Patent application number | Description | Published |
20100097859 | Nonvolatile memory device - A nonvolatile memory device having a three-dimensional structure includes first word line stacks in which first word lines are stacked; second word line stacks in which second word lines parallel to the first word lines are stacked; first connection lines connecting the first word lines; and second connection lines connecting the second word lines. Each of the first connection lines connects the first word lines located at a common layer, each of the second connection lines connects the second word lines located at a common layer and at least one second word line stack is disposed between a pair of the first word line stacks. | 04-22-2010 |
20100109065 | THREE-DIMENSIONAL NONVOLATILE MEMORY DEVICES HAVING SUB-DIVIDED ACTIVE BARS AND METHODS OF MANUFACTURING SUCH DEVICES - Nonvolatile memory devices are provided and methods of manufacturing such devices. In the method, conductive layers and insulating layers are alternatingly stacked on a substrate. A first sub-active bar is formed which penetrates a first subset of the conductive layers and a first subset of the insulating layers. The first sub-active bar is electrically connected with the substrate. A second sub-active bar is formed which penetrates a second subset of the conductive layers and a second subset of the insulating layers. The second sub-active bar is electrically connected to the first sub-active bar. A width of a bottom portion of the second sub-active bar is less than a width of a top portion of the second sub-active bar. | 05-06-2010 |
20100133606 | Three-dimensional semiconductor memory device - A three-dimensional semiconductor memory device includes word lines and gate interlayer insulation layers that are alternatively stacked on a semiconductor substrate while extending in a horizontal direction, a vertical channel layer that faces the word lines and extends upwardly from the semiconductor substrate, and a channel pad that extends from the vertical channel layer and is disposed on an uppermost gate interlayer insulation layer of the gate interlayer insulation layers. | 06-03-2010 |
20100171163 | THREE-DIMENSIONAL SEMICONDUCTOR DEVICES INCLUDING SELECT GATE PATTERNS HAVING DIFFERENT WORK FUNCTION FROM CELL GATE PATTERNS - A three-dimensional semiconductor device includes a vertical channel pattern on the substrate, a plurality of cell gate patterns and a select gate pattern stacked on the substrate along the sidewall of the vertical channel pattern, a charge storage pattern between the vertical channel pattern and the cell gate pattern and a select gate pattern between the vertical channel pattern and the select gate pattern. The select gate pattern has a different work function from the cell gate pattern | 07-08-2010 |
20100193861 | Three-Dimensional Memory Device - A three-dimensional semiconductor device includes a semiconductor substrate, vertical channel structures arranged on the semiconductor substrate in a matrix, a P-type semiconductor layer disposed at the semiconductor substrate to be in direct with the vertical channel structures, and a common source line disposed at the semiconductor substrate between the vertical channel structures. The common source line may be in contact with the P-type semiconductor layer. | 08-05-2010 |
20100213527 | Integrated Circuit Memory Devices Having Selection Transistors with Nonuniform Threshold Voltage Characteristics - Provided is a semiconductor memory device. In the semiconductor memory device, a lower selection gate controls a first channel region that is defined at a semiconductor substrate and a second channel region that is defined at the lower portion of an active pattern disposed on the semiconductor substrate. The first threshold voltage of the first channel region is different from the second threshold voltage of the second channel region. | 08-26-2010 |
20100224929 | NONVOLATILE MEMORY DEVICE - A vertical NAND string nonvolatile memory device can include an upper dopant region disposed at an upper portion of an active pattern and can have a lower surface located a level higher than an upper surface of an upper selection gate pattern. A lower dopant region can be disposed at a lower portion of the active pattern and can have an upper surface located at a level lower than a lower surface of a lower selection gate pattern. | 09-09-2010 |
