Patent application number | Description | Published |
20090001449 | SEMICONDUCTOR DEVICE AND A METHOD OF MANUFACTURING THE SAME - The present invention provides a technology capable of reducing an area occupied by a nonvolatile memory while improving the reliability of the nonvolatile memory. In a semiconductor device, the structure of a code flash memory cell is differentiated from that of a data flash memory cell. More specifically, in the code flash memory cell, a memory gate electrode is formed only over the side surface on one side of a control gate electrode to improve a reading speed. In the data flash memory cell, on the other hand, a memory gate electrode is formed over the side surfaces on both sides of a control gate electrode. By using a multivalued memory cell instead of a binary memory cell, the resulting data flash memory cell can have improved reliability while preventing deterioration of retention properties and reduce its area. | 01-01-2009 |
20090095995 | SEMICONDUCTOR DEVICE AND A METHOD OF MANUFACTURING THE SAME - In connection with a semiconductor device including a capacitor element there is provided a technique capable of improving the reliability of the capacitor element. A capacitor element is formed in an element isolation region formed over a semiconductor substrate. The capacitor element includes a lower electrode and an upper electrode formed over the lower electrode through a capacitor insulating film. Basically, the lower electrode and the upper electrode are formed from polysilicon films and a cobalt silicide film formed over the surfaces of the polysilicon films. End portions of the cobalt silicide film formed over the upper electrode are spaced apart a distance from end portions of the upper electrode. Besides, end portions of the cobalt silicide film formed over the lower electrode are spaced apart a distance from boundaries between the upper electrode and the lower electrode. | 04-16-2009 |
20090102059 | SEMICONDUCTOR DEVICE - Increase in the chip size of a semiconductor device is suppressed. The semiconductor device includes: circuit vias provided in an interlayer insulating film between upper and lower wiring layers and coupling these wiring layers together; a planar ring-shaped protecting via that is provided in the interlayer insulating film under an electrode pad and one side of which is coupled with the electrode pad; a protecting wiring layer comprised of a wiring layer coupled only with the other side of the protecting via; and a semiconductor element provided over the principal surface of a semiconductor substrate under the protecting wiring layer. The lower part of the electrode pad whose surface is exposed is encircled with the protecting via and the protecting wiring layer. The width of the protecting via is equal to or larger than the width of each circuit via. | 04-23-2009 |
20090256193 | SEMICONDUCTOR DEVICE AND A METHOD OF MANUFACTURING THE SAME - In a semiconductor device which includes a split-gate type memory cell having a control gate and a memory gate, a low withstand voltage MISFET and a high withstand voltage MISFET, variations of the threshold voltage of the memory cell are suppressed. A gate insulating film of a control gate is thinner than a gate insulating film of a high withstand voltage MISFET, the control gate is thicker than a gate electrode | 10-15-2009 |
20100059810 | SEMICONDUCTOR DEVICE AND A METHOD OF MANUFACTURING THE SAME - The present invention can realize a highly-integrated semiconductor device having a MONOS type nonvolatile memory cell equipped with a split gate structure without deteriorating the reliability of the device. A memory gate electrode of a memory nMIS has a height greater by from 20 to 100 nm than that of a select gate electrode of a select nMIS so that the width of a sidewall formed over one (side surface on the side of a source region) of the side surfaces of the memory gate electrode is adjusted to a width necessary for achieving desired disturb characteristics. In addition, a gate electrode of a peripheral second nMIS has a height not greater than the height of a select gate electrode of a select nMIS to reduce the width of a sidewall formed over the side surface of the gate electrode of the peripheral second nMIS so that a shared contact hole is prevented from being filled with the sidewall. | 03-11-2010 |
20100237404 | SEMICONDUCTOR DEVICE AND A METHOD OF MANUFACTURING THE SAME - A semiconductor device having a non-volatile memory is disclosed, whose disturb defect can be diminished or prevented. A memory cell of the non-volatile memory has a memory gate electrode formed over a main surface of a semiconductor substrate through an insulating film for charge storage. A first side wall is formed on a side face of the memory gate electrode, and at a side face of the first side wall, a second side wall is formed. On an upper surface of an n | 09-23-2010 |
20100264479 | SEMICONDUCTOR DEVICE AND A METHOD OF MANUFACTURING THE SAME - Provided is a semiconductor device having, over a semiconductor substrate, a control gate electrode and a memory gate electrode which are adjacent to each other and constitute a nonvolatile memory. The height of the memory gate electrode is lower than the height of the control gate electrode. A metal silicide film is formed over the upper surface of the control gate electrode, but not formed over the upper surface of the memory gate electrode. The memory gate electrode has, over the upper surface thereof, a sidewall insulating film made of silicon oxide. This sidewall insulating film is formed in the same step as that for the formation of respective sidewall insulating films over the sidewalls of the memory gate electrode and the control gate electrode. The present invention makes it possible to improve the production yield and performance of the semiconductor device having a nonvolatile memory. | 10-21-2010 |
20110008943 | SEMICONDUCTOR DEVICE AND A METHOD OF MANUFACTURING THE SAME - The present invention provides a technology capable of reducing an area occupied by a nonvolatile memory while improving the reliability of the nonvolatile memory. In a semiconductor device, the structure of a code flash memory cell is differentiated from that of a data flash memory cell. More specifically, in the code flash memory cell, a memory gate electrode is formed only over the side surface on one side of a control gate electrode to improve a reading speed. In the data flash memory cell, on the other hand, a memory gate electrode is formed over the side surfaces on both sides of a control gate electrode. By using a multivalued memory cell instead of a binary memory cell, the resulting data flash memory cell can have improved reliability while preventing deterioration of retention properties and reduce its area. | 01-13-2011 |
