Patent application number | Description | Published |
20110233735 | SEMICONDUCTOR WAFER AND ITS MANUFACTURE METHOD, AND SEMICONDUCTOR CHIP - A semiconductor wafer includes: a first semiconductor chip area formed with a semiconductor element; a second semiconductor chip area formed with a semiconductor element; and a scribe area sandwiched between the first and second semiconductor chip areas; wherein: the first semiconductor chip area includes a first metal ring surrounding the semiconductor element formed in the first semiconductor chip area; and the metal ring is constituted of a plurality of metal layers including a lower metal layer and an upper metal layer superposed upon the lower metal layer, and the upper metal layer is superposed upon the lower metal layer in such a manner that an outer side wall of the upper metal layer is flush with the outer side wall of the lower metal layer or is at an inner position of the first semiconductor chip area relative to the outer side wall of the lower metal layer. | 09-29-2011 |
20120034751 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A method of manufacturing a semiconductor device includes forming a flash memory cell in a first region, forming a first electrode of a capacitor in a second region, forming a first silicon oxide film, a silicon nitride film, and a second silicon oxide film in this order as a second insulating film, removing the silicon nitride film and the second silicon oxide film in a partial region of the first electrode, wet-etching a first insulating film and the second insulating film in the third region, forming a second electrode of the capacitor, and etching and removing the first silicon oxide film in the partial region. | 02-09-2012 |
20120045875 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A method of manufacturing a semiconductor device includes: forming first to third gate electrodes in first to third regions, respectively; forming a first mask pattern covering the second region while exposing the first and third regions; forming p-type source drain extensions and p-type pocket regions by ion implantation using the first mask pattern as a mask; forming n-type source drain extensions by ion implantation using the first mask pattern as a mask; forming a second mask pattern covering the first and third regions while exposing the second region; and forming p-type pocket regions by implanting ions of indium into the silicon substrate with the second mask pattern being used as a mask. | 02-23-2012 |
20120080754 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - The semiconductor device includes a first transistor including a first impurity layer containing boron or phosphorus, a first epitaxial layer formed above the first impurity layer, a first gate electrode formed above the first epitaxial layer with a first gate insulating film formed therebetween and first source/drain regions, and a second transistor including a second impurity layer containing boron and carbon, or arsenic or antimony, a second epitaxial layer formed above the second impurity layer, a second gate electrode formed above the second epitaxial layer with a second gate insulating film thinner than the first gate insulating film formed therebetween, and second source/drain regions. | 04-05-2012 |
20120080759 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A first transistor includes a first impurity layer of a first conduction type formed in a first region of a semiconductor substrate, a first epitaxial semiconductor layer formed above the first impurity layer, a first gate insulating film formed above the first epitaxial semiconductor layer, a first gate electrode formed above the first gate insulating film, and first source/drain regions of a second conduction type formed in the first epitaxial semiconductor layer and in the semiconductor substrate in the first region. A second transistor includes a second impurity layer of the first conduction type formed in a second region of the semiconductor substrate, a second epitaxial semiconductor layer formed above the second impurity layer and being thinner than the first epitaxial semiconductor layer, a second gate insulating film formed above the second epitaxial semiconductor layer, a second gate electrode formed above the second gate insulating film, and second source/drain regions of the second conduction type formed in the second epitaxial semiconductor layer and in the semiconductor substrate in the second region. | 04-05-2012 |
20120083087 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A protection film is formed on a semiconductor substrate. Impurity ions are implanted into the semiconductor substrate through the protection film. The impurity is activated to form an impurity layer. The protection film is removed after forming the impurity layer. The semiconductor substrate of a surface portion of the impurity layer is removed after removing the protection film. A semiconductor layer is epitaxially grown above the semiconductor substrate after removing the semiconductor substrate of the surface portion of the impurity layer. | 04-05-2012 |
20120223391 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - The semiconductor device includes a first transistor including a first impurity layer of a first conductivity type formed in a first region of a semiconductor substrate, a first epitaxial semiconductor layer formed above the first impurity layer, a first gate insulating film formed above the first epitaxial semiconductor layer, and a first gate electrode formed above the first gate insulating film, and a second transistor including a second impurity layer of the second conductivity type formed in a second region of the semiconductor substrate, a second epitaxial semiconductor layer formed above the second impurity layer and having a thickness different from that of the first epitaxial semiconductor layer, a second gate insulating film formed above the second epitaxial semiconductor layer and having a film thickness equal to that of the first gate insulating film and a second gate electrode formed above the second gate insulating film. | 09-06-2012 |