20100254191 | SEMICONDUCTOR MEMORY DEVICE COMPRISING THREE-DIMENSIONAL MEMORY CELL ARRAY - A semiconductor memory device includes a substantially planar substrate; a memory string vertical to the substrate, the memory string comprising a plurality of storage cells; and a plurality of elongated word lines, each word line including a first portion substantially parallel to the substrate and connected to the memory string and a second portion substantially inclined relative to the substrate and extending above the substrate, wherein a first group of the plurality of word lines are electrically connected to first conductive lines disposed at a first side of the memory string, and a second group of the plurality of word lines are electrically connected to second conductive lines disposed at a second side of the memory string. | 10-07-2010 |
20100315875 | NON-VOLATILE MEMORY DEVICE HAVING VERTICAL STRUCTURE AND METHOD OF OPERATING THE SAME - Provided is a method of operating a non-volatile memory device. The method includes applying a turn-on voltage to each of first and second string select transistors of a first NAND string, applying first and second voltages to third and fourth string select transistors of a second NAND string, respectively, and applying a high voltage to word lines connected with memory cells of the first and second NAND strings. | 12-16-2010 |
20100320528 | THREE-DIMENSIONAL SEMICONDUCTOR MEMORY DEVICE - In a three-dimensional semiconductor memory device, the device includes a semiconductor substrate having a recessed region, an active pattern extending in a direction transverse to the recessed region, an insulating pillar being adjacent to the active pattern and extending in the direction transverse to the recessed region, and a lower select gate facing the active pattern and extending horizontally on the semiconductor substrate. The active pattern is disposed between the insulating pillar and the lower select gate. | 12-23-2010 |
20100322000 | PROGRAMMING METHODS FOR THREE-DIMENSIONAL MEMORY DEVICES HAVING MULTI-BIT PROGRAMMING, AND THREE-DIMENSIONAL MEMORY DEVICES PROGRAMMED THEREBY - In a method of multiple-bit programming of a three-dimensional memory device having arrays of memory cells that extend in horizontal and vertical directions relative to a substrate, the method comprises first programming a memory cell to be programmed to one among a first set of states. At least one neighboring memory cell that neighbors the memory cell to be programmed to one among the first set of states is then first programmed. Following the first programming of the at least one neighboring memory cell, second programming the memory cell to be programmed to one among a second set of states, wherein the second set of states has a number of states that is greater than the number of states in the first set of states. | 12-23-2010 |
20110012189 | SEMICONDUCTOR DEVICE AND METHOD OF FORMING THE SAME - A semiconductor device includes stacked-gate structures including a plurality of cell gate patterns and insulating patterns alternately stacked on a semiconductor substrate and extending in a first direction. Active patterns and gate dielectric patterns are disposed in the stacked-gate structures. The active patterns penetrate the stacked-gate structures and are spaced apart from each other in a second direction intersecting the first direction, and the gate dielectric patterns are interposed between the cell gate patterns and the active patterns and extend onto upper and lower surfaces of the cell gate patterns. The active patterns share the cell gate patterns in the stacked-gate structures. | 01-20-2011 |
20110065270 | THREE-DIMENSIONAL SEMICONDUCTOR MEMORY DEVICE AND A METHOD OF FABRICATING THE SAME - A method of forming a semiconductor memory device includes stacking a plurality of alternating first insulating layers and first sacrificial layers on a substrate to form a first multilayer structure, forming a first hole through the first multilayer structure, forming a first semiconductor pattern in the first hole, stacking a plurality of alternating second insulating layers and second sacrificial layers on the first multilayer structure to form a second multilayer structure, forming a second hole through the second multilayer structure to be aligned with the first hole, forming a second semiconductor pattern in the second hole, forming a trench to expose sidewalls of the first and second insulating layers at a side of the first and second semiconductor patterns, removing at least some portions of the first and second sacrificial layers to form a plurality of recess regions, forming an information storage layer along surfaces of the plurality of recess regions, and forming a conductive pattern within each recess region. | 03-17-2011 |
