Patent application number | Description | Published |
20100302848 | TRANSISTOR HAVING PERIPHERAL CHANNEL - Transistors for use in semiconductor integrated circuit devices including a first source/drain region of the transistor is formed around a perimeter of a channel region, and a second source/drain region formed to extend below the channel region such that the channel region is formed around a perimeter of the source/drain region. Such transistors should facilitate a reduction in edge effect and leakage as the channel of the transistor is not bordering on an isolation region. Additionally, the use of a source/drain region extending through a channel region facilitates high-power, high-voltage operation. | 12-02-2010 |
20110140204 | TRANSISTORS WITH AN EXTENSION REGION HAVING STRIPS OF DIFFERING CONDUCTIVITY TYPE AND METHODS OF FORMING THE SAME - Methods of forming transistors and transistors are disclosed, such as a transistor having a gate dielectric over a semiconductor having a first conductivity type, a control gate over the gate dielectric, source and drain regions having a second conductivity type in the semiconductor having the first conductivity type, and strips having the second conductivity type within the semiconductor having the first conductivity type and interposed between the control gate and at least one of the source and drain regions. | 06-16-2011 |
20110140227 | Depletion mode circuit protection device - A non-volatile microelectronic memory device that includes a depletion mode circuit protection device that prevents high voltages, which are applied to bitlines during an erase operation, from being applied to and damaging low voltage circuits which are electrically coupled to the bitlines. | 06-16-2011 |
20110227071 | Semiconductor Constructions, Semiconductor Processing Methods, And Methods Of Forming Isolation Structures - Some embodiments include methods of forming isolation structures. A semiconductor base may be provided to have a crystalline semiconductor material projection between a pair of openings. SOD material (such as, for example, polysilazane) may be flowed within said openings to fill the openings. After the openings are filled with the SOD material, one or more dopant species may be implanted into the projection to amorphize the crystalline semiconductor material within an upper portion of said projection. The SOD material may then be annealed at a temperature of at least about 400° C. to form isolation structures. Some embodiments include semiconductor constructions that include a semiconductor material base having a projection between a pair of openings. The projection may have an upper region over a lower region, with the upper region being at least 75% amorphous, and with the lower region being entirely crystalline. | 09-22-2011 |
20120313691 | ELECTROMAGNETIC SHIELD AND ASSOCIATED METHODS - Semiconductor devices are described, along with methods and systems that include them. One such device includes a diffusion region in a semiconductor material, a terminal coupled to the diffusion region, and a field plate coupled to the terminal and extending from the terminal over the diffusion region to shield the diffusion region. Additional embodiments are also described. | 12-13-2012 |
20120329231 | Semiconductor Processing Methods, And Methods Of Forming Isolation Structures - Some embodiments include methods of forming isolation structures. A semiconductor base may be provided to have a crystalline semiconductor material projection between a pair of openings. SOD material (such as, for example, polysilazane) may be flowed within said openings to fill the openings. After the openings are filled with the SOD material, one or more dopant species may be implanted into the projection to amorphize the crystalline semiconductor material within an upper portion of said projection. The SOD material may then be annealed at a temperature of at least about 400° C. to form isolation structures. Some embodiments include semiconductor constructions that include a semiconductor material base having a projection between a pair of openings. The projection may have an upper region over a lower region, with the upper region being at least 75% amorphous, and with the lower region being entirely crystalline. | 12-27-2012 |
20140339648 | TRANSISTORS WITH AN EXTENSION REGION HAVING STRIPS OF DIFFERING CONDUCTIVITY TYPE - A transistor includes a gate dielectric over a semiconductor having a first conductivity type, a control gate over the gate dielectric, source and drain regions having a second conductivity type in the semiconductor having the first conductivity type, and strips having the second conductivity type within the semiconductor having the first conductivity type and interposed between the control gate and at least one of the source and drain regions. | 11-20-2014 |
20150021707 | ELECTROMAGNETIC SHIELD AND ASSOCIATED METHODS - Semiconductor devices are described, along with methods and systems that include them. One such device includes a diffusion region in a semiconductor material, a terminal coupled to the diffusion region, and a field plate coupled to the terminal and extending from the terminal over the diffusion region to shield the diffusion region. Additional embodiments are also described. | 01-22-2015 |