Heavy body regions of the first conductivity type are in the well regions. The source regions and the heavy body regions are adjacent trench sidewalls, and the heavy body regions extend over the source regions along the trench sidewalls to a top surface of the mesa regions. | 01-31-2013 |
20130248991 | STRUCTURE AND METHOD FOR FORMING TRENCH-GATE FIELD EFFECT TRANSISTOR - A field effect transistor (FET) includes a body region of a first conductivity type disposed within a semiconductor region of a second conductivity type and a gate trench extending through the body region and terminating within the semiconductor region. The FET also includes a flared shield dielectric layer disposed in a lower portion of the gate trench, the flared shield dielectric layer including a flared portion that extends under the body region. The FET further includes a conductive shield electrode disposed in the trench and disposed, at least partially, within the flared shield dielectric. | 09-26-2013 |
20140042532 | TRENCH-BASED POWER SEMICONDUCTOR DEVICES WITH INCREASED BREAKDOWN VOLTAGE CHARACTERISTICS - Exemplary power semiconductor devices with features providing increased breakdown voltage and other benefits are disclosed. | 02-13-2014 |
20140042536 | TRENCH-BASED POWER SEMICONDUCTOR DEVICES WITH INCREASED BREAKDOWN VOLTAGE CHARACTERISTICS - Exemplary power semiconductor devices with features providing increased breakdown voltage and other benefits are disclosed. | 02-13-2014 |
20140264569 | METHODS AND APPARATUS RELATED TO TERMINATION REGIONS OF A SEMICONDUCTOR DEVICE - In one general aspect, an apparatus can include a semiconductor region, and a trench defined within the semiconductor region. The trench can have a depth aligned along a vertical axis and have a length aligned along a longitudinal axis orthogonal to the vertical axis. The trench can have a first portion of the length included in a termination region of the semiconductor region and can have a second portion of the length included in an active region of the semiconductor region. | 09-18-2014 |