Patent application number | Description | Published |
20080304326 | METHOD OF ERASING IN NON-VOLATILE MEMORY DEVICE - An erasing method of post-programming in a nonvolatile memory device. The method includes post-programming dummy memory cells; verifying whether threshold voltages of the dummy memory cells are greater than or equal to a first voltage; post-programming normal memory cells; and verifying whether threshold voltages of the normal memory cells are greater than or equal to a second voltage. The first voltage is different from the second voltage. | 12-11-2008 |
20080310230 | Flash Memory Devices Having Three Dimensional Stack Structures and Methods of Driving Same - Flash memory devices are provided including a plurality of layers stacked vertically. Each of the plurality of layers include a plurality of memory cells. A row decoder is electrically coupled to the plurality of layers and configured to supply a wordline voltage to the plurality of layers. Memory cells provided in at least two layers of the plurality of layers belong to a same memory block and wordlines associated with the memory cells in the at least two layers of the plurality of layers are electrically coupled. | 12-18-2008 |
20080316818 | NON-VOLATILE MEMORY DEVICE AND METHOD OF OPERATING - A non volatile memory device and method of operating including providing a verification voltage to a gate of a selected memory cell within multiple memory cells and providing a first pass voltage to a gate of a non-selected memory cell within the memory cells during a program verification operation; and providing a read voltage to the gate of the selected memory cell and providing a second pass voltage to the gate of the non-selected memory cell during a read operation. The second pass voltage is greater than the first pass voltage. | 12-25-2008 |
20080316825 | SEMICONDUCTOR MEMORY DEVICE - An electrically erasable programmable non-volatile semiconductor memory device. The semiconductor memory device includes a memory cell array comprising a plurality of memory blocks, each memory block comprising a plurality of memory cells, a dummy memory cell, and a select gate transistor. Transfer transistors each having a current path connected between a corresponding wordline enable signal line and a corresponding wordline are controlled by an output of a block selection circuit. The transfer transistors include a dummy transfer transistor electrically coupled to the dummy memory cell, and configured to transmit a dummy wordline enable signal. | 12-25-2008 |
20090003066 | Non-volatile memory system and programming method of the same - A programming method for a non-volatile memory system includes storing multi-page program data and buffering the multi-page program data from a page buffer to a memory block and programming the multi-page program data through a predetermined number of program operations. The programming the multi-page program data includes programming memory cells of the memory block using a first threshold voltage lower than a desired threshold voltage based on the multi-page program data sequentially buffered by the page buffer in units of pages and programming the memory cells using the desired threshold voltage by increasing a threshold voltage of the memory cells by a predetermined level at each successive program operation. | 01-01-2009 |
20090003067 | Non-volatile memory device for reducing layout area of global wordline decoder and operation method thereof - A non-volatile memory device includes a memory cell array from which data is read via a plurality of bitlines, which includes a plurality of memory cells having gates respectively connected with a plurality of wordlines, a first type global wordline decoder configured to selectively apply n different voltages, where n is an integer greater than or equal to 3, to a corresponding wordline of the plurality of wordlines in a program mode, and a second type global wordline decoder configured to selectively apply (n−1) different voltages to a corresponding wordline of the plurality of wordlines in the program mode, the second type global wordline decoder having fewer switching elements than the first type global wordline decoder. | 01-01-2009 |
20090010073 | Non-Volatile Memory System Including Spare Array and Method of Erasing a Block in the Same - Methods of operating non-volatile memory devices can compensate for threshold voltage disturbances caused by overhead data programming during block erase operations. These methods include erasing a spare array of nonvolatile memory cells and a corresponding main array of nonvolatile memory cells that shares word lines with the spare array. This erasing operation is followed by writing updated overhead data (e.g., an erase count) into the spare array and then performing a soft program operation. This soft program operation is performed on at least a first portion of the main array to thereby narrow a threshold voltage distribution of erased memory cells within the first portion of the main array. The soft program operation is then followed by an operation to verify an erased status of at least the first portion of the main array and an operation to communicate that the main and spare arrays of nonvolatile memory cells have been properly erased to a memory controller. | 01-08-2009 |