20110115010 | THREE-DIMENSIONAL SEMICONDUCTOR MEMORY DEVICE - Provided is a three-dimensional semiconductor memory device. The three-dimensional semiconductor memory device includes a substrate that has a cell array region including a pair of sub-cell regions and a strapping region interposed between the pair of sub-cell regions. A Plurality of sub-gates are sequentially stacked on the substrate in each of the sub-cell regions, and interconnections are electrically connected to extensions of the stacked sub-gates, respectively, which extend into the strapping region. Each of the interconnections is electrically connected to the extensions of the sub-gate which are disposed in the pair of the sub-cell regions, respectively, and which are located at the same level. | 05-19-2011 |
20110199825 | NONVOLATILE MEMORY DEVICE, OPERATING METHOD THEREOF, AND MEMORY SYSTEM INCLUDING THE SAME - Provided is a method of operating a nonvolatile memory device that includes a substrate and memory blocks having a plurality of memory cells stacked along a direction perpendicular to the substrate. The method includes: reading data from a selected sub block among sub blocks of a selected memory block and selectively refreshing each sub block of the selected memory block in response to the reading of the selected sub block, wherein each sub block of the selected memory block is separately erased. | 08-18-2011 |
20110199833 | NON-VOLATILE MEMORY DEVICES, OPERATING METHODS THEREOF AND MEMORY SYSTEMS INCLUDING THE SAME - Nonvolatile memory devices, operating methods thereof, and memory systems including the same. A nonvolatile memory device may include a memory cell array and a word line driver. The memory cell array may include a plurality of memory cells. The word line driver may be configured to apply word line voltages to a plurality of word lines connected to the plurality of memory cells, respectively. Magnitudes of the word line voltages may be determined according to locations of the plurality of word lines. | 08-18-2011 |
20110254069 | FLOATING GATE TYPE NONVOLATILE MEMORY DEVICE AND RELATED METHODS OF MANUFACTURE AND OPERATION - A floating gate type nonvolatile memory device comprises a semiconductor layer, wordlines crossing over the semiconductor layer, and a memory element disposed between the wordlines and facing the semiconductor layer. | 10-20-2011 |
20110287623 | Three-Dimensional Nonvolatile Memory Devices Having Sub-Divided Active Bars and Methods of Manufacturing Such Devices - Nonvolatile memory devices are provided and methods of manufacturing such devices. In the method, conductive layers and insulating layers are alternatingly stacked on a substrate. A first sub-active bar is formed which penetrates a first subset of the conductive layers and a first subset of the insulating layers. The first sub-active bar is electrically connected with the substrate. A second sub-active bar is formed which penetrates a second subset of the conductive layers and a second subset of the insulating layers. The second sub-active bar is electrically connected to the first sub-active bar. A width of a bottom portion of the second sub-active bar is less than a width of a top portion of the second sub-active bar. | 11-24-2011 |
20110305083 | NONVOLATILE MEMORY DEVICE - A nonvolatile memory device having a three-dimensional structure includes first word line stacks in which first word lines are stacked; second word line stacks in which second word lines parallel to the first word lines are stacked; first connection lines connecting the first word lines; and second connection lines connecting the second word lines. Each of the first connection lines connects the first word lines located at a common layer, each of the second connection lines connects the second word lines located at a common layer and at least one second word line stack is disposed between a pair of the first word line stacks. | 12-15-2011 |
20110310670 | VERTICALLY-INTEGRATED NONVOLATILE MEMORY DEVICES HAVING LATERALLY-INTEGRATED GROUND SELECT TRANSISTORS - Nonvolatile memory devices utilize vertically-stacked strings of nonvolatile memory cells (e.g., NAND-type strings) that can be selectively coupled to common source lines within a substrate. This selective coupling may be provided by lateral ground select transistors having different threshold voltages that account for different lateral spacings between the vertically-stacked strings of nonvolatile memory cells and the common source lines. | 12-22-2011 |
