Patent application number | Description | Published |
20080251834 | NON-VOLATILE SEMICONDUCTOR MEMORY DEVICE AND ITS MANUFACTURING METHOD - In a non-volatile semiconductor memory device and a method for manufacturing the device, each memory cell and its select Tr have the same gate insulating film as a Vcc Tr. Further, the gate electrodes of a Vpp Tr and Vcc Tr are realized by the use of a first polysilicon layer. A material such as salicide or a metal, which differs from second polysilicon (which forms a control gate layer), may be provided on the first polysilicon layer. With the above features, a non-volatile semiconductor memory device can be manufactured by reduced steps and be operated at high speed in a reliable manner. | 10-16-2008 |
20090039409 | SEMICONDUCTOR MEMORY DEVICE INCLUDING MULTI-LAYER GATE STRUCTURE - A semiconductor memory device includes a first select transistor, first stepped portion, and a first contact plug. The first select transistor is formed on a side of an upper surface of a substrate and has a first multi-layer gate. The first stepped portion is formed by etching the substrate adjacent to the first multi-layer gate of the first select transistor such that the first stepped portion forms a cavity in the upper surface of the substrate. The first contact plug is formed in the first stepped portion. | 02-12-2009 |
20090149011 | NON-VOLATILE SEMICONDUCTOR MEMORY DEVICE AND PROCESS OF MANUFACTURING THE SAME - In device isolation trenches, a first device-isolation insulator film is formed to have recesses thereon and a second device-isolation insulator film is formed in the recesses. The uppermost portions at both ends of the first device-isolation insulator film are located higher than the uppermost portions at both ends of the second device-isolation insulator film. | 06-11-2009 |
20090173989 | NONVOLATILE SEMICONDUCTOR MEMORY - A nonvolatile semiconductor memory of an aspect of the present invention includes a memory cell including, a charge storage layer on a gate insulating film, a multilayer insulator on the charge storage layer, and a control gate electrode on the multilayer insulator, the gate insulating film including a first tunnel film, a first high-dielectric-constant film on the first tunnel film and offering a greater dielectric constant than the first tunnel film, and a second tunnel film on the first high-dielectric-constant film and having the same configuration as that of the first tunnel film, the multilayer insulator including a first insulating film, a second high-dielectric-constant film on the first insulating film and offering a greater dielectric constant than the first insulating film, and a second insulating film on the second high-dielectric-constant film and having the same configuration as that of the first insulating film. | 07-09-2009 |
20090230460 | NONVOLATILE SEMICONDUCTOR MEMORY - A nonvolatile semiconductor memory of an aspect of the present invention including a memory cell which has a first gate insulating film, a charge storage layer, a block insulating film, and a first gate electrode on the block insulating film, a first transistor which has a second gate insulating film and a second gate electrode, a second transistor which has a third gate insulating film and a third gate electrode, and a third transistor which has a fourth gate insulating film and a fourth gate electrode and which is different in drive voltage from the second transistor, wherein the second gate insulating film includes an insulating film of the same configuration as the block insulating film, the second gate electrode has the same structure as the first gate electrode, and the third and fourth gate electrodes partly include conductive layers of the same configuration as the first gate electrode. | 09-17-2009 |
20090278184 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE IN WHICH DECREASE IN COUPLING RATIO OF MEMORY CELLS IS SUPPRESSED - A first insulation film is formed on a semiconductor substrate. A first gate electrode is formed on the first insulation film. A second insulation film is formed on an upper surface and a side surface of the first gate electrode. A second gate electrode is formed on the second insulation film. The entirety of that part of the second gate electrode, which is located above the second insulation film formed on the upper surface of the first gate electrode, is a silicide layer. At least a portion of that part of the second gate electrode, which is located on the side surface of the first gate electrode, is a silicon layer. | 11-12-2009 |
20090278191 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE IN WHICH DECREASE IN COUPLING RATIO OF MEMORY CELLS IS SUPPRESSED - A first insulation film is formed on a semiconductor substrate. A first gate electrode is formed on the first insulation film. A second insulation film is formed on an upper surface and a side surface of the first gate electrode. A second gate electrode is formed on the second insulation film. The entirety of that part of the second gate electrode, which is located above the second insulation film formed on the upper surface of the first gate electrode, is a silicide layer. At least a portion of that part of the second gate electrode, which is located on the side surface of the first gate electrode, is a silicon layer. | 11-12-2009 |
