Patent application number | Description | Published |
20080225591 | NONVOLATILE SEMICONDUCTOR MEMORY - A nonvolatile semiconductor memory according to an aspect of the invention includes memory cell arrays including plural cell units, a power supply pad disposed on one end in a first direction of the memory cell arrays, and page buffers disposed in the first direction of the memory cell arrays. The nonvolatile semiconductor memory also includes plural bit lines which are disposed on the memory cell arrays while extending in the first direction and a first power supply line which is disposed on the plural bit lines on the memory cell arrays to connect the power supply pad and the page buffers. | 09-18-2008 |
20080291716 | METHOD OF PROGRAMMING A NON-VOLATILE MEMORY DEVICE - A method of programming a non-volatile memory device with memory cells formed of variable resistance elements and disposed between word lines and bit lines, includes: previously charging a selected word line and a selected bit line together with a non-selected word line and a non-selected bit line up to a certain voltage; and further charging the selected word line and the non-selected bit line up to a program voltage higher than the certain voltage and a program-block voltage, respectively, and simultaneously discharging the selected bit line. | 11-27-2008 |
20080291742 | SEMICONDUCTOR MEMORY DEVICE - A semiconductor memory device is disclosed, which includes a plurality of NAND cells each comprising a plurality of series-connected memory cell transistors, and a drain-side select transistor and a source-side select transistor connected to a drain-side end and a source-side end of the series-connected memory cell transistors, respectively, a source line commonly connected to the source-side select transistors in the plurality of NAND cells, a first discharge circuit which is connected between the source line and a reference potential and whose conduction/non-conduction is controlled by a first control signal, and a second discharge circuit which is connected between the source line and the reference potential and whose conduction/non-conduction is controlled by a second control signal different from the first control signal. | 11-27-2008 |
20090010039 | NON-VOLATILE MEMORY DEVICE - According to one embodiment, a nonvolatile memory device includes: a memory cell array including memory cells each having a variable resistance element for nonvolatilely storing data identified by an electrically rewritable resistance value; a first data latch storing write and erase data to be written on a given group of memory cells of the memory cell array for a write and erase operation; and a second data latch storing reference data for performing a compensation operation of the given group to compensate write and erase disturbance accompanied by the write or erase operation. | 01-08-2009 |
20090052227 | NON-VOLATILE MEMORY DEVICE AND METHOD FOR WRITING DATA THERETO - The present invention provides a method for writing data to a non-volatile memory device having first wirings and second wirings intersecting one another and memory cells arranged at each intersection therebetween, each of the memory cells having a variable resistive element and a rectifying element connected in series. According to the method, the second wirings are charged to a certain voltage not less than a rectifying-element threshold value, prior to a rise in a selected first wiring. Then, a selected first wiring is charged to a voltage required for writing or erasing, after which a selected second wiring is discharged. | 02-26-2009 |
20090073763 | METHOD FOR CONTROLLING A NON-VOLATILE SEMICONDUCTOR MEMORY DEVICE - A non-volatile semiconductor memory device has a NAND string, in which multiple memory cells are connected in series. A read procedure is performed for a selected memory cell in the NAND string on the condition that the selected memory cell is applied with a selected voltage while unselected memory cells are driven to be turned on without regard to cell data thereof. In the read procedure, a first read pass voltage is applied to unselected memory cells except an adjacent and unselected memory cell disposed adjacent to the selected memory cell, the adjacent and unselected memory cell being completed in data write later than the selected memory cell, and a second read pass voltage higher than the first read pass voltage is applied to the adjacent and unselected memory cell. | 03-19-2009 |
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 |
20090244978 | SEMICONDUCTOR MEMORY DEVICE - A semiconductor memory device comprises a plurality of memory cells connected to a bit line; and a sense amplifier operative to sense the magnitude of cell current flowing via the bit line in a selected memory cell connected to the bit line to determine the value of data stored in the memory cell. The sense amplifier includes a first transistor for precharge operative to supply current in the bit line via a first and a second sense node, a second transistor for charge transfer interposed between the first and second sense nodes, and a third transistor for continuous current supply operative to supply current in the bit line not via the first and second sense nodes. | 10-01-2009 |
20090262579 | NON-VOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD OF WRITING DATA IN NON-VOLATILE SEMICONDUCTOR MEMORY DEVICES - The device has a data write mode to boost a first boost channel region that contains a non-write selected memory cell and non-selected memory cells located closer to the first selection gate transistor, and a second boost channel region that contains non-selected memory cells located closer to the second selection gate transistor than the selected memory cell, both electrically separated from each other. In this mode, a write non-selection voltage applied to a non-selected memory cell next to the second selection gate transistor is switched, at least in two stages, between a lower voltage V | 10-22-2009 |
