| Patent application number | Description | Published |
|---|
| 20080285343 | Memory cell programming method and semiconductor device for simultaneously programming a plurality of memory block groups - Provided are a memory cell programming method and a semiconductor device which may be capable of simultaneously writing a bit of data and then another bit of the data to a plurality of memory blocks. The memory programming method, in which M bits of data are written to a plurality of memory blocks, may include a data division operation and a data writing operation where M may be a natural number. In the data division operation, the plurality of memory blocks may be divided into a plurality of memory block groups. In the data writing operation, an i | 11-20-2008 |
| 20080285352 | Method of writing/reading data into/from memory cell and page buffer using different codes for writing and reading operations - Provided are a method of writing/reading data into/from a memory cell and a page buffer using different codes for the writing and reading operations. The method of writing/reading data into/from a memory cell that has a plurality of threshold voltage distributions includes a data writing operation and a data reading operation. In the data writing operation, data having a plurality of bits is written into the memory cell by using a plurality of writing codes corresponding to threshold voltage distributions. In the data reading operation, the data having a plurality of bits is read from the memory cell by using reading codes corresponding to the threshold voltage distributions from among the threshold voltage distributions. In the method of writing/reading data into/from a memory cell, a part of the writing codes is different from a corresponding part of the reading codes. | 11-20-2008 |
| 20080315285 | Non-volatile memory devices and methods of fabricating the same - Non-volatile memory devices and methods of fabricating the same are provided. The non-volatile memory devices may include a semiconductor substrate having a pair of sidewall channel regions extending from the semiconductor substrate and opposite to each other, and a floating gate electrode between the pair of sidewall channel regions and protruding from the semiconductor substrate. A control gate electrode may be formed on the semiconductor substrate and a portion of the floating gate electrode. | 12-25-2008 |
| 20080316824 | Non-volatile memory device and method of operating the same - Provided are a semiconductor device having a block state confirmation cell that may store information indicating the number of data bits written to a plurality of memory cells, a method of reading memory data based on the number of the data bits written, and/or a memory programming method of storing the information indicating the number of the data bits written. The semiconductor device may include one or more memory blocks and a controller. Each of the memory blocks may include a plurality of memory cells each storing data, and a block state confirmation cell storing information indicating the number of data bits written to the memory cells. The controller may read the data bits from the memory blocks based on the number of data bits, which is indicated in the information in the block state confirmation cell. | 12-25-2008 |
| 20090091974 | Methods of programming non-volatile memory cells - A method of programming a non-volatile memory cell includes programming a first bit of multi-bit data by setting a threshold voltage of the non-volatile memory cell to a first voltage level within a first of a plurality of threshold voltage distributions. A second bit of the multi-bit data is programmed by setting the threshold voltage to a second voltage level based on a value of the second bit. The second voltage level is the same as the first voltage level if the second bit is a first value and the second voltage level is within a second of the plurality of threshold voltage distributions if the second bit is a second value. A third bit of the multi-bit data is programmed by setting the threshold voltage to a third voltage level based on a value of the third bit. | 04-09-2009 |
| 20090091991 | Apparatuses and methods for multi-bit programming - Multi-bit programming apparatuses and methods are provided. A multi-bit programming apparatus includes a page buffer configured to store first data of the page programming operation, an input control unit configured to determine whether to invert the first data based on a number of bits having a first value and a number of bits having a second value. The input control unit is further configured to invert the first data to generate second data if the number of bits having a first value is greater than the number of bits having a second value and store the second data in the page buffer. The multi-bit programming apparatus further includes a page programming unit configured to program the second data stored in the page buffer in at least one multi-bit cell. | 04-09-2009 |
| 20090103366 | Non-volatile memory device - A non-volatile memory device may include at least one string, at least one bit line corresponding to the at least one string, and/or a sensing transistor. The at least one string may include a plurality of memory cell transistors connected in series. The sensing transistor may include a gate configured to sense a voltage of the corresponding bit line. A threshold voltage of the sensing transistor may be higher than a voltage obtained by subtracting a given voltage from a voltage applied to read the corresponding bit line connected to a memory cell transistor to be read of the plurality of memory cell transistors. | 04-23-2009 |
| 20120026790 | Non-volatile memory device including block state confirmation cell and method of operating the same - Provided are a semiconductor device having a block state confirmation cell that may store information indicating the number of data bits written to a plurality of memory cells, a method of reading memory data based on the number of the data bits written, and/or a memory programming method of storing the information indicating the number of the data bits written. The semiconductor device may include one or more memory blocks and a controller. Each of the memory blocks may include a plurality of memory cells each storing data, and a block state confirmation cell storing information indicating the number of data bits written to the memory cells. The controller may read the data bits from the memory blocks based on the number of data bits, which is indicated in the information in the block state confirmation cell. | 02-02-2012 |