20090283820 | NON-VOLATILE SEMICONDUCTOR MEMORY DEVICE - A non-volatile semiconductor memory device includes a memory cell array having a cell transistor and a selective transistor provided on a semiconductor substrate. The cell transistor includes a tunnel insulation film, a charge accumulation layer, a block insulation film, and a gate electrode on the substrate. The charge accumulation layer is disconnected between adjacent cell transistors. The selective transistor includes a gate insulation film and a gate electrode formed of the same material as the material of the block insulation film on the substrate. A step is provided on a surface of the substrate between the cell transistor and the selective transistor, such that the step is positioned higher on a side of the cell transistor and lower on a side of the selective transistor. | 11-19-2009 |
20100038704 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE SUPPRESSING FLUCTUATION IN THRESHOLD VOLTAGE - First and second memory cell transistors are isolated by an element isolation insulating film. A barrier insulating film covers the element isolation insulating film. The first memory cell transistor includes a first tunnel insulating film, a first charge storage layer made of an insulating film, a first block insulating film, and a first gate electrode. The second memory cell transistor includes a second tunnel insulating film, a second charge storage layer made of an insulating film, a second block insulating film, and a second gate electrode. The barrier insulating film is in contact with the first and second charge storage layers, and has a film thickness smaller than that of the first and second charge storage layers. | 02-18-2010 |
20100081250 | SEMICONDUCTOR DEVICE HAVING AN OXIDE FILM FORMED ON A SEMICONDUCTOR SUBSTRATE SIDEWALL OF AN ELEMENT REGION AND ON A SIDEWALL OF A GATE ELECTRODE - A first isolation is formed on a semiconductor substrate, and a first element region is isolated via the first isolation. A first gate insulating film is formed on the first element region, and a first gate electrode is formed on the first gate insulating film. A second isolation is formed on the semiconductor substrate, and a second element region is isolated via the second isolation. A second gate insulating film is formed on the second element region, and a second gate electrode is formed on the second gate insulating film. A first oxide film is formed between the first isolation and the first element region. A second oxide film is formed between the second isolation and the second element region. The first isolation has a width narrower than the second isolation, and the first oxide film has a thickness thinner than the second oxide film. | 04-01-2010 |
20100109069 | NONVOLATILE SEMICONDUCTOR STORAGE DEVICE AND METHOD OF MANUFACTURE THEREOF - A nonvolatile semiconductor storage device including a number of memory cells formed on a semiconductor substrate, each of the memory cells has a tunnel insulating film, a charge storage layer, a block insulating film, and a gate electrode which are formed in sequence on the substrate. The gate electrode is structured such that at least first and second gate electrode layers are stacked. The dimension in the direction of gate length of the second gate electrode layer, which is formed on the first gate electrode layer, is smaller than the dimension in the direction of gate length of the first gate electrode layer. | 05-06-2010 |
20100163957 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE INCLUDING MEMORY CELLS FORMED TO HAVE DOUBLE-LAYERED GATE ELECTRODES - A nonvolatile semiconductor memory device includes a plurality of floating gate electrodes respectively formed above a semiconductor substrate with first insulating films disposed therebetween, and a control gate electrode formed above the plurality of floating gate electrodes with a second insulating film disposed therebetween. In each of the plurality of floating gate electrodes is formed to have a width of an upper portion thereof in a channel width direction which is smaller than a width of a lower portion thereof in the channel width direction and one of contact surfaces thereof on at least opposed sides which contact the second insulating film is formed to have one surface, and the second insulating film has a maximum film thickness in a vertical direction, the maximum film thickness being set smaller than a distance from a lowest surface to a highest surface of the second insulating film in the vertical direction. | 07-01-2010 |