20090268526 | SEMICONDUCTOR MEMORY DEVICE WITH A STACKED GATE INCLUDING A CHARGE STORAGE LAYER AND A CONTROL GATE AND METHOD OF CONTROLLING THE SAME - A semiconductor memory device includes a transfer circuit and a control circuit. The transfer circuit which includes a p-type MOS transistor with a source to which is applied a first voltage and an n-type MOS transistor to whose gate the drain of the p-type MOS transistor is connected and the first voltage is transferred, to whose source a second voltage is applied, and whose drain is connected to a load. The control circuit which turns the p-type MOS transistor on and off and which turns the p-type MOS transistor on to make the p-type MOS transistor transfer the second voltage to the load and, during the transfer, turns the p-type MOS transistor off to make the gate of the n-type MOS transistor float at the first voltage. | 10-29-2009 |
20090290414 | NON-VOLATILE SEMICONDUCTOR MEMORY DEVICE - A non-volatile semiconductor memory device includes a memory cell array having a plurality of multi-level memory cells connected in series. The plurality of multi-level memory cells forms a plurality of threshold distributions each of which corresponds to a status of a lower bit and a status of an upper bit, wherein a lower bit and an upper bit constitute a lower page and an upper page respectively. The status of the lower bit dichotomizes the threshold distributions into two groups and the status of the upper bit further dichotomizes each of two groups. When programming a memory cell of the upper page, higher potentials are applied to a non-selected word line adjacent to the selected word line than those applied to the non-selected word line when programming the memory cell of the lower page. | 11-26-2009 |
20100046275 | NONVOLATILE SEMICONDUCTOR STORAGE APPARATUS AND DATA PROGRAMMING METHOD THEREOF - The semiconductor storage apparatus includes a memory cell array including memory cells each having a rectifying element and a variable resistive element connected in series, the memory cells being arranged in crossing portions of a plurality of first wires and a plurality of second wires, and a control circuit configured to control charging to the first wire. The control circuit charges the first wire connected to a selected memory cell up to a first potential, and then set the first wire in a floating state. Then it charges another first wire adjacent to the first wire connected to the selected memory cell to a second potential. The potential of the first wire connected to the selected memory cell is thereby caused to rise to a third potential by coupling. | 02-25-2010 |
20100091551 | SEMICONDUCTOR STORAGE DEVICE - A semiconductor storage device includes: a memory cell array having memory cells; and a control circuit configured to apply a first voltage to a selected one of first wirings as well as a second voltage to a selected one of second wirings. The control circuit includes: a signal output circuit configured to output a first signal based on a first current flowing through a selected memory cell and a reference current; and a current retaining circuit configured to retain a second current flowing through the first wirings or a wiring electrically connected to the first wirings during a certain period of time. The signal output circuit is configured to determine the first current based on the second current retained by the current retaining circuit. The control circuit is configured to stop application of the first voltage to the first wirings based on the first signal. | 04-15-2010 |
20100208510 | SEMICONDUCTOR MEMORY DEVICE AND METHOD OF OPERATING THE SAME - A semiconductor memory device comprises: a memory cell array having memory cells disposed at a crossing-point of a plurality of first lines and a plurality of second lines; and a control circuit configured to apply a first voltage to selected one of the first lines, and to apply a second voltage to selected one of the second lines. The control circuit comprises: a first isolation latch circuit configured to set the first lines to a floating state; and a second isolation latch circuit configured to set the second lines to the floating state. During a forming operation, the first and second isolation latch circuits set one of the first lines and one of the second lines to which a defective memory cell is connected to the floating state, the defective memory cell being one of the memory cells that allows a current to flow due to application of a voltage. | 08-19-2010 |
20100214820 | SEMICONDUCTOR MEMORY DEVICE - A semiconductor memory device comprises: a memory cell array having memory cells disposed at a crossing-point of a plurality of first lines and a plurality of second lines and a control circuit configured to apply a first voltage to selected one or more of the first lines, and to apply a second voltage having a value smaller than the first voltage to selected one of the second lines, such that a certain potential difference is applied to selected one or more of the memory cells. The control circuit adjusts the second voltage based on a position of the selected one or more of the memory cells within the memory cell array and a number of the selected one or more of the memory cells on which an operation is simultaneously executed, during application of the potential difference to the selected one or more of the memory cells. | 08-26-2010 |
