Patent application number | Description | Published |
20100047983 | SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - A threshold control layer of a second MIS transistor is formed under the same conditions for forming a threshold control layer of a first MIS transistor. LLD regions of the second MIS transistor are formed under the same conditions for forming LDD regions of a third transistor. | 02-25-2010 |
20110169100 | SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - A semiconductor device includes: a first MIS transistor of a first conductivity type having a first active region as a region of a semiconductor substrate surrounded by an element isolation region formed in an upper portion of the semiconductor substrate, a first gate insulating film having a first high dielectric film formed on the first active region, and a first gate electrode formed on the first gate insulating film; and a resistance element having a second high dielectric film formed on the element isolation region and a resistance layer made of silicon formed on the second high dielectric film. The first high dielectric film and the second high dielectric film include the same high dielectric material, and the first high dielectric film includes a first adjustment metal, but the second high dielectric film does not include the first adjustment metal. | 07-14-2011 |
20110272815 | SEMICONDUCTOR DEVICE AND LAYOUT DESIGN METHOD FOR THE SAME - A semiconductor device includes: a plurality of line features including at least one real feature which includes a gate electrode portion, and at least one dummy feature. Two of multiple ones of the dummy feature, and at least one of the line features interposed between the two dummy features and including the at least one real feature form parallel running line features which are evenly spaced. The parallel running line features have an identical width, and line end portions of the parallel running line features are substantially flush. Line end portion uniformization dummy features are formed on extensions of the line end portions of the parallel running line features. The line end portion uniformization dummy features include a plurality of linear features each having a same width as each of the line features and spaced at intervals equal to an interval between each adjacent pair of the line features. | 11-10-2011 |
20110278679 | SEMICONDUCTOR DEVICE, MASK FOR FABRICATION OF SEMICONDUCTOR DEVICE, AND OPTICAL PROXIMITY CORRECTION METHOD - A semiconductor device includes a circuit portion including at least one real feature, and a plurality of dummy feature groups each including a plurality of dummy features spaced apart from each other by a first distance. The plurality of dummy feature groups are spaced apart from each other by a second distance larger than the first distance, and the circuit portion and the plurality of dummy feature groups are spaced apart from each other by the second distance. | 11-17-2011 |
20130020654 | SEMICONDUCTOR DEVICE - A semiconductor device includes first and second MIS transistors and a dummy element. The first MIS transistor includes a first gate insulating film which includes a first high-k insulating film formed on a first active region and contains an adjusting metal. The second MIS transistor includes a second gate insulating film which includes a second high-k insulating film formed on a second active region and is free of the adjusting metal. The dummy element includes a dummy gate insulating film which includes a dummy high-k insulating film formed on a dummy active region and at least a portion of which is free of the adjusting metal. The first active region is formed in a second conductivity type first well region. The second active region is formed in a first conductivity type second well region. The dummy active region is formed in a second conductivity type third well region. | 01-24-2013 |
20130056832 | SEMICONDUCTOR DEVICE - A first dual-gate electrode includes a gate electrode located on a first active region and having a first silicon film of a first conductivity type and a gate electrode located on a second active region and having a first silicon film of a second conductivity type. A second dual-gate electrode includes a gate electrode located on a third active region and having a second silicon film of the first conductivity type and a gate electrode located on a fourth active region and having a second silicon film of the second conductivity type. At least a portion of the first silicon film of the first conductivity type has a first-conductivity-type impurity concentration higher than that of a portion of the second silicon film of the first conductivity type located on the third active region. | 03-07-2013 |
20130140707 | SEMICONDUCTOR DEVICE AND LAYOUT DESIGN METHOD FOR THE SAME - A semiconductor device includes: a plurality of line features including at least one real feature which includes a gate electrode portion, and at least one dummy feature. Two of multiple ones of the dummy feature, and at least one of the line features interposed between the two dummy features and including the at least one real feature form parallel running line features which are evenly spaced. The parallel running line features have an identical width, and line end portions of the parallel running line features are substantially flush. Line end portion uniformization dummy features are formed on extensions of the line end portions of the parallel running line features. The line end portion uniformization dummy features include a plurality of linear features each having a same width as each of the line features and spaced at intervals equal to an interval between each adjacent pair of the line features. | 06-06-2013 |
20160043060 | SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - A semiconductor device includes: a first substrate including a first surface layer that includes first and second electrodes; a second substrate including a second surface layer that includes third and fourth electrodes, and directly bonded to the first substrate such that the second surface layer is in contact with the first surface layer; and a functional film provided between the second and fourth electrodes. The first and third electrodes are bonded together so as to be in contact with each other, and the second electrode, the functional film, and the fourth electrode constitute a passive element. | 02-11-2016 |