20090052243 | Method of controlling a memory cell of non-volatile memory device - A method of controlling data includes, with respect to non-volatile memory cells connected to bit lines corresponding to a first bit line group, first controlling data written to the non-volatile memory cells by varying a control voltage, and, with respect to non-volatile memory cells connected to bit lines corresponding to a second bit line group, second controlling data written to the non-volatile memory cells by varying a control voltage. The controlling may include reading or verifying. Before verification, the method may include writing data to the non-volatile memory cells. | 02-26-2009 |
20090073775 | Bit line setup and discharge circuit for programming non-volatile memory - A NAND EEPROM having a shielded bit line architecture reduces supply voltage and ground noise resulting from charging or discharging bit lines. The EEPROM has a PMOS pull-up transistor and an NMOS pull down transistor connected to a virtual power node. A control circuit for charging or discharging bit lines controls the gate voltage of the PMOS or NMOS transistor to limit peak current when charging or discharging bit lines via the virtual power node. In particular, the control circuit operates the PMOS or NMOS transistor in a non-saturation mode to limit current. One such control circuit creates a current mirror or applies a reference voltage to control gate voltages. A programming method sets up bit lines by pre-charging unselected bit lines via the PMOS pull-up transistor having controlled gate voltage while latches in the programming circuitry charge or discharge selected bit lines according to respective data bits being stored. Another bit line setup includes two stages. A first stage pre-charges all bit lines via PMOS pull-up, and the second stage uses the latches to discharge or leave charged the selected bit lines depending on respective data bits being stored. The gate voltages of NMOS transistors in the programming circuitry can be controlled to reduce noise caused by discharging selected bit lines through the latches. | 03-19-2009 |
20090122606 | FLASH MEMORY DEVICE HAVING MULTI-LEVEL CELL AND READING AND PROGRAMMING METHOD THEREOF - There is provided a flash memory device with multi-level cell and a reading and programming method thereof. The flash memory device with multi-level cell includes a memory cell array, a unit for precharging bit line, a bit line voltage supply circuit for supplying a voltage to the bit line, and first to third latch circuits each of which performs different function from each other. The reading and programming methods are performed by LSB and MSB reading and programming operations. A reading method in the memory device is achieved by reading an LSB two times and by reading an MSB one time. A programming method is achieved by programming an LSB one time and programming an MSB one time. Data having multi-levels can be programmed into memory cells by two times programming operations. | 05-14-2009 |
20090168482 | THREE-DIMENSIONAL MEMORY DEVICE - A three-dimensional memory device includes a base layer having a memory array and peripheral circuits formed on a bulk silicon substrate, and N circuit layers each having a memory array formed on a silicon-on-insulator (SOI) substrate. The N circuit layers are vertically stacked one on top of the other on the base layer and the uppermost Nth circuit layer additionally includes passive elements | 07-02-2009 |
20090168533 | THREE-DIMENSIONAL MEMORY DEVICE AND PROGRAMMING METHOD - A programming method and a three-dimensional memory device are disclosed. The three-dimensional memory device includes a stacked plurality of layers, each layer having a memory array, and each memory array having a string of memory cells. The programming method includes, for each unselected string associated with an unselected layer in the plurality of layers, charging the channel of memory cells associated with unselected string with a shut-off voltage, and thereafter programming a selected string associated with a selected layer in the plurality of layers. | 07-02-2009 |
20090168534 | THREE-DIMENSIONAL MEMORY DEVICE WITH MULTI-PLANE ARCHITECTURE - Disclosed is a 3D memory device including a first plane having a first mat formed on a first layer and a third mat formed on a second layer disposed over the first layer, the first and third mats sharing a bit line, and a second plane having a second mat formed on the first layer and a fourth mat formed on the second layer. The second and fourth mats share a bit line. Each one of the first through fourth mats includes a plurality of blocks and a block associated with the first plane is simultaneously accessed with a block of the second plane. | 07-02-2009 |
20090180323 | Nonvolatile memory device, program method thereof, and memory system including the same - A nonvolatile memory device may include a memory cell array adapted to store tail-bit flag information indicating tail-bit memory cells, and a tail-bit controller adapted to calibrate a program start voltage of normal memory cells and a program start voltage of the tail-bit memory cells independently based upon the tail-bit flag information. | 07-16-2009 |