20100214850 | SEMICONDUCTOR MEMORY DEVICE AND METHOD OF ERASING DATA THEREIN - A semiconductor memory device includes a memory cell array of NAND cell units. The NAND cell unit includes a plurality of electrically erasable programmable nonvolatile memory cells connected serially, and a first and a second selection transistor provided to connect both ends of the memory cells to a bit line and a source line, respectively. The semiconductor memory device also includes dummy cells inserted in the NAND cell unit adjacent to the first and second selection transistors, respectively. The dummy cells in the NAND cell unit are erased simultaneously with the memory cells under a weaker erase potential condition than that for the memory cells and set in a higher threshold distribution than an erased state of the memory cells. | 08-26-2010 |
20100232198 | SEMICONDUCTOR STORAGE DEVICE - A semiconductor storage device includes: a cell array including a plurality of first wirings, a plurality of second wirings intersecting the first wirings, and memory cells positioned at intersecting portions between the first wirings and the second wirings, each of the memory cells having a series circuit of a non-ohmic element and a variable resistance element; a control circuit configured to apply a control voltage, which is necessary for the variable resistance element to transit from a low resistance state to a high resistance state, to the memory cells through the first wirings and the second wirings; and a bias voltage application circuit configured to apply a bias voltage, which suppresses a potential variation caused by the transition of the variable resistance element from the low resistance state to the high resistance state, to one end of the variable resistance element. | 09-16-2010 |
20100232208 | METHOD OF EXECUTING A FORMING OPERATION TO VARIABLE RESISTANCE ELEMENT - A method of executing a forming operation to a variable resistance element to render a resistance value of the variable resistance element capable of transition, the variable resistance element being included in a memory cell connected between a first wiring and a second wiring and changing the resistance value by electrical control, comprises applying a voltage required to execute the forming operation to the variable resistance element between the first and second wirings and changing the first wiring to a floating state. | 09-16-2010 |
20110032746 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE - A nonvolatile semiconductor memory device according to an embodiment includes a memory cell array including: a plurality of first lines; a plurality of second lines intersecting the first lines; and a plurality of memory cells each including a variable resistance element disposed at the intersection of the first and second lines and configured to store an electrically rewritable resistance value as data in a nonvolatile manner, and a control unit configured to detect an amount of a current flowing through the first line when a memory cell is accessed, and adjust the voltage of the first or second line based on the amount of the current. | 02-10-2011 |
20110044111 | NON-VOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD OF WRITING DATA IN NON-VOLATILE SEMICONDUCTOR MEMORY DEVICES - The device has a data write mode to boost a first boost channel region that contains a non-write selected memory cell and non-selected memory cells located closer to the first selection gate transistor, and a second boost channel region that contains non-selected memory cells located closer to the second selection gate transistor than the selected memory cell, both electrically separated from each other. In this mode, a write non-selection voltage applied to a non-selected memory cell next to the second selection gate transistor is switched, at least in two stages, between a lower voltage V | 02-24-2011 |
20110066878 | NON-VOLATILE SEMICONDUCTOR STORAGE DEVICE - A semiconductor storage device includes a memory cell array including memory cells arranged at respective intersections between first wirings and second wirings. Each of the memory cells includes a rectifier element and a variable resistance element connected in series. A control circuit is configured to apply a first voltage to a selected first wiring and a second voltage lower than the first voltage to a selected second wiring so that a certain potential difference is applied to a selected memory cell positioned at an intersection between the selected first wiring and the selected second wiring. | 03-17-2011 |
20110103135 | NON-VOLATILE MEMORY DEVICE AND METHOD FOR WRITING DATA THERETO - The present invention provides a method for writing data to a non-volatile memory device having first wirings and second wirings intersecting one another and memory cells arranged at each intersection therebetween, each of the memory cells having a variable resistive element and a rectifying element connected in series. According to the method, the second wirings are charged to a certain voltage not less than a rectifying-element threshold value, prior to a rise in a selected first wiring. Then, a selected first wiring is charged to a voltage required for writing or erasing, after which a selected second wiring is discharged. | 05-05-2011 |
