Patent application number | Description | Published |
20080283868 | Semiconductor Device - A semiconductor device includes a first layer having a first conductivity type, a second layer having a second conductivity type, a third layer having the second conductivity type, one or more first zones having the first conductivity type and located within the second layer, wherein each one of the one or more first zones is adjacent to the third layer, and one or more second zones having the second conductivity type and located within the second layer, wherein each one of the one or more second zones is adjacent to one or more of the one or more first zones. | 11-20-2008 |
20100148215 | IGBT Having One or More Stacked Zones Formed within a Second Layer of the IGBT - An IGBT includes a first region, a second region located within the first region, a first contact coupled to the first region, a first layer arranged below the first region, a gate overlying at least a portion of the first region between the second region and the first layer and a second layer formed under the first layer. One or more stacked zones are formed within the second layer. Each one or more stacked zones includes a first zone and a second zone that overlies the first zone. Each first zone is inversely doped with respect to the second layer and each second zone is inversely doped with respect to the first zone. The IGBT further includes a third layer formed under the second layer and a second contact coupled to the third layer. | 06-17-2010 |
20110018029 | SEMICONDUCTOR DEVICE HAVING A FLOATING SEMICONDUCTOR ZONE - A semiconductor device includes a first trench and a second trench extending into a semiconductor body from a surface. A body region of a first conductivity type adjoins a first sidewall of the first trench and a first sidewall of the second trench, the body region including a channel portion adjoining to a source structure and being configured to be controlled in its conductivity by a gate structure. The channel portion is formed at the first sidewall of the second trench and is not formed at the first sidewall of the first trench. An electrically floating semiconductor zone of the first conductivity type adjoins the first trench and has a bottom side located deeper within the semiconductor body than the bottom side of the body region. | 01-27-2011 |
20130001640 | SEMICONDUCTOR DEVICE HAVING A FLOATING SEMICONDUCTOR ZONE - A semiconductor device includes a first trench and a second trench extending into a semiconductor body from a surface. A body region of a first conductivity type adjoins a first sidewall of the first trench and a first sidewall of the second trench, the body region including a channel portion adjoining to a source structure and being configured to be controlled in its conductivity by a gate structure. The channel portion is formed at the first sidewall of the second trench and is not formed at the first sidewall of the first trench. An electrically floating semiconductor zone of the first conductivity type adjoins the first trench and has a bottom side located deeper within the semiconductor body than the bottom side of the body region. | 01-03-2013 |
20130270632 | SEMICONDUCTOR DEVICE HAVING A FLOATING SEMICONDUCTOR ZONE - A semiconductor device includes a first trench and a second trench extending into a semiconductor body from a surface. A body region of a first conductivity type adjoins a first sidewall of the first trench and a first sidewall of the second trench, the body region including a channel portion adjoining to a source structure and being configured to be controlled in its conductivity by a gate structure. The channel portion is formed at the first sidewall of the second trench and is not formed at the first sidewall of the first trench. An electrically floating semiconductor zone of the first conductivity type adjoins the first trench and has a bottom side located deeper within the semiconductor body than the bottom side of the body region. | 10-17-2013 |
20140370693 | Method for Manufacturing a Semiconductor Device Having a Channel Region in a Trench - A method of manufacturing a semiconductor device includes forming a semiconductor diode by forming a drift region, forming a first semiconductor region of a first conductivity type in or on the drift region and electrically coupling the first semiconductor region to a first terminal via a first surface of a semiconductor body, etching a trench into the semiconductor body, and forming a channel region of a second conductivity type in the trench and electrically coupling the channel region to the first terminal via the first surface of the semiconductor body. A first side of the channel region adjoins the first semiconductor region. | 12-18-2014 |
Patent application number | Description | Published |
20120098097 | IGBT MODULE AND A CIRCUIT - An IGBT module is provided. The IGBT module has at least a first individual IGBT with a first softness during switching-off the IGBT module, and at least a second individual IGBT connected in parallel to the at least one first IGBT. The at least one second individual IGBT has a second softness during switching-off the IGBT module which is different than the first softness. Further a circuit and an electronic power device having two individual IGBTs, which are connected in parallel, are provided. | 04-26-2012 |
20120217539 | Semiconductor Component with Improved Dynamic Behavior - Disclosed is a semiconductor component that includes a semiconductor body, a first emitter region of a first conductivity type in the semiconductor body, a second emitter region of a second conductivity type spaced apart from the first emitter region in a vertical direction of the semiconductor body, a base region of one conductivity type arranged between the first emitter region and the second emitter region, and at least two higher doped regions of the same conductivity type as the base region and arranged in the base region. The at least two higher doped regions are spaced apart from one another in a lateral direction of the semiconductor body and separated from one another only by sections of the base region. | 08-30-2012 |
20130056731 | Semiconductor Device and Method for Manufacturing the Semiconductor Device - A semiconductor device includes a semiconductor diode. The semiconductor diode includes a drift region and a first semiconductor region of a first conductivity type formed in or on the drift region. The first semiconductor region is electrically coupled to a first terminal via a first surface of a semiconductor body. The semiconductor diode includes a channel region of a second conductivity type electrically coupled to the first terminal, wherein a bottom of the channel region adjoins the first semiconductor region. A first side of the channel region adjoins the first semiconductor region. | 03-07-2013 |
20130334573 | Multi-Channel HEMT - A transistor device includes a semiconductor heterostructure including a plurality of alternating two-dimensional electron gasses (2DEGs) and two-dimensional hole gasses (2DHGs) extending in parallel at different depths in the semiconductor heterostructure. The 2DEGs form current channels of the transistor device. The transistor device further includes a source extending into the semiconductor heterostructure in contact with the 2DEGs at a first end of the current channels, and a drain extending into the semiconductor heterostructure in contact with the 2DEGs at an opposing second end of the current channels. The transistor device also includes a plurality of spaced apart gate structures extending into the semiconductor heterostructure and including an electrically conductive material separated from the surrounding semiconductor heterostructure by an insulating material. | 12-19-2013 |
20140027812 | Semiconductor Device Including a Dielectric Structure in a Trench - A semiconductor device includes a trench extending into a drift zone of a semiconductor body from a first surface. The semiconductor device further includes a gate electrode in the trench and a body region adjoining a sidewall of the trench. The semiconductor device further includes a dielectric structure in the trench. The dielectric structure includes a high-k dielectric in a lower part of the trench. The high-k dielectric includes a dielectric constant higher than that of SiO | 01-30-2014 |