20130020650 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - The semiconductor device includes a first transistor including a first impurity layer containing boron or phosphorus, a first epitaxial layer formed above the first impurity layer, a first gate electrode formed above the first epitaxial layer with a first gate insulating film formed therebetween and first source/drain regions, and a second transistor including a second impurity layer containing boron and carbon, or arsenic or antimony, a second epitaxial layer formed above the second impurity layer, a second gate electrode formed above the second epitaxial layer with a second gate insulating film thinner than the first gate insulating film formed therebetween, and second source/drain regions. | 01-24-2013 |
20130069206 | SEMICONDUCTOR DEVICE, SEMICONDUCTOR WAFER AND MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE - A semiconductor device includes wiring layers formed over a semiconductor wafer, a via-layer between the wiring layers, conductive films in the wiring layers, and a via-plug in the via-layer connecting the conductive films of the wiring layers above and below, a scribe region at an outer periphery of a chip region along an edge of the semiconductor substrate and including a pad region in the vicinity of the edge, the pad region overlapping the conductive films of the plurality of wiring layers in the plan view, the plurality of wiring layers including first second wiring layers, the conductive film of the first wiring layer includes a first conductive pattern formed over an entire surface of said pad region in a plan view, and the conductive film of the second wiring layer includes a second conductive pattern formed in a part of the pad region in a plan view. | 03-21-2013 |
20130299892 | SEMICONDUCTOR DEVICE WITH STI AND METHOD FOR MANUFACTURING THE SEMICONDUCTOR DEVICE - A semiconductor device includes: a semiconductor substrate having first and second areas; an STI isolation region being made of an isolation trench formed in the semiconductor substrate and an insulating film burying the isolation trench and defining a plurality of active regions in the first and second areas; a first structure formed on an area from the active region in the first area to a nearby STI isolation region and having a first height; and a second structure formed on an area from the active region in the second area to a nearby STI isolation region and having a second height, wherein the surface of the said STI isolation region in the first area is lower than the surface of said STI isolation region in the second area. | 11-14-2013 |
20130302967 | SEMICONDUCTOR DEVICE WITH STI AND METHOD FOR MANUFACTURING THE SEMICONDUCTOR DEVICE - A semiconductor device includes: a semiconductor substrate having first and second areas; an STI isolation region being made of an isolation trench formed in the semiconductor substrate and an insulating film burying the isolation trench and defining a plurality of active regions in the first and second areas; a first structure formed on an area from the active region in the first area to a nearby STI isolation region and having a first height; and a second structure formed on an area from the active region in the second area to a nearby STI isolation region and having a second height, wherein the surface of the said STI isolation region in the first area is lower than the surface of said STI isolation region in the second area. | 11-14-2013 |
20140179072 | SEMICONDUCTOR DEVICE HAVING EPITAXIAL SEMICONDUCTOR LAYER ABOVE IMPURITY LAYER - The semiconductor device includes a first transistor including a first impurity layer of a first conductivity type formed in a first region of a semiconductor substrate, a first epitaxial semiconductor layer formed above the first impurity layer, a first gate insulating film formed above the first epitaxial semiconductor layer, and a first gate electrode formed above the first gate insulating film, and a second transistor including a second impurity layer of the second conductivity type formed in a second region of the semiconductor substrate, a second epitaxial semiconductor layer formed above the second impurity layer and having a thickness different from that of the first epitaxial semiconductor layer, a second gate insulating film formed above the second epitaxial semiconductor layer and having a film thickness equal to that of the first gate insulating film and a second gate electrode formed above the second gate insulating film. | 06-26-2014 |
20140235022 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - The semiconductor device includes a first transistor including a first impurity layer containing boron or phosphorus, a first epitaxial layer formed above the first impurity layer, a first gate electrode formed above the first epitaxial layer with a first gate insulating film formed therebetween and first source/drain regions, and a second transistor including a second impurity layer containing boron and carbon, or arsenic or antimony, a second epitaxial layer formed above the second impurity layer, a second gate electrode formed above the second epitaxial layer with a second gate insulating film thinner than the first gate insulating film formed therebetween, and second source/drain regions. | 08-21-2014 |
20140239456 | SEMICONDUCTOR WAFER AND ITS MANUFACTURE METHOD, AND SEMICONDUCTOR CHIP - A semiconductor wafer includes: a first semiconductor chip area formed with a semiconductor element; a second semiconductor chip area formed with a semiconductor element; and a scribe area sandwiched between said first and second semiconductor chip areas; wherein: the first semiconductor chip area includes a first metal ring surrounding the semiconductor element formed in the first semiconductor chip area; and the metal ring is constituted of a plurality of metal layers including an lower metal layer and an upper metal layer superposed upon the lower metal layer, and the upper metal layer is superposed upon the lower metal layer in such a manner that an outer side wall of the upper metal layer is flush with the outer side wall of the lower metal layer or is at an inner position of said first semiconductor chip area relative to said outer side wall of the lower metal layer. | 08-28-2014 |