20100184266 | METHOD OF MANUFACTURING A NON-VOLATILE NAND MEMORY SEMICONDUCTOR INTEGRATED CIRCUIT - A semiconductor integrated circuit device includes first, second gate electrodes, first, second diffusion layers, contact electrodes electrically connected to the first diffusion layers, a first insulating film which has concave portions between the first and second gate electrodes and does not contain nitrogen as a main component, a second insulating film which is formed on the first insulating film and does not contain nitrogen as a main component, and a third insulating film formed on the first diffusion layers, first gate electrodes, second diffusion layers and second gate electrodes with the second insulating film disposed therebetween in a partial region. The second insulating film is formed to fill the concave portions and a portion between the first and second gate electrodes has a multi-layered structure containing at least the first and second insulating films. | 07-22-2010 |
20100221880 | NON-VOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD OF MANUFACTURING THE SAME - A non-volatile semiconductor memory device is disclosed, which comprises a memory cell unit including at least one memory cell transistor formed on a semiconductor substrate and having a laminated structure of a charge accumulation layer and a control gate layer, and a selection gate transistor one of the source/drain diffusion layer regions of which is connected to a bit line or a source line and the other of the source/drain diffusion layer regions of which is connected to the memory cell unit. The shape of the source diffusion layer region of the selection gate transistor is asymmetrical to the shape of the drain diffusion layer region thereof below the selection gate transistor. | 09-02-2010 |
20100230739 | NON-VOLATILE SEMICONDUCTOR MEMORY DEVICE AND PROCESS OF MANUFACTURING THE SAME - In device isolation trenches, a first device-isolation insulator film is formed to have recesses thereon and a second device-isolation insulator film is formed in the recesses. The uppermost portions at both ends of the first device-isolation insulator film are located higher than the uppermost portions at both ends of the second device-isolation insulator film. | 09-16-2010 |
20100230740 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND MANUFACTURING METHOD THEREOF - First and second memory cells have first and second channels, first and second tunnel insulating films, first and second charge storage layers formed of an insulating film, first and second block insulating films, and first and second gate electrodes. A first select transistor has a third channel, a first gate insulating film, and a first gate electrode. The first channel includes a first-conductivity-type region and a second-conductivity-type region which is formed on at least a part of the first-conductivity-type region and whose conductivity type is opposite to the first conductivity type. The third channel includes the first-conductivity-type region and the second-conductivity-type region formed on the first-conductivity-type region. The number of data stored in the first memory cell is smaller than that of data stored in the second memory cell. | 09-16-2010 |
20100327338 | SEMICONDUCTOR MEMORY DEVICE INCLUDING MULTI-LAYER GATE STRUCTURE - A semiconductor memory device includes a first select transistor, first stepped portion, and a first contact plug. The first select transistor is formed on a side of an upper surface of a substrate and has a first multi-layer gate. The first stepped portion is formed by etching the substrate adjacent to the first multi-layer gate of the first select transistor such that the first stepped portion forms a cavity in the upper surface of the substrate. The first contact plug is formed in the first stepped portion. | 12-30-2010 |
20110108905 | NONVOLATILE SEMICONDUCTOR MEMORY - A nonvolatile semiconductor memory includes first and second memory cells having a floating gate and a control gate. The floating gate of the first and second memory cells is comprised a first part, and a second part arranged on the first part, and a width of the second part in an extending direction of the control gate is narrower than that of the first part. A first space between the first parts of the first and second memory cells is filled with one kind of an insulator. The control gate is arranged at a second space between the second parts of the first and second memory cells. | 05-12-2011 |
20110108906 | NON-VOLATILE SEMICONDUCTOR MEMORY DEVICE AND ITS MANUFACTURING METHOD - In a non-volatile semiconductor memory device and a method for manufacturing the device, each memory cell and its select Tr have the same gate insulating film as a Vcc Tr. Further, the gate electrodes of a Vpp Tr and Vcc Tr are realized by the use of a first polysilicon layer. A material such as salicide or a metal, which differs from second polysilicon (which forms a control gate layer), may be provided on the first polysilicon layer. With the above features, a non-volatile semiconductor memory device can be manufactured by reduced steps and be operated at high speed in a reliable manner. | 05-12-2011 |