20110103152 | SEMICONDUCTOR MEMORY DEVICE - A semiconductor memory device comprises a plurality of memory cells connected to a bit line; and a sense amplifier operative to sense the magnitude of cell current flowing via the bit line in a selected memory cell connected to the bit line to determine the value of data stored in the memory cell. The sense amplifier includes a first transistor for precharge operative to supply current in the bit line via a first and a second sense node, a second transistor for charge transfer interposed between the first and second sense nodes, and a third transistor for continuous current supply operative to supply current in the bit line not via the first and second sense nodes. | 05-05-2011 |
20110235398 | SEMICONDUCTOR MEMORY DEVICE AND OPERATION METHOD THEREOF - A semiconductor memory device in accordance with an embodiment includes: a memory cell array having memory cells disposed at an intersection of first lines and second lines; and a control circuit configured to execute a read operation, thereby determining a resistance state of the selected one of the memory cells. The read operation is an operation configured to execute a sensing operation multiple times and aggregate determination results thereof. The sensing operation is configured such that a first voltage is applied to selected ones of the first lines and a second voltage lower than the first voltage is applied to a single selected one of the second lines. The control circuit suspends application of the first voltage to the first line connected to the selected one of the memory cells determined to be in a first resistance state in one of the sensing operations, and executes the next sensing operation. | 09-29-2011 |
20120033480 | SEMICONDUCTOR MEMORY DEVICE - A semiconductor memory device according to the embodiment comprises a memory cell array including first line, second line crossing the first line, and memory cell containing variable resistance element provided on the intersection of the first and second lines; a data write unit operative to cause the variable resistance element to make a transition from a first resistance to a second resistance different from the first resistance; and a resistance state detection unit including an abnormality detection circuit operative to detect a transition of the resistance of the variable resistance element to a third resistance when the data write unit causes the variable resistance element to make the transition from the first resistance to the second resistance (where the third resistancethe first resistance>the second resistance). | 02-09-2012 |
20120044766 | SEMICONDUCTOR MEMORY DEVICE WITH A STACKED GATE INCLUDING A CHARGE STORAGE LAYER AND A CONTROL GATE AND METHOD OF CONTROLLING THE SAME - A semiconductor memory device includes a transfer circuit and a control circuit. The transfer circuit which includes a p-type MOS transistor with a source to which is applied a first voltage and an n-type MOS transistor to whose gate the drain of the p-type MOS transistor is connected and the first voltage is transferred, to whose source a second voltage is applied, and whose drain is connected to a load. The control circuit which turns the p-type MOS transistor on and off and which turns the p-type MOS transistor on to make the p-type MOS transistor transfer the second voltage to the load and, during the transfer, turns the p-type MOS transistor off to make the gate of the n-type MOS transistor float at the first voltage. | 02-23-2012 |
20120069662 | SEMICONDUCTOR MEMORY DEVICE - According to one embodiment, a semiconductor memory device includes memory cell units including serially-connected memory cells, which includes a semiconductor pillar and conductive and insulation films surrounding the semiconductor pillar. The memory cell units constitute blocks each of which is the minimum unit of data erasure. A pipe layer in at least one pair of adjacent first and second memory cell units of the memory cell units includes a semiconductor layer connected to the semiconductor pillars in the first and second memory cell units, and are connected to first ends of the first and second memory cell units. A conductive plate between the first ends of the first and second memory cell units and the semiconductor substrate contain the pipe layers of at least two blocks and controls conduction of the pipe layers. A supply path structure is connected to the plate and transmitting a potential the plate. | 03-22-2012 |
20120075912 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE - A nonvolatile semiconductor memory device comprises a three-dimensional cell array block in which a plurality of cell array layers are stacked, each of the cell array layers including a plurality of first lines, a plurality of second lines configured to intersect the first lines, and a plurality of memory cells disposed at each of intersections of the first and second lines and each including a variable resistance element configured to store an electrically rewritable resistance value as data in a nonvolatile manner, and a reading control circuit for reading data from the memory cells under a condition set in respective groups to which one or more cell array layers having a common electric property of the memory cells belong. | 03-29-2012 |
20120155149 | SEMICONDUCTOR STORAGE DEVICE - A semiconductor storage device includes: a cell array including a plurality of first wirings, a plurality of second wirings intersecting the first wirings, and memory cells positioned at intersecting portions between the first wirings and the second wirings, each of the memory cells having a series circuit of a non-ohmic element and a variable resistance element; a control circuit configured to apply a control voltage, which is necessary for the variable resistance element to transit from a low resistance state to a high resistance state, to the memory cells through the first wirings and the second wirings; and a bias voltage application circuit configured to apply a bias voltage, which suppresses a potential variation caused by the transition of the variable resistance element from the low resistance state to the high resistance state, to one end of the variable resistance element. | 06-21-2012 |