20120068307 | SEMICONDUCTOR DEVICE AND A METHOD OF MANUFACTURING THE SAME - In connection with a semiconductor device including a capacitor element there is provided a technique capable of improving the reliability of the capacitor element. A capacitor element is formed in an element isolation region formed over a semiconductor substrate. The capacitor element includes a lower electrode and an upper electrode formed over the lower electrode through a capacitor insulating film. Basically, the lower electrode and the upper electrode are formed from polysilicon films and a cobalt silicide film formed over the surfaces of the polysilicon films. End portions of the cobalt silicide film formed over the upper electrode are spaced apart a distance from end portions of the upper electrode. Besides, end portions of the cobalt silicide film formed over the lower electrode are spaced apart a distance from boundaries between the upper electrode and the lower electrode. | 03-22-2012 |
20120306051 | SEMICONDUCTOR DEVICE AND A METHOD OF MANUFACTORING THE SAME - In connection with a semiconductor device including a capacitor element there is provided a technique capable of improving the reliability of the capacitor element. A capacitor element is formed in an element isolation region formed over a semiconductor substrate. The capacitor element includes a lower electrode and an upper electrode formed over the lower electrode through a capacitor insulating film. Basically, the lower electrode and the upper electrode are formed from polysilicon films and a cobalt silicide film formed over the surfaces of the polysilicon films. End portions of the cobalt silicide film formed over the upper electrode are spaced apart a distance from end portions of the upper electrode. Besides, end portions of the cobalt silicide film formed over the lower electrode are spaced apart a distance from boundaries between the upper electrode and the lower electrode. | 12-06-2012 |
20120313160 | SEMICONDUCTOR DEVICE AND A METHOD OF MANUFACTURING THE SAME - Provided is a semiconductor device having, over a semiconductor substrate, a control gate electrode and a memory gate electrode which are adjacent to each other and constitute a nonvolatile memory. The height of the memory gate electrode is lower than the height of the control gate electrode. A metal silicide film is formed over the upper surface of the control gate electrode, but not formed over the upper surface of the memory gate electrode. The memory gate electrode has, over the upper surface thereof, a sidewall insulating film made of silicon oxide. This sidewall insulating film is formed in the same step as that for the formation of respective sidewall insulating films over the sidewalls of the memory gate electrode and the control gate electrode. The present invention makes it possible to improve the production yield and performance of the semiconductor device having a nonvolatile memory. | 12-13-2012 |
20130049099 | Semiconductor Device - A semiconductor memory array includes a first nonvolatile memory cell having a first charge storage layer and a first gate electrode and a second nonvolatile memory cell, adjacent to the first memory cell in a first direction, having a second charge storage layer and a second gate electrode. The first and second electrodes extend in a second direction perpendicular to the first direction, the first electrode has a first contact section extending toward the second electrode in the first direction, and the second electrode has a second contact section extending toward the first electrode in the first direction. The first and second contact positions are shifted in the second direction, respectively, and the first electrode and the first contact section are electrically separated from the second electrode and the second contact section. | 02-28-2013 |
20130234289 | SEMICONDUCTOR DEVICE AND A METHOD OF MANUFACTURING THE SAME - In connection with a semiconductor device including a capacitor element there is provided a technique capable of improving the reliability of the capacitor element. A capacitor element is formed in an element isolation region formed over a semiconductor substrate. The capacitor element includes a lower electrode and an upper electrode formed over the lower electrode through a capacitor insulating film. Basically, the lower electrode and the upper electrode are formed from polysilicon films and a cobalt silicide film formed over the surfaces of the polysilicon films. End portions of the cobalt silicide film formed over the upper electrode are spaced apart a distance from end portions of the upper electrode. Besides, end portions of the cobalt silicide film formed over the lower electrode are spaced apart a distance from boundaries between the upper electrode and the lower electrode. | 09-12-2013 |
20130285057 | SEMICONDUCTOR DEVICE - Increase in the chip size of a semiconductor device is suppressed. The semiconductor device includes: circuit vias provided in an interlayer insulating film between upper and lower wiring layers and coupling these wiring layers together; a planar ring-shaped protecting via that is provided in the interlayer insulating film under an electrode pad and one side of which is coupled with the electrode pad; a protecting wiring layer comprised of a wiring layer coupled only with the other side of the protecting via; and a semiconductor element provided over the principal surface of a semiconductor substrate under the protecting wiring layer. The lower part of the electrode pad whose surface is exposed is encircled with the protecting via and the protecting wiring layer. The width of the protecting via is equal to or larger than the width of each circuit via. | 10-31-2013 |
20130334592 | Semiconductor Device - A semiconductor memory array includes a first nonvolatile memory cell having a first charge storage layer and a first gate electrode and a second nonvolatile memory cell, adjacent to the first memory cell in a first direction, having a second charge storage layer and a second gate electrode. The first and second electrodes extend in a second direction perpendicular to the first direction, the first electrode has a first contact section extending toward the second electrode in the first direction, and the second electrode has a second contact section extending toward the first electrode in the first direction. The first and second contact positions are shifted in the second direction, respectively, and the first electrode and the first contact section are electrically separated from the second electrode and the second contact section. | 12-19-2013 |