Patent application number | Description | Published |
20090161427 | NON-VOLATILE SEMICONDUCTOR STORAGE DEVICE - A non-volatile semiconductor storage device includes: a memory cell array having memory cells arranged therein, the memory cells storing data in a non-volatile manner; and a plurality of transfer transistors transferring a voltage to the memory cells, the voltage to be supplied for data read, write and erase operations with respect to the memory cells. Each of the transfer transistors includes: a gate electrode formed on a semiconductor substrate via a gate insulation film; and diffusion layers formed to sandwich the gate electrode therebetween and functioning as drain/source layers. Upper layer wirings are provided above the diffusion layers and provided with a predetermined voltage to prevent depletion of the diffusion layers at least when the transfer transistors become conductive. | 06-25-2009 |
20090294824 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE - A first select transistor is connected to one end of a plurality of memory cell transistors that are serially connected. A second select transistor is connected to the other end of the serially connected memory cell transistors. A first impurity diffusion region is formed in a semiconductor substrate and constitutes a first main electrode of the first select transistor. A second impurity diffusion region is formed in the semiconductor substrate and constitutes a second main electrode of the second select transistor. A depth of the first impurity diffusion region is greater than a depth of the second impurity diffusion region. | 12-03-2009 |
20090316478 | SEMICONDUCTOR MEMORY DEVICE - A semiconductor memory device includes first to third memory cell units each including a first select transistor, a second select transistor and a plurality of memory cell transistors which are connected in series in a first direction between the first select transistor and the second select transistor, the first and second select transistors of the respective memory cell transistors being disposed to neighbor in a second direction crossing the first direction. Those of the memory cell transistors, which neighbor the first and second select transistors, are used as select memory cell transistors. | 12-24-2009 |
20100013028 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A semiconductor device with a high-voltage transistor and a low-voltage transistor includes an isolation insulating film between a first element region of the high-voltage transistor and a second element region of the low-voltage transistor, a first gate insulating film on a semiconductor substrate in the first element region, a first gate electrode on the first gate insulating film, a second gate insulating film on the semiconductor substrate in the second element region, and a second gate electrode on the second gate insulating film. The isolation insulating film includes a first isolation region adjacent to a surrounding area of the first element region and a second isolation region adjacent to a surrounding area of the second element region. A bottom of the second isolation region is lower than a bottom of the first isolation region. The first gate insulating film is thicker than the second gate insulating film. | 01-21-2010 |
20100044769 | METHOD OF MANUFACTURE OF CONTACT PLUG AND INTERCONNECTION LAYER OF SEMICONDUCTOR DEVICE - A method of manufacturing a semiconductor device including forming two first gate electrodes along a first direction on a first surface of a semiconductor substrate and source/drain areas sandwiching a channel region under each of the first gate electrodes, forming a first interlayer insulating layer to fill a region between the first gate electrodes, lowering a top of the first interlayer insulating layer, depositing a second interlayer insulating layer on the first interlayer insulating layer and the first gate electrodes, planarizing a surface of the second interlayer insulating layer, and forming an interconnect layer in the second interlayer insulating layer and a contact plug in the first interlayer insulating layer and the second interlayer insulating layer so that the contact plug is in contact with the interconnect layer and one of the source/drain areas. | 02-25-2010 |
20100124117 | NONVOLATILE SEMICONDUCTOR MEMORY - A memory includes a first word line which is connected to a control gate electrode of a first memory cell, a second word line which is connected to a control gate electrode of a second memory cell, a potential transfer line which is connected to both of the first and second word lines, a first N-channel MOS transistor which is connected between the first word line and the potential transfer line, and a second N-channel MOS transistor which is connected between the second word line and the potential transfer line. A control circuit supplies a first potential with a plus value to a semiconductor substrate, and supplies a second potential with the plus value lower than the first potential to the potential transfer line, to turn the first N-channel MOS transistor on, and to turn the second N-channel MOS transistor off, in erasing data of the first memory cell. | 05-20-2010 |