20120320677 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE - In a writing operation, a control circuit raises the voltage of a writing-prohibited bit line among a plurality of bit lines to a first voltage, and thereafter brings the writing-prohibited bit line into a floating state. Then, the control circuit raises the voltage of a writing bit line other than the writing-prohibited bit line to a second voltage. In this way, the control circuit prohibits writing into a memory transistor corresponding to the writing-prohibited bit line. On the other hand, the control circuit executes writing into a memory transistor corresponding to the writing bit line. | 12-20-2012 |
20130058165 | SEMICONDUCTOR MEMORY DEVICE - According to one embodiment, a semiconductor memory device includes a memory cells, a selection transistor, a memory string, a block, and a transfer circuit. The memory cells are stacked on a semiconductor substrate. In the memory string, the memory cells and the selection transistor are connected in series. The block includes a plurality of memory strings. In data write and read, the transfer circuit transfers a positive voltage to a select gate line associated with a selected memory string in a selected block, and a negative voltage to a select gate line associated with an unselected memory string in the selected block, and to a select gate line associated with an unselected block. | 03-07-2013 |
20130083597 | SEMICONDUCTOR MEMORY DEVICE - According to one embodiment, a semiconductor memory device includes first and second select transistors, memory cells, a driver circuit, first transfer transistors, and a detection circuit. The memory cells are stacked above a semiconductor substrate. The driver circuit outputs a first voltage. The first transfer transistors transfer the first voltage to associated word lines and select gate lines. In data erase, the detection circuit detects a second voltage applied to bit lines and/or a source line and generates a flag in accordance with the detection result. The driver circuit changes the value of the first voltage in response to the flag to cut off the first transfer transistors. | 04-04-2013 |
20130141971 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE - A control circuit provides an at least partially negative threshold voltage distribution to a memory cell, thereby erasing retained data of the memory cell, and provides multiple levels of positive threshold voltage distributions thereto, thereby programming multiple levels of data to the memory cell. The control circuit, when executing a program operation to the memory cell, executes a first program operation that provides the multiple levels of positive threshold voltage distributions to a first memory cell which is a memory cell subject to program, and executes a second program operation that provides a positive threshold voltage distribution, to a second memory cell adjacent to the first memory cell, irrespective of (regardless of) whether data to be programmed to the second memory cell is (already) present in the second memory cell or not. | 06-06-2013 |
20130250683 | SEMICONDUCTOR MEMORY DEVICE - According to one embodiment, a semiconductor memory device includes memory units each includes a first transistor, memory cell transistors, and a second transistor serially coupled between first and second ends. A memory cell transistor of each memory unit has its gate electrode coupled to each other. A bit line is coupled to the first ends. First and second drivers output voltage applied to selected and unselected first transistors, respectively. Third and fourth drivers output voltage applied to selected and unselected second transistors, respectively. A selector couples the gate electrode of the first transistor of each memory unit to the first or second driver, and that of the second transistor of each memory unit to the third or fourth driver. | 09-26-2013 |
20140355349 | SEMICONDUCTOR MEMORY DEVICE - According to one embodiment, a semiconductor memory device includes a memory cells, a selection transistor, a memory string, a block, and a transfer circuit. The memory cells are stacked on a semiconductor substrate. In the memory string, the memory cells and the selection transistor are connected in series. The block includes a plurality of memory strings. In data write and read, the transfer circuit transfers a positive voltage to a select gate line associated with a selected memory string in a selected block, and a negative voltage to a select gate line associated with an unselected memory string in the selected block, and to a select gate line associated with an unselected block. | 12-04-2014 |
20150023102 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE - In a writing operation, a control circuit raises the voltage of a writing-prohibited bit line among a plurality of bit lines to a first voltage, and thereafter brings the writing-prohibited bit line into a floating state. Then, the control circuit raises the voltage of a writing bit line other than the writing-prohibited bit line to a second voltage. In this way, the control circuit prohibits writing into a memory transistor corresponding to the writing-prohibited bit line. On the other hand, the control circuit executes writing into a memory transistor corresponding to the writing bit line. | 01-22-2015 |