20110134700 | Nonvolatile Semiconductor Memory - A select gate transistor has a select gate electrode composed of a first-level conductive layer and a second-level conductive layer. The first-level conductive layer has contact areas. The second-level conductive layer has its portions removed that are located above the contact areas. Two adjacent select gate electrodes that are adjacent to each other in the column direction are arranged such that the contact areas of one select gate electrode are not opposed to the contact areas of the other select gate electrode. One select gate electrode has its first- and second-level conductive layers removed in their portions that are opposed to the contact areas of the other select gate electrode. | 06-09-2011 |
20110156126 | SEMICONDUCTOR DEVICE HAVING AN OXIDE FILM FORMED ON A SEMICONDUCTOR SUBSTRATE SIDEWALL OF AN ELEMENT REGION AND ON A SIDEWALL OF A GATE ELECTRODE - A first isolation is formed on a semiconductor substrate, and a first element region is isolated via the first isolation. A first gate insulating film is formed on the first element region, and a first gate electrode is formed on the first gate insulating film. A second isolation is formed on the semiconductor substrate, and a second element region is isolated via the second isolation. A second gate insulating film is formed on the second element region, and a second gate electrode is formed on the second gate insulating film. A first oxide film is formed between the first isolation and the first element region. A second oxide film is formed between the second isolation and the second element region. The first isolation has a width narrower than the second isolation, and the first oxide film has a thickness thinner than the second oxide film. | 06-30-2011 |
20110165745 | NONVOLATILE SEMICONDUCTOR MEMORY AND MANUFACTURING METHOD THEREOF - A nonvolatile semiconductor memory according to examples of the present invention comprises a memory cell and a peripheral transistor. The memory cell has a first intergate insulating film having a multilayer structure and provided on a floating gate electrode and an isolation insulating layer. The peripheral transistor has a second intergate insulating film having a multilayer structure and provided on a first gate electrode and a second isolation insulating layer. The first and second intergate insulating films have the same structure, and a lowermost insulating layer of the first intergate insulating film on the first isolation insulating layer is thinner than a lowermost insulating layer of the second intergate insulating film on the second isolation insulating layer. | 07-07-2011 |
20110175155 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE - In one embodiment, a nonvolatile semiconductor memory device includes a plurality of memory cell transistors disposed on device regions. Each of the memory cell transistors includes a tunnel insulator disposed on a device region, a charge storage layer disposed on the tunnel insulator, and formed of an insulator, a block insulator disposed on the charge storage layer, and a gate electrode disposed on the block insulator. The gate electrode of each memory cell transistor is isolated by an insulator from the gate electrode of an adjacent memory cell transistor adjacent in a gate length direction. Further, the block insulator is disposed on the device region extending in the gate length direction, and continuously disposed in regions under the gate electrodes of the memory cell transistors and in regions between the gate electrodes of the memory cell transistors. Further, the block insulator disposed in the regions between the gate electrodes includes a thin portion which has a smaller thickness than the block insulator formed in the regions under the gate electrodes. | 07-21-2011 |
20110220982 | NON-VOLATILE SEMICONDUCTOR MEMORY DEVICE AND PROCESS OF MANUFACTURING THE SAME - In device isolation trenches, a first device-isolation insulator film is formed to have recesses thereon and a second device-isolation insulator film is formed in the recesses. The uppermost portions at both ends of the first device-isolation insulator film are located higher than the uppermost portions at both ends of the second device-isolation insulator film. | 09-15-2011 |
20110248329 | METHOD OF MANUFACTURING A NON-VOLATILE NAND MEMORY SEMICONDUCTOR INTEGRATED CIRCUIT - A semiconductor integrated circuit device includes first, second gate electrodes, first, second diffusion layers, contact electrodes electrically connected to the first diffusion layers, a first insulating film which has concave portions between the first and second gate electrodes and does not contain nitrogen as a main component, a second insulating film which is formed on the first insulating film and does not contain nitrogen as a main component, and a third insulating film formed on the first diffusion layers, first gate electrodes, second diffusion layers and second gate electrodes with the second insulating film disposed therebetween in a partial region. The second insulating film is formed to fill the concave portions and a portion between the first and second gate electrodes has a multi-layered structure containing at least the first and second insulating films. | 10-13-2011 |