20090207666 | Methods of Restoring Data in Flash Memory Devices and Related Flash Memory Device Memory Systems - Methods for setting a read voltage in a memory system which comprises a flash memory device and a memory controller for controlling the flash memory device, comprise sequentially varying a distribution read voltage to read page data from the flash memory device; constituting a distribution table having a data bit number and a distribution read voltage, the data bit number indicating an erase state among the page data respectively read from the flash memory device and the distribution read voltage corresponding to the read page data; detecting distribution read voltages corresponding to data bit numbers each indicating maximum points of possible cell states of a memory cell, based on the distribution table; and defining new read voltages based on the detected distribution read voltages. | 08-20-2009 |
20090213652 | PROGRAMMING METHOD FOR NON-VOLATILE MEMORY DEVICE - Provided is a method of programming a non-volatile memory device. The method includes applying a first programming pulse to a corresponding wordline of the non-volatile memory device, applying a second programming pulse to the wordline, wherein a voltage of the second programming pulse is different from that of the first programming pulse, and applying voltages to each bitline connected to the wordline, the voltages applied to each of the bitlines are different from each other according to a plurality of bit values to be programmed to corresponding memory cells in response to the first programming pulse or the second programming pulse. | 08-27-2009 |
20090213661 | NON-VOLATILE MEMORY DEVICE ADAPTED TO REDUCE COUPLING EFFECT BETWEEN STORAGE ELEMENTS AND RELATED METHODS - A non-volatile semiconductor memory device comprises first and second sub-memory arrays and a strapping line disposed between the first and second sub-memory arrays. A programming operation of the first sub-memory array is performed by simultaneously applying a programming voltage to odd and even bit lines connected to memory cells within the first sub-memory array. | 08-27-2009 |
20090219758 | MULTI-BIT FLASH MEMORY DEVICE AND MEMORY CELL ARRAY - A flash memory device includes a plurality of memory blocks. A selected memory block among the plurality of memory blocks includes 2 | 09-03-2009 |
20090290402 | Semiconductor memory devices and methods of arranging memory cell arrays thereof - A semiconductor memory device and a method of arranging a memory cell array of the semiconductor device are provided. The semiconductor memory device has a memory cell array including a word line pair including a first word line and a second word line that are arranged in a first direction, a source line arranged in the first direction between the first word line and the second word line, a bit line pair including a first bit line and a second bit line arranged in a second direction perpendicular to the first direction, a first memory cell including a gate connected to the first word line and first and second regions respectively connected to the second bit line and the source line, and arranged in a third direction between the first direction and the second direction, and a second memory cell including a gate connected to the second word line, a third region and the second region respectively connected to the first bit line and the source line, and arranged in the third direction. The first word line and the second word line are simultaneously activated. Therefore, disturbance that may be generated between adjacent memory cells in the semiconductor memory cell can be prevented, integration density of the semiconductor memory device can be enhanced, and the number of word lines to be driven may be reduced to employ a sub-word line structure. | 11-26-2009 |
20100002523 | Flash Memory Devices that Utilize Age-Based Verify Voltages to Increase Data Reliability and Methods of Operating Same - Disclosed is a method of verifying a programmed condition of a flash memory device, being comprised of: determining a level of an additional verifying voltage in response to the number of programming/erasing cycles of memory cells; conducting a verifying operation to programmed memory cells with an initial verifying voltage lower than the additional verifying voltage; and selectively conducting an additional verifying operation with the additional verifying voltage to the program-verified memory cells in response to the number of programming/erasing cycles. | 01-07-2010 |
20100067305 | NONVOLATILE MEMORY DEVICE AND PROGRAM METHOD WITH IMPROVED PASS VOLTAGE WINDOW - A flash memory and programming method are disclosed. The flash memory includes a memory cell array having memory cells arranged in a plurality of word lines including a selected word line and a plurality of non-selected word lines and a plurality of bit lines, a high voltage generator generating a program voltage applied to the selected word line, and a pass voltage applied to at least one of the non-selected word lines adjacent to the selected word line, and control logic controlling the generation of the program voltage, such that the program voltage is incrementally increased during a program operation, and generation of the pass voltage, such that the program voltage is incrementally increased. | 03-18-2010 |
20100214819 | RESISTIVE MEMORY DEVICES, MEMORY SYSTEMS AND METHODS OF CONTROLLING INPUT AND OUTPUT OPERATIONS OF THE SAME - A resistive memory device includes a resistive memory cell array, an output circuit and an input circuit. The resistive memory cell array includes a plurality of memory cells that are coupled to bitlines. The output circuit generates a sensing output signal during a write operation by sensing a bitline voltage, and generates output data during a read operation by sensing the bitline voltage. The input circuit controls the bitline voltage based on input data for the write operation, and limits the bitline voltage in response to the sensing output signal during the write operation. The memory cells are protected by effectually limiting bitline voltage | 08-26-2010 |