20120003800 | Methods of Forming Nonvolatile Memory Devices Having Vertically Integrated Nonvolatile Memory Cell Sub-Strings Therein and Nonvolatile Memory Devices Formed Thereby - Methods of forming nonvolatile memory devices according to embodiments of the invention include techniques to form highly integrated vertical stacks of nonvolatile memory cells. These vertical stacks of memory cells can utilize dummy memory cells to compensate for process artifacts that would otherwise yield relatively poor functioning memory cell strings when relatively large numbers of memory cells are stacked vertically on a semiconductor substrate using a plurality of vertical sub-strings electrically connected in series. | 01-05-2012 |
20120099387 | NONVOLATILE MEMORY DEVICE AND METHOD OF READING THE SAME USING DIFFERENT PRECHARGE VOLTAGES - A nonvolatile memory device includes a substrate, multiple doping regions, multiple cell strings and multiple page buffers. The doping regions extend in a first direction along the substrate and are spaced apart from one another in a second direction. The cell strings are provided according to a specific pattern between adjacent first and second doping regions among the multiple regions, each of the cell strings including multiple cell transistors stacked in a third direction perpendicular to the substrate. The page buffers are connected to the cell strings through bit lines, the page buffers being configured to provide precharge voltages to the bit lines during a read operation. Levels of the precharge voltages provided to the bit lines vary depending on distances between the cell strings and at least one of the first and second doping regions, respectively. | 04-26-2012 |
20120120740 | Nonvolatile Memory Devices, Erasing Methods Thereof and Memory Systems Including the Same - Disclosed are erase methods for a memory device which includes a substrate and a plurality of cell strings provided on the substrate, each cell string including a plurality of cell transistors stacked in a direction perpendicular to the substrate. The erase method includes applying a ground voltage to a ground selection line connected with ground selection transistors of the plurality of cell strings; applying a ground voltage to string selection lines connected with selection transistors of the plurality of cell strings; applying a word line erase voltage to word lines connected with memory cells of the plurality of cell strings; applying an erase voltage to the substrate; controlling a voltage of the ground selection line in response to applying of the erase voltage; and controlling voltages of the string selection lines in response to the applying of the erase voltage. | 05-17-2012 |
20120140562 | NONVOLATILE MEMORY DEVICE AND METHOD OF MAKING THE SAME - A nonvolatile memory device includes a substrate, a structure including a stack of alternately disposed layers of conductive and insulation materials disposed on the substrate, a plurality of pillars extending through the structure in a direction perpendicular to the substrate and into contact with the substrate, and information storage films interposed between the layers of conductive material and the pillars. In one embodiment, upper portions of the pillars located at the same level as an upper layer of the conductive material have structures that are different from lower portions of the pillars. In another embodiment, or in addition, upper string selection transistors constituted by portions of the pillars at the level of an upper layer of the conductive material are programmed differently from lower string selection transistors. | 06-07-2012 |
20120195125 | OPERATING METHOD OF NONVOLATILE MEMORY DEVICE - Disclosed is an operating method of a nonvolatile memory device, which includes programming the first selection transistors of the plurality of cell strings and programming the plurality of memory cells of the plurality of cell strings. The programming the first selection transistors comprises supplying a first voltage to a first bit line connected with a first selection transistor to be programmed and a different second voltage to a second bit line connected to a first selection transistor to be program inhibited; turning on the second selection transistors of the plurality of cell strings, and supplying a first program voltage to a selected first selection line among a plurality of first selection lines connected with the first selection transistors and a third voltage to an unselected first selection line among the plurality of first selection lines. | 08-02-2012 |