20110248330 | METHOD OF MANUFACTURING A NON-VOLATILE NAND MEMORY SEMICONDUCTOR INTEGRATED CIRCUIT - A semiconductor integrated circuit device includes first, second gate electrodes, first, second diffusion layers, contact electrodes electrically connected to the first diffusion layers, a first insulating film which has concave portions between the first and second gate electrodes and does not contain nitrogen as a main component, a second insulating film which is formed on the first insulating film and does not contain nitrogen as a main component, and a third insulating film formed on the first diffusion layers, first gate electrodes, second diffusion layers and second gate electrodes with the second insulating film disposed therebetween in a partial region. The second insulating film is formed to fill the concave portions and a portion between the first and second gate electrodes has a multi-layered structure containing at least the first and second insulating films. | 10-13-2011 |
20110298031 | SEMICONDUCTOR MEMORY DEVICE INCLUDING MULTI-LAYER GATE STRUCTURE - A semiconductor memory device includes a first select transistor, first stepped portion, and a first contact plug. The first select transistor is formed on a side of an upper surface of a substrate and has a first multi-layer gate. The first stepped portion is formed by etching the substrate adjacent to the first multi-layer gate of the first select transistor such that the first stepped portion forms a cavity in the upper surface of the substrate. The first contact plug is formed in the first stepped portion. | 12-08-2011 |
20120032251 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND MANUFACTURING METHOD THEREOF - First and second memory cells have first and second channels, first and second tunnel insulating films, first and second charge storage layers formed of an insulating film, first and second block insulating films, and first and second gate electrodes. A first select transistor has a third channel, a first gate insulating film, and a first gate electrode. The first channel includes a first-conductivity-type region and a second-conductivity-type region which is formed on at least a part of the first-conductivity-type region and whose conductivity type is opposite to the first conductivity type. The third channel includes the first-conductivity-type region and the second-conductivity-type region formed on the first-conductivity-type region. The number of data stored in the first memory cell is smaller than that of data stored in the second memory cell. | 02-09-2012 |
20120075903 | Nonvolatile Semiconductor Memory - A select gate transistor has a select gate electrode composed of a first-level conductive layer and a second-level conductive layer. The first-level conductive layer has contact areas. The second-level conductive layer has its portions removed that are located above the contact areas. Two adjacent select gate electrodes that are adjacent to each other in the column direction are arranged such that the contact areas of one select gate electrode are not opposed to the contact areas of the other select gate electrode. One select gate electrode has its first- and second-level conductive layers removed in their portions that are opposed to the contact areas of the other select gate electrode. | 03-29-2012 |
20120139029 | NONVOLATILE SEMICONDUCTOR MEMORY - A nonvolatile semiconductor memory of an aspect of the present invention includes a memory cell including, a charge storage layer on a gate insulating film, a multilayer insulator on the charge storage layer, and a control gate electrode on the multilayer insulator, the gate insulating film including a first tunnel film, a first high-dielectric-constant film on the first tunnel film and offering a greater dielectric constant than the first tunnel film, and a second tunnel film on the first high-dielectric-constant film and having the same configuration as that of the first tunnel film, the multilayer insulator including a first insulating film, a second high-dielectric-constant film on the first insulating film and offering a greater dielectric constant than the first insulating film, and a second insulating film on the second high-dielectric-constant film and having the same configuration as that of the first insulating film. | 06-07-2012 |
20120181598 | NONVOLATILE SEMICONDUCTOR MEMORY - A nonvolatile semiconductor memory includes first and second memory cells having a floating gate and a control gate. The floating gate of the first and second memory cells is comprised a first part, and a second part arranged on the first part, and a width of the second part in an extending direction of the control gate is narrower than that of the first part. A first space between the first parts of the first and second memory cells is filled with one kind of an insulator. The control gate is arranged at a second space between the second parts of the first and second memory cells. | 07-19-2012 |
20120223377 | SEMICONDUCTOR MEMORY DEVICE INCLUDING MULTI-LAYER GATE STRUCTURE - A semiconductor memory device includes a first select transistor, first stepped portion, and a first contact plug. The first select transistor is formed on a side of an upper surface of a substrate and has a first multi-layer gate. The first stepped portion is formed by etching the substrate adjacent to the first multi-layer gate of the first select transistor such that the first stepped portion forms a cavity in the upper surface of the substrate. The first contact plug is formed in the first stepped portion. | 09-06-2012 |