20100265769 | SEMICONDUCTOR MEMORY DEVICE - An electrically erasable programmable non-volatile semiconductor memory device. The semiconductor memory device includes a memory cell array comprising a plurality of memory blocks, each memory block comprising a plurality of memory cells, a dummy memory cell, and a select gate transistor. Transfer transistors each having a current path connected between a corresponding wordline enable signal line and a corresponding wordline are controlled by an output of a block selection circuit. The transfer transistors include a dummy transfer transistor electrically coupled to the dummy memory cell, and configured to transmit a dummy wordline enable signal. | 10-21-2010 |
20100271883 | METHOD OF ERASING IN NON-VOLATILE MEMORY DEVICE - An erasing method in a nonvolatile memory device is disclosed. The method includes post-programming dummy memory cells; verifying whether threshold voltages of the dummy memory cells are greater than or equal to a first voltage; post-programming normal memory cells; and verifying whether threshold voltages of the normal memory cells are greater than or equal to a second voltage. The first voltage is different from the second voltage, and the post-programming of the dummy memory cells comprises: applying a program voltage to a plurality of dummy word lines coupled to the dummy memory cells to post-program the dummy memory cells; and applying a pass voltage to a plurality of normal word lines coupled to the normal memory cells so that the normal memory cells are not post-programmed. | 10-28-2010 |
20100271893 | SEMICONDUCTOR MEMORY DEVICE AND DATA WRITE AND READ METHODS THEREOF - A semiconductor memory device having a first memory cell array block including a memory cell having a floating body, the memory cell coupled to a word line, a first bit line, and a first source line, a second memory cell array block including a reference memory cell having a floating body, the reference memory cell coupled to a reference word line, a second bit line, and a second source line, a first isolation gate portion configured to selectively transmit a signal between the first bit line and at least one of a sense bit line and an inverted sense bit line, a second isolation gate portion configured to selectively transmit a signal between the second bit line and at least one of the sense bit lines, and a sense amplifier configured to amplify voltages of the sense bit line and the inverted sense bit line to first and second sense amplifying voltage levels. | 10-28-2010 |
20110063904 | PHASE CHANGE MEMORY DEVICE, MEMORY SYSTEM, AND PROGRAMMING METHOD - A method of programming a phase change memory device is disclosed. Write data is programmed in a plurality of phase change memory cells by applying write pulses to each of the plurality of phase change memory cells. Whether each of the phase change memory cells is programmed is verified by applying at least one verification pulse to each of the phase-change memory cells. A number of applications for the at least one verification pulse and the intervals between respective applications of the at least one verification pulse are varied in accordance with a verification result for each of the phase-change memory cells. | 03-17-2011 |
20110235432 | METHOD OF ERASING IN NON-VOLATILE MEMORY DEVICE - An erasing method of post-programming in a nonvolatile memory device. The method includes post-programming dummy memory cells; verifying whether threshold voltages of the dummy memory cells are greater than or equal to a first voltage; post-programming normal memory cells; and verifying whether threshold voltages of the normal memory cells are greater than or equal to a second voltage. The first voltage is different from the second voltage. | 09-29-2011 |
20120039122 | MULTI-BIT FLASH MEMORY DEVICE AND MEMORY CELL ARRAY - A flash memory device includes a plurality of memory blocks. A selected memory block among the plurality of memory blocks includes 2 | 02-16-2012 |
20120113710 | NON-VOLATILE MEMORY ARRAY AND EVICE USING ERASE MARKERS - A non-volatile memory device, non-volatile memory cell array and related method of operation are disclosed. The non-volatile memory cell array includes a defined data unit stored in a plurality of non-volatile memory cells capable of being electrically overwritten within the non-volatile memory cell array, and an erase marker corresponding to the data unit and indicating whether the data unit is in an erased state or a not-erased state. | 05-10-2012 |
20120140557 | PROGRAMMING METHOD FOR NON-VOLATILE MEMORY DEVICE - Provided is a method of programming a non-volatile memory device. The method includes applying a first programming pulse to a corresponding wordline of the non-volatile memory device, applying a second programming pulse to the wordline, wherein a voltage of the second programming pulse is different from that of the first programming pulse, and applying voltages to each bitline connected to the wordline, the voltages applied to each of the bitlines are different from each other according to a plurality of bit values to be programmed to corresponding memory cells in response to the first programming pulse or the second programming pulse. | 06-07-2012 |