20120322252 | SEMICONDUCTOR MEMORY DEVICE COMPRISING THREE-DIMENSIONAL MEMORY CELL ARRAY - A semiconductor memory device includes a substantially planar substrate; a memory string vertical to the substrate, the memory string comprising a plurality of storage cells; and a plurality of elongated word lines, each word line including a first portion substantially parallel to the substrate and connected to the memory string and a second portion substantially inclined relative to the substrate and extending above the substrate, wherein a first group of the plurality of word lines are electrically connected to first conductive lines disposed at a first side of the memory string, and a second group of the plurality of word lines are electrically connected to second conductive lines disposed at a second side of the memory string. | 12-20-2012 |
20120327715 | NONVOLATILE MEMORY DEVICES HAVING VERTICALLY INTEGRATED NONVOLATILE MEMORY CELL SUB-STRINGS THEREIN - Methods of forming nonvolatile memory devices according to embodiments of the invention include techniques to form highly integrated vertical stacks of nonvolatile memory cells. These vertical stacks of memory cells can utilize dummy memory cells to compensate for process artifacts that would otherwise yield relatively poor functioning memory cell strings when relatively large numbers of memory cells are stacked vertically on a semiconductor substrate using a plurality of vertical sub-strings electrically connected in series. | 12-27-2012 |
20130007353 | CONTROL METHOD OF NONVOLATILE MEMORY DEVICE - According to example embodiments, a control method of a nonvolatile memory device, which includes a plurality of memory blocks on a substrate, each memory block including a plurality of sub blocks stacked in a direction perpendicular to the substrate and being configured to be erased independently and each sub block including a plurality of memory cells stacked in the direction perpendicular to the substrate. The control method includes comparing a count value of a first memory block with a reference value, the count value determined according to the number of program, read, or erase operations executed at the first memory block after data is programmed in the first memory block; and if the count value is greater than or equal to the reference value, performing a reprogram operation in which data programmed in first the memory block is read and the read data is programmed in a second memory block. | 01-03-2013 |
20130075807 | SEMICONDUCTOR MEMORY DEVICES HAVING SELECTION TRANSISTORS WITH NONUNIFORM THRESHOLD VOLTAGE CHARACTERISTICS - Provided is a semiconductor memory device. In the semiconductor memory device, a lower selection gate controls a first channel region that is defined at a semiconductor substrate and a second channel region that is defined at the lower portion of an active pattern disposed on the semiconductor substrate. The first threshold voltage of the first channel region is different from the second threshold voltage of the second channel region. | 03-28-2013 |
20130092994 | THREE-DIMENSIONAL SEMICONDUCTOR MEMORY DEVICE - A semiconductor memory device is provided including first and second cell strings formed on a substrate, the first and second cell strings jointly connected to a bit line, wherein each of the first and second cell strings includes a ground selection unit, a memory cell, and first and second string selection units sequentially formed on the substrate to be connected to each other, wherein the ground selection unit is connected to a ground selection line, the memory cell is connected to a word line, the first string selection unit is connected to a first string selection line, and the second string selection unit is connected to a second string selection line, and wherein the second string selection unit of the first cell string has a channel dopant region. | 04-18-2013 |
20130107629 | NONVOLATILE MEMORY DEVICES AND OPERATING METHODS THEREOF | 05-02-2013 |
20130171806 | THREE-DIMENSIONAL SEMICONDUCTOR MEMORY DEVICE - Provided is a three-dimensional semiconductor memory device. The three-dimensional semiconductor memory device includes a substrate that has a cell array region including a pair of sub-cell regions and a strapping region interposed between the pair of sub-cell regions. A Plurality of sub-gates are sequentially stacked on the substrate in each of the sub-cell regions, and interconnections are electrically connected to extensions of the stacked sub-gates, respectively, which extend into the strapping region. Each of the interconnections is electrically connected to the extensions of the sub-gate which are disposed in the pair of the sub-cell regions, respectively, and which are located at the same level. | 07-04-2013 |