20100270606 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD OF FORMING THE SAME - A peripheral circuit area is formed around a memory cell array area. The peripheral circuit area has element regions, an element isolation region isolating the element regions, and field-effect transistor formed in each of the element regions and including a gate electrode extending in a channel width direction, on a semiconductor substrate. An end portion and a corner portion of the gate electrode are on the element isolation region. A radius of curvature of the corner portion of the gate electrode is smaller than a length from the end portion of the element region in the channel width direction to the end portion of the gate electrode in the channel width direction, and is less than 85 nm. | 10-28-2010 |
20100301426 | DEPLETION MOS TRANSISTOR AND ENHANCEMENT MOS TRANSISTOR - A semiconductor memory device includes a first transistor. The first transistor includes a gate electrode, a channel region, a source region, a source region, an overlapping region, a contact region, and an impurity diffusion region. The channel region has a first impurity concentration. The source and drain regions have a second impurity concentration. The overlapping region is formed in the semiconductor layer where the channel region overlaps the source region and the drain region, and has a third impurity concentration. The contact region has a fourth impurity concentration. The impurity diffusion region has a fifth impurity concentration higher than the second impurity concentration and lower than the fourth impurity concentration. The impurity diffusion region is in contact with the contact region and away from the overlapping region and positioned at least in a region between the contact region and the overlapping region. | 12-02-2010 |
20100314677 | SEMICONDUCTOR STORAGE DEVICE AND METHOD OF MANUFACTURING THE SAME - A non-volatile semiconductor storage device includes: a semiconductor substrate; a semiconductor layer formed on the semiconductor substrate; a first device isolation/insulation film formed in a trench, the trench formed in the semiconductor layer, with a first direction taken as a longitudinal direction; a device formation region formed by separating the semiconductor layer by the first device isolation/insulation film with the first direction taken as a longitudinal direction; and a memory transistor disposed on the device formation region. The first device isolation/insulation film and the device formation region have an impurity of a first conductivity type. An impurity concentration of the impurity of the first conductivity type in the first device isolation/insulation film is higher than that in the device formation region. | 12-16-2010 |
20110018046 | METHOD OF MANUFACTURE OF CONTACT PLUG AND INTERCONNECTION LAYER OF SEMICONDUCTOR DEVICE - A method of manufacturing a semiconductor device including forming two first gate electrodes along a first direction on a first surface of a semiconductor substrate and source/drain areas sandwiching a channel region under each of the first gate electrodes, forming a first interlayer insulating layer to fill a region between the first gate electrodes, lowering a top of the first interlayer insulating layer, depositing a second interlayer insulating layer on the first interlayer insulating layer and the first gate electrodes, planarizing a surface of the second interlayer insulating layer, and forming an interconnect layer in the second interlayer insulating layer and a contact plug in the first interlayer insulating layer and the second interlayer insulating layer so that the contact plug is in contact with the interconnect layer and one of the source/drain areas. | 01-27-2011 |
20110073926 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE - A nonvolatile semiconductor memory device includes a memory cell array and plural transfer transistors. The plural transfer transistors include: a gate electrode formed on a semiconductor substrate via a gate insulating film; a first diffused region formed in a surface of the semiconductor substrate located under the gate electrode; a second diffused region formed in a surface of the semiconductor substrate adjoining the first diffused region; and a third diffused region formed in a surface of the semiconductor substrate sandwiching the first diffused region with the second diffused region. The third diffused region includes an overlapping region overlapping the first diffused region. A first wire is disposed above the overlapping region. The first wire is supplied with at least a certain voltage for preventing formation of a depletion region in the third diffused region when the transfer transistor transfers the voltage used for writing. | 03-31-2011 |
20110108901 | SEMICONDUCTOR STORAGE DEVICE - Device isolation/insulation films each have a first height within a first area and a second height higher than the first height within a second area. At least the device isolation/insulation films adjacent to a contact diffusion region exist in the second area, and the device isolation/insulation films adjacent to memory transistors exist in the first area. The device isolation/insulation films are implanted with an impurity of a first conductivity type, and device formation regions each have a diffusion region of the first conductivity type, the diffusion region being formed by diffusion of the impurity of the first conductivity type from the device isolation/insulation films. | 05-12-2011 |