20120311407 | METHODS OF OPERATING NON-VOLATILE MEMORY DEVICES DURING WRITE OPERATION INTERRUPTION, NON-VOLATILE MEMORY DEVICES, MEMORIES AND ELECTRONIC SYSTEMS OPERATING THE SAME - A non-volatile memory device may operate by writing a portion of a new codeword to an address in the device that stores an old codeword, as part of a write operation. An interruption of the write operation can be detected before completion, which indicates that the address stores the portion of the new codeword and a portion of the old codeword. The portion of the old codeword can be combined with the portion of the new codeword to provide an updated codeword. Error correction bits can be generated using the updated codeword and the error correction bits can be written to the address. | 12-06-2012 |
20140104923 | RESISTIVE MEMORY DEVICES AND METHODS OF OPERATING THE SAME - Resistive memory driving methods are provided. The methods may include applying an operating voltage set according to a mode of operation to a selected word line among the plurality of word lines and a selected bit line among the plurality of bit lines within a line delay period. | 04-17-2014 |
20140119094 | NONVOLATILE MEMORY DEVICE USING RESISTANCE MATERIAL AND METHOD OF DRIVING THE NONVOLATILE MEMORY DEVICE - Provided is a nonvolatile memory device using a resistance material and a method of driving the nonvolatile memory device. The nonvolatile memory device comprises a resistive memory cell which stores multiple bits; a sensing node; a clamping unit coupled between the resistive memory cell and the sensing node and provides a clamping bias to the resistive memory cell; a compensation unit which provides a compensation current to the sensing node; a sense amplifier coupled to the sensing node and senses a change in a level of the sensing node; and an encoder which codes an output value of the sense amplifier in response to a first clock signal. The clamping bias varies over time. The compensation current is constant during a read period. | 05-01-2014 |
20140119095 | NONVOLATILE MEMORY DEVICE USING VARIABLE RESISTANCE MATERIAL AND METHOD FOR DRIVING THE SAME - The nonvolatile memory device using a variable resistance material and a method for driving the same are provided. A first clamping unit connected between a resistance memory cell and a first sensing node to provide a first clamping bias to the resistance memory cell. The first clamping bias changes over time. A first compensation unit provides a compensation current to the first sensing node. A first sense amplifier is connected to the first sensing node to sense a level change of the first sensing node. In response to if first data stored in the resistance memory cell, an output value of the first sense amplifier transitions to a different state after a first amount of time from a time point from where the first clamping bias starts. In response to second data that is different from the first data stored in the resistance memory cell, the output value of the first sense amplifier transitions to the different state after a second amount of time that is different from the first amount of time from the time point from where the first clamping bias starts. | 05-01-2014 |
20140160831 | Nonvolatile Memory Devices Using Variable Resistive Elements and Related Driving Methods Thereof - Driving methods of a nonvolatile memory device are provided. The driving method includes providing a start pulse adjusted based on a previous write operation to a resistive memory cell to write data, verifying whether the data has accurately been written using the start pulse, and executing a write operation on the resistive memory cell by an incremental one-way write method or a decremental one-way write method according to the verify result. Related nonvolatile memory devices are also provided. | 06-12-2014 |
20140185378 | MULTI-BIT FLASH MEMORY DEVICE AND MEMORY CELL ARRAY - A flash memory device includes a plurality of memory blocks. A selected memory block among the plurality of memory blocks includes 2″ pages of data. The selected memory block includes different types of memory cells capable of storing different numbers of bits. | 07-03-2014 |
20140198556 | NONVOLATILE MEMORY DEVICE USING VARIABLE RESISTIVE ELEMENT AND MEMORY SYSTEM HAVING THE SAME - A nonvolatile memory device, which has an improved read reliability through a refresh operation, and a memory system, are provided. The nonvolatile memory device includes a resistive memory cell, a reference resistor corresponding to the resistive memory cell, a reference sense amplifier electrically connected to the reference resistor and configured to change a transition time of an output value of the reference resistor, and a refresh request signal generator configured to output the refresh request signal for the resistive memory cell when the transition time of an output value of the reference resistor is in a preset refresh requiring period. | 07-17-2014 |
20140211538 | RESISTIVE MEMORY DEVICE COMPRISING SELECTIVELY DISABLED WRITE DRIVER - A nonvolatile memory device comprises a resistive memory cell, a write driver configured to write data to the resistive memory cell during a write period comprising a plurality of loops, and a sense amplifier configured to verify whether the data is correctly written to the resistive memory cell in each of the loops. Where the sense amplifier verifies that the data is correctly written in a k-th loop among the loops, the write driver is disabled from a (k+1)-th loop to an end of the write period. | 07-31-2014 |