20130182502 | Operating Methods of Nonvolatile Memory Devices - Disclosed are methods of operating a nonvolatile memory device which includes a substrate and a plurality of cell strings provided on the substrate, each cell string including a plurality of memory cells stacked in a direction perpendicular to the substrate. The methods may include applying a word line erase voltage to word lines connected to memory cells of the plurality of cell strings; floating ground selection lines connected to ground selection transistors of the plurality of cell strings and string selection lines connected to string selection transistors of the plurality of cell strings; applying a ground voltage to at least one lower dummy word line connected to at least one lower dummy memory cell between memory cells and a ground selection transistor in each of the plurality of cell strings; applying an erase voltage to the substrate; and floating the at least one lower dummy word line after applying of the erase voltage. | 07-18-2013 |
20130201758 | NON-VOLATILE MEMORY DEVICE HAVING VERTICAL STRUCTURE AND METHOD OF OPERATING THE SAME - Provided is a method of operating a non-volatile memory device. The method includes applying a turn-on voltage to each of first and second string select transistors of a first NAND string, applying first and second voltages to third and fourth string select transistors of a second NAND string, respectively, and applying a high voltage to word lines connected with memory cells of the first and second NAND strings. | 08-08-2013 |
20130248983 | THREE-DIMENSIONAL SEMICONDUCTOR MEMORY DEVICE - A three-dimensional semiconductor memory device includes word lines and gate interlayer insulation layers that are alternatively stacked on a semiconductor substrate while extending in a horizontal direction, a vertical channel layer that faces the word lines and extends upwardly from the semiconductor substrate, and a channel pad that extends from the vertical channel layer and is disposed on an uppermost gate interlayer insulation layer of the gate interlayer insulation layers. | 09-26-2013 |
20130313629 | THREE-DIMENSIONAL SEMICONDUCTOR MEMORY DEVICE AND A METHOD OF FABRICATING THE SAME - A method of forming a semiconductor memory device includes stacking a plurality of alternating first insulating layers and first sacrificial layers on a substrate to form a first multilayer structure, forming a first hole through the first multilayer structure, forming a first semiconductor pattern in the first hole, stacking a plurality of alternating second insulating layers and second sacrificial layers on the first multilayer structure to form a second multilayer structure, forming a second hole through the second multilayer structure to be aligned with the first hole, forming a second semiconductor pattern in the second hole, forming a trench to expose sidewalls of the first and second insulating layers at a side of the first and second semiconductor patterns, removing at least some portions of the first and second sacrificial layers to form a plurality of recess regions, forming an information storage layer, and forming a conductive pattern. | 11-28-2013 |
20130322172 | PROGRAMMING METHODS FOR THREE-DIMENSIONAL MEMORY DEVICES HAVING MULTI-BIT PROGRAMMING, AND THREE-DIMENSIONAL MEMORY DEVICES PROGRAMMED THEREBY - In a method of multiple-bit programming of a three-dimensional memory device having arrays of memory cells that extend in horizontal and vertical directions relative to a substrate, the method comprises first programming a memory cell to be programmed to one among a first set of states. At least one neighboring memory cell that neighbors the memory cell to be programmed to one among the first set of states is then first programmed. Following the first programming of the at least one neighboring memory cell, second programming the memory cell to be programmed to one among a second set of states, wherein the second set of states has a number of states that is greater than the number of states in the first set of states. | 12-05-2013 |
20140014889 | SEMICONDUCTOR DEVICES AND METHODS OF FABRICATING THE SAME - A semiconductor device includes a plurality of first insulating layers and a plurality of second layers alternately and vertically stacked on a substrate. Each of the plurality of second layers includes a horizontal electrode horizontally separated by a second insulating layer. A contact plug penetrates the plurality of first insulating layers and the second insulating layer of the plurality of second layers. | 01-16-2014 |