20120235226 | NONVOLATILE SEMICONDUCTOR MEMORY - A nonvolatile semiconductor memory of an aspect of the present invention includes a memory cell including, a charge storage layer on a gate insulating film, a multilayer insulator on the charge storage layer, and a control gate electrode on the multilayer insulator, the gate insulating film including a first tunnel film, a first high-dielectric-constant film on the first tunnel film and offering a greater dielectric constant than the first tunnel film, and a second tunnel film on the first high-dielectric-constant film and having the same configuration as that of the first tunnel film, the multilayer insulator including a first insulating film, a second high-dielectric-constant film on the first insulating film and offering a greater dielectric constant than the first insulating film, and a second insulating film on the second high-dielectric-constant film and having the same configuration as that of the first insulating film. | 09-20-2012 |
20120238087 | NONVOLATILE SEMICONDUCTOR MEMORY AND MANUFACTURING METHOD THEREOF - A nonvolatile semiconductor memory according to examples of the present invention comprises a memory cell and a peripheral transistor. The memory cell has a first intergate insulating film having a multilayer structure and provided on a floating gate electrode and an isolation insulating layer. The peripheral transistor has a second intergate insulating film having a multilayer structure and provided on a first gate electrode and a second isolation insulating layer. The first and second intergate insulating films have the same structure, and a lowermost insulating layer of the first intergate insulating film on the first isolation insulating layer is thinner than a lowermost insulating layer of the second intergate insulating film on the second isolation insulating layer. | 09-20-2012 |
20120248524 | NON-VOLATILE SEMICONDUCTOR MEMORY DEVICE AND PROCESS OF MANUFACTURING THE SAME - In device isolation trenches, a first device-isolation insulator film is formed to have recesses thereon and a second device-isolation insulator film is formed in the recesses. The uppermost portions at both ends of the first device-isolation insulator film are located higher than the uppermost portions at both ends of the second device-isolation insulator film. | 10-04-2012 |
20120273868 | NONVOLATILE SEMICONDUCTOR STORAGE DEVICE AND METHOD OF MANUFACTURE THEREOF - A nonvolatile semiconductor storage device including a number of memory cells formed on a semiconductor substrate, each of the memory cells has a tunnel insulating film, a charge storage layer, a block insulating film, and a gate electrode which are formed in sequence on the substrate. The gate electrode is structured such that at least first and second gate electrode layers are stacked. The dimension in the direction of gate length of the second gate electrode layer, which is formed on the first gate electrode layer, is smaller than the dimension in the direction of gate length of the first gate electrode layer. | 11-01-2012 |
20120302035 | SEMICONDUCTOR DEVICE HAVING AN OXIDE FILM FORMED ON A SEMICONDUCTOR SUBSTRATE SIDEWALL OF AN ELEMENT REGION AND ON A SIDEWALL OF A GATE ELECTRODE - A first isolation is formed on a semiconductor substrate, and a first element region is isolated via the first isolation. A first gate insulating film is formed on the first element region, and a first gate electrode is formed on the first gate insulating film. A second isolation is formed on the semiconductor substrate, and a second element region is isolated via the second isolation. A second gate insulating film is formed on the second element region, and a second gate electrode is formed on the second gate insulating film. A first oxide film is formed between the first isolation and the first element region. A second oxide film is formed between the second isolation and the second element region. The first isolation has a width narrower than the second isolation, and the first oxide film has a thickness thinner than the second oxide film. | 11-29-2012 |
20130026555 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE INCLUDING MEMORY CELLS FORMED TO HAVE DOUBLE-LAYERED GATE ELECTRODES - A nonvolatile semiconductor memory device includes a plurality of floating gate electrodes respectively formed above a semiconductor substrate with first insulating films disposed therebetween, and a control gate electrode formed above the plurality of floating gate electrodes with a second insulating film disposed therebetween. In each of the plurality of floating gate electrodes is formed to have a width of an upper portion thereof in a channel width direction which is smaller than a width of a lower portion thereof in the channel width direction and one of contact surfaces thereof on at least opposed sides which contact the second insulating film is formed to have one surface, and the second insulating film has a maximum film thickness in a vertical direction, the maximum film thickness being set smaller than a distance from a lowest surface to a highest surface of the second insulating film in the vertical direction. | 01-31-2013 |