20110193152 | HIGH-VOLTAGE TRANSISTOR HAVING SHIELDING GATE - A semiconductor device includes a plurality of high-voltage insulated-gate field-effect transistors arranged in a matrix form on the main surface of a semiconductor substrate and each having a gate electrode, a gate electrode contact formed on the gate electrode, and a wiring layer which is formed on the gate electrode contacts adjacent in a gate-width direction to electrically connect the gate electrodes arranged in the gate-width direction. And the device includes shielding gates provided on portions of an element isolation region which lie between the transistors adjacent in the gate-width direction and gate-length direction and used to apply reference potential or potential of a polarity different from that of potential applied to the gate of the transistor to turn on the current path of the transistor to the element isolation region. | 08-11-2011 |
20120032243 | SEMICONDUCTOR DEVICE - According to one embodiment, a semiconductor device includes at least one semiconductor region provided in a semiconductor substrate, and a capacitor group including a plurality of capacitors provided in the semiconductor region, each capacitor including a capacitor insulating film provided on the semiconductor region, a capacitor electrode provided on the capacitor insulating film, and at least one diffusion layer provided in the semiconductor region adjacent to the capacitor electrode. | 02-09-2012 |
20120061766 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - In the device, first and second transistors have first and second gates and first and second source/drain regions, respectively. First and second contacts are electrically connected to the first and the second source/drain regions, respectively. A width of a first bottom surface if the first contacts in a gate width direction of the first-gate is wider than a width of the first bottom in a gate length direction of the first-gate. Widths of a second bottom surface of the second-contact are narrower than the longitudinal direction width of the first bottom. The high-concentration region is formed between the first source/drain regions and the first-contact. Extending widths of an outline of the high-concentration region extending from an outline of the first bottom in the longitudinal direction is larger than extending widths of an outline of the high-concentration region extending from an outline thereof in the short direction. | 03-15-2012 |
20120193698 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD OF MANUFACTURING THE SAME - According to one embodiment, a nonvolatile semiconductor memory device includes an element region, a gate insulating film, a first gate electrode, an intergate insulating film, a second gate electrode and an element isolation region. The gate insulating film is formed on the element region. The first gate electrode is formed on the gate insulating film. The intergate insulating film is formed on the first gate electrode and has an opening. The second gate electrode is formed on the intergate insulating film and in contact with the first gate electrode via the opening. The element isolation region encloses a laminated structure formed by the element region, the gate insulating film, and the first gate electrode. The air gap is formed between the element isolation region and side surfaces of the element region, the gate insulating film and the first gate electrode. | 08-02-2012 |
20120199896 | NON-VOLATILE SEMICONDUCTOR MEMORY DEVICE FOR SUPPRESSING DETERIORATION IN JUNCTION BREAKDOWN VOLTAGE AND SURFACE BREAKDOWN VOLTAGE OF TRANSISTOR - According to one embodiment, a non-volatile semiconductor memory device includes a plurality of memory cells and a transistor. The transistor includes a gate insulating film, a gate electrode on the gate insulating film, a sidewall insulating film on both side surfaces of the gate electrode, a source diffusion layer corresponding to the sidewall insulating film, a first hollow formed in a position at a height less than a bottom surface of the gate insulating film directly below an outer side surface of the sidewall insulating film of another side of the gate electrode, a second hollow formed in the first hollow at a position at a height less than the first hollow, and a drain diffusion layer corresponding to another side of the gate electrode and including a low-concentration drain region formed on a bottom surface of the second hollow and a high-concentration drain region. | 08-09-2012 |
20120217584 | SEMICONDUCTOR MEMORY DEVICE - In one embodiment, a semiconductor memory device includes a substrate, and device regions in the substrate to extend in a first direction. The device further includes select gates on the substrate to extend in a second direction, and a contact region provided between the select gates and including contact plugs on the respective device regions. The contact region includes partial regions, in each of which N contact plugs are disposed on N successive device regions to be arranged on a straight line being non-parallel to the first and second directions, where N is an integer of 2 or more. The contact region includes the partial regions of at least two types whose values of N are different. Further, each of the contact plugs has a planar shape of an ellipse, and is arranged so that a major axis of the ellipse is tilted with respect to the first direction. | 08-30-2012 |