20140016408 | NONVOLATILE MEMORY DEVICES HAVING VERTICALLY INTEGRATED NONVOLATILE MEMORY CELL SUB-STRINGS THEREIN - Nonvolatile memory devices according to embodiments of the invention include highly integrated vertical stacks of nonvolatile memory cells. These vertical stacks of memory cells can utilize dummy memory cells to compensate for process artifacts that would otherwise yield relatively poor functioning memory cell strings when relatively large numbers of memory cells are stacked vertically on a semiconductor substrate using a plurality of vertical sub-strings electrically connected in series. | 01-16-2014 |
20140016413 | NONVOLATILE MEMORY DEVICE, OPERATING METHOD THEREOF, AND MEMORY SYSTEM INCLUDING THE SAME - Provided is a method of operating a nonvolatile memory device that includes a substrate and memory blocks having a plurality of memory cells stacked along a direction perpendicular to the substrate. The method includes: reading data from a selected sub block among sub blocks of a selected memory block and selectively refreshing each sub block of the selected memory block in response to the reading of the selected sub block, wherein each sub block of the selected memory block is separately erased. | 01-16-2014 |
20140063890 | SEMICONDUCTOR DEVICE - Provided is a semiconductor device including gate structures provided on a substrate, a separation insulating layer interposed between the gate structures, and a plurality of cell pillars connected to the substrate through each gate structure. Each gate structure may include horizontal electrodes vertically stacked on the substrate, and an interval between adjacent ones of the cell pillars is non-uniform. | 03-06-2014 |
20140092686 | VERTICALLY-INTEGRATED NONVOLATILE MEMORY DEVICES HAVING LATERALLY-INTEGRATED GROUND SELECT TRANSISTORS - Nonvolatile memory devices utilize vertically-stacked strings of nonvolatile memory cells (e.g., NAND-type strings) that can be selectively coupled to common source lines within a substrate. This selective coupling may be provided by lateral ground select transistors having different threshold voltages that account for different lateral spacings between the vertically-stacked strings of nonvolatile memory cells and the common source lines. | 04-03-2014 |
20140124846 | SEMICONDUCTOR MEMORY DEVICES HAVING SELECTION TRANSISTORS WITH NONUNIFORM THRESHOLD VOLTAGE CHARACTERISTICS - Provided is a semiconductor memory device. In the semiconductor memory device, a lower selection gate controls a first channel region that is defined at a semiconductor substrate and a second channel region that is defined at the lower portion of an active pattern disposed on the semiconductor substrate. The first threshold voltage of the first channel region is different from the second threshold voltage of the second channel region. | 05-08-2014 |
20140241064 | NONVOLATILE MEMORY AND OPERATING METHOD OF NONVOLATILE MEMORY - An operating method of a nonvolatile memory is provided which includes adjusting a threshold voltage of at least one first memory cell adjacent to a substrate in each cell string to be higher than a threshold voltage distribution of an erase state; and reading a second memory cell located above the at least one first memory cell in each cell string, wherein the at least one first memory cell in each cell string is a dummy memory cell. | 08-28-2014 |
20140241065 | Vertically-Integrated Nonvolatile Memory Devices Having Laterally-Integrated Ground Select Transistors - Nonvolatile memory devices utilize vertically-stacked strings of nonvolatile memory cells (e.g., NAND-type strings) that can be selectively coupled to common source lines within a substrate. This selective coupling may be provided by lateral ground select transistors having different threshold voltages that account for different lateral spacings between the vertically-stacked strings of nonvolatile memory cells and the common source lines. | 08-28-2014 |
20150078087 | CONTROL METHOD OF NONVOLATILE MEMORY DEVICE - According to example embodiments, a control method of a nonvolatile memory device, which includes a plurality of memory blocks on a substrate, each memory block including a plurality of sub blocks stacked in a direction perpendicular to the substrate and being configured to be erased independently and each sub block including a plurality of memory cells stacked in the direction perpendicular to the substrate. The control method includes comparing a count value of a first memory block with a reference value, the count value determined according to the number of program, read, or erase operations executed at the first memory block after data is programmed in the first memory block; and if the count value is greater than or equal to the reference value, performing a reprogram operation in which data programmed in first the memory block is read and the read data is programmed in a second memory block. | 03-19-2015 |