20130037875 | SEMICONDUCTOR MEMORY DEVICE INCLUDING MULTI-LAYER GATE STRUCTURE - A semiconductor memory device includes a first select transistor, first stepped portion, and a first contact plug. The first select transistor is formed on a side of an upper surface of a substrate and has a first multi-layer gate. The first stepped portion is formed by etching the substrate adjacent to the first multi-layer gate of the first select transistor such that the first stepped portion forms a cavity in the upper surface of the substrate. The first contact plug is formed in the first stepped portion. | 02-14-2013 |
20130330897 | SEMICONDUCTOR MEMORY DEVICE INCLUDING MULTI-LAYER GATE STRUCTURE - A semiconductor memory device includes a first select transistor, first stepped portion, and a first contact plug. The first select transistor is formed on a side of an upper surface of a substrate and has a first multi-layer gate. The first stepped portion is formed by etching the substrate adjacent to the first multi-layer gate of the first select transistor such that the first stepped portion forms a cavity in the upper surface of the substrate. The first contact plug is formed in the first stepped portion. | 12-12-2013 |
20140015033 | NONVOLATILE SEMICONDUCTOR STORAGE DEVICE AND METHOD OF MANUFACTURE THEREOF - A nonvolatile semiconductor storage device including a number of memory cells formed on a semiconductor substrate, each of the memory cells has a tunnel insulating film, a charge storage layer, a block insulating film, and a gate electrode which are formed in sequence on the substrate. The gate electrode is structured such that at least first and second gate electrode layers are stacked. The dimension in the direction of gate length of the second gate electrode layer, which is formed on the first gate electrode layer, is smaller than the dimension in the direction of gate length of the first gate electrode layer. | 01-16-2014 |
20140017875 | NON-VOLATILE SEMICONDUCTOR MEMORY DEVICE AND PROCESS OF MANUFACTURING THE SAME - In device isolation trenches, a first device-isolation insulator film is formed to have recesses thereon and a second device-isolation insulator film is formed in the recesses. The uppermost portions at both ends of the first device-isolation insulator film are located higher than the uppermost portions at both ends of the second device-isolation insulator film. | 01-16-2014 |
20140183617 | NON-VOLATILE SEMICONDUCTOR MEMORY DEVICE AND ITS MANUFACTURING METHOD - In a non-volatile semiconductor memory device and a method for manufacturing the device, each memory cell and its select Tr have the same gate insulating film as a Vcc Tr. Further, the gate electrodes of a Vpp Tr and Vcc Tr are realized by the use of a first polysilicon layer. A material such as salicide or a metal, which differs from second polysilicon (which forms a control gate layer), may be provided on the first polysilicon layer. With the above features, a non-volatile semiconductor memory device can be manufactured by reduced steps and be operated at high speed in a reliable manner. | 07-03-2014 |
20140217494 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND MANUFACTURING METHOD THEREOF - First and second memory cells have first and second channels, first and second tunnel insulating films, first and second charge storage layers formed of an insulating film, first and second block insulating films, and first and second gate electrodes. A first select transistor has a third channel, a first gate insulating film, and a first gate electrode. The first channel includes a first-conductivity-type region and a second-conductivity-type region which is formed on at least a part of the first-conductivity-type region and whose conductivity type is opposite to the first conductivity type. The third channel includes the first-conductivity-type region and the second-conductivity-type region formed on the first-conductivity-type region. The number of data stored in the first memory cell is smaller than that of data stored in the second memory cell. | 08-07-2014 |
20140367766 | NONVOLATILE SEMICONDUCTOR STORAGE DEVICE AND METHOD OF MANUFACTURE THEREOF - A nonvolatile semiconductor storage device including a number of memory cells formed on a semiconductor substrate, each of the memory cells has a tunnel insulating film, a charge storage layer, a block insulating film, and a gate electrode which are formed in sequence on the substrate. The gate electrode is structured such that at least first and second gate electrode layers are stacked. The dimension in the direction of gate length of the second gate electrode layer, which is formed on the first gate electrode layer, is smaller than the dimension in the direction of gate length of the first gate electrode layer. | 12-18-2014 |