20120235218 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - According to one embodiment, a device includes a semiconductor substrate, a first region including a first well which is formed in substrate, a second well which is formed in substrate and on first well, and a memory cell which is formed on second well, and a second region including a third well which is formed in substrate, and a first transistor which is formed on third well. The device includes a third region including a second transistor which is formed on semiconductor substrate, and a fourth region including a fourth well which is formed in semiconductor substrate, a fifth well which is formed in substrate and on fourth well, and a third transistor which is formed on fifth well. Bottoms of first well and fourth well are lower than a bottom of third well, and bottom of third well is lower than bottoms of second well and fifth well. | 09-20-2012 |
20120243358 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - According to one embodiment, a semiconductor device includes a semiconductor substrate including a device region which is isolated by a device isolation film, a first conductive layer provided on the device region via a gate insulation film, an inter-gate insulation film provided on the first conductive layer and including an opening on the first conductive layer, a second conductive layer disposed over the device region and the device isolation film via the inter-gate insulation film, a third conductive layer provided on the first conductive layer, isolated from the second conductive layer by a peripheral trench, and connected to the first conductive layer via the opening of the inter-gate insulation film, and source/drain diffusion layers provided, spaced apart, in the device region in a manner to sandwich the first conductive layer. | 09-27-2012 |
20130264627 | HIGH-VOLTAGE TRANSISTOR HAVING SHIELDING GATE - A semiconductor device includes a plurality of high-voltage insulated-gate field-effect transistors arranged in a matrix form on the main surface of a semiconductor substrate and each having a gate electrode, a gate electrode contact formed on the gate electrode, and a wiring layer which is formed on the gate electrode contacts adjacent in a gate-width direction to electrically connect the gate electrodes arranged in the gate-width direction. And the device includes shielding gates provided on portions of an element isolation region which lie between the transistors adjacent in the gate-width direction and gate-length direction and used to apply reference potential or potential of a polarity different from that of potential applied to the gate of the transistor to turn on the current path of the transistor to the element isolation region. | 10-10-2013 |
20140117458 | HIGH-VOLTAGE TRANSISTOR HAVING SHIELDING GATE - A semiconductor device includes a plurality of high-voltage insulated-gate field-effect transistors arranged in a matrix form on the main surface of a semiconductor substrate and each having a gate electrode, a gate electrode contact formed on the gate electrode, and a wiring layer which is formed on the gate electrode contacts adjacent in a gate-width direction to electrically connect the gate electrodes arranged in the gate-width direction. And the device includes shielding gates provided on portions of an element isolation region which lie between the transistors adjacent in the gate-width direction and gate-length direction and used to apply reference potential or potential of a polarity different from that of potential applied to the gate of the transistor to turn on the current path of the transistor to the element isolation region. | 05-01-2014 |
20140264531 | NONVOLATILE SEMICONDUCTOR MEMORY - According to one embodiment, memory includes a memory cell transistor including a floating gate electrode, a control gate electrode and a first inter-gate insulating film between floating gate and control gate electrodes, a field effect transistor including a lower electrode layer, an upper electrode layer, and a second inter-gate insulating film between the lower and upper electrode layers. The lower electrode layer having an n-type silicon film, the second inter-gate insulating film having a first opening, and the upper electrode layer having a p-type silicon film. The p-type silicon film is provided on the n-type silicon film via the first opening. | 09-18-2014 |
20140284713 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE - A transfer transistor includes a pair of first diffusion regions and a gate electrode layer. The pair of first diffusion regions are formed in a surface of a semiconductor substrate, and are each connected to a contact. The gate electrode layer is formed on the semiconductor substrate via a gate insulating layer and has a pair of openings each surrounding the contact. | 09-25-2014 |