Patent application number | Description | Published |
20080246073 | Nonvolatile Memory Devices Including a Resistor Region - Methods of forming a memory device include forming a device isolation layer in a semiconductor substrate including a cell array region and a resistor region, the device isolation layer extending into the resistor region and defining an active region in the semiconductor substrate. A first conductive layer is formed on the device isolation layer in the resistor region. The semiconductor substrate is exposed in the cell array region. A cell insulation layer is formed on a portion of the semiconductor substrate including the exposed cell array region, the active region and the device isolation layer in the resistor region. A second conductive layer is formed on the cell insulation layer in the portion of the semiconductor substrate including the exposed cell array region, the active region and the device isolation layer in the resistor region. The second conductive layer is etched to form a cell gate electrode in the cell array region and to concurrently remove the second conductive layer from the resistor region and the first conductive layer is etched in the resistor region to form a resistor. | 10-09-2008 |
20090097326 | NAND FLASH MEMORY DEVICE HAVING DUMMY MEMORY CELLS AND METHODS OF OPERATING SAME - A NAND flash memory device includes a control circuit configured to apply, during a program operation, a first word line voltage to non-selected ones of a plurality of serially-connected memory cells, a second word line voltage greater than the first word line voltage to a selected one of the plurality of memory cells, and a third word line voltage lower than the first word line voltage to a dummy memory cell connected in series with the plurality of memory cells. In other embodiments, a control circuit is configured to program a dummy memory cell before and/or after each erase operation on a plurality of memory cells connected in series therewith. In still other embodiments, a control circuit is configured to forego erasure of a dummy memory cell while erasing a plurality of memory cells connected in series therewith. | 04-16-2009 |
20090185421 | Charge-Trap Flash Memory Device with Reduced Erasure Stress and Related Programming and Erasing Methods Thereof - Operation methods of charge-trap flash memory devices having an unused memory cell for data storage and a normal memory cell used for data storage are discussed. The operation method may include selecting the unused memory cell, and programming the unused memory cell to have a predetermined threshold voltage. The charge-trap flash memory device may thus be provided with improved reliability by interrupting erasure stress to unused memory cells. | 07-23-2009 |
20090294837 | Nonvolatile Memory Devices Having a Fin Shaped Active Region - A nonvolatile memory device includes a semiconductor substrate and a device isolation layer on the semiconductor substrate. A fin-shaped active region is formed between portions of the device isolation layer. A sidewall protection layer is formed on the sidewall of the fin-shaped active region where source and drain regions are formed. Thus, it may be possible to reduce the likelihood of an undesirable connection between an interconnection layer connected to the source and drain regions and a lower sidewall of the active region so that charge leakage from the interconnection layer to a substrate can be prevented or reduced. The sidewall protection layer may be formed using the device isolation layer. Alternatively, an insulating layer having an etch selectivity with respect to an interlayer insulating layer may be formed on the device isolation layer so as to cover the sidewall of the active region. | 12-03-2009 |
20100264481 | Nonvolatile Memory Devices and Related Methods - Nonvolatile memory devices and methods of fabricating the same are provided. A semiconductor substrate is provided having a cell field region and a high-voltage field region. Device isolation films are provided on the substrate. The device isolation films define active regions of the substrate. A cell gate-insulation film and a cell gate-conductive film are provided on the cell field region of the substrate including the device isolation films. A high-voltage gate-insulation film and a high-voltage gate-conductive film are provided on the high-voltage field region of the substrate including the device isolation films. The device isolation film on the high-voltage field region of the substrate is at least partially recessed to provide a groove therein. | 10-21-2010 |
20110090738 | NAND FLASH MEMORY DEVICE HAVING DUMMY MEMORY CELLS AND METHODS OF OPERATING SAME - A NAND flash memory device includes a control circuit configured to apply, during a program operation, a first word line voltage to non-selected ones of a plurality of serially-connected memory cells, a second word line voltage greater than the first word line voltage to a selected one of the plurality of memory cells, and a third word line voltage lower than the first word line voltage to a dummy memory cell connected in series with the plurality of memory cells. In other embodiments, a control circuit is configured to program a dummy memory cell before and/or after each erase operation on a plurality of memory cells connected in series therewith. In still other embodiments, a control circuit is configured to forego erasure of a dummy memory cell while erasing a plurality of memory cells connected in series therewith. | 04-21-2011 |
20110309433 | Semiconductor Device With Resistor Pattern And Method Of Fabricating The Same - Disclosed is a semiconductor device with a resistor pattern and methods of fabricating the same. Embodiments of the present invention provide a method of fabricating a resistor pattern having high sheet resistance by using a polycide layer for a gate electrode in a semiconductor device with the resistor pattern. Embodiments of the invention also provide a semiconductor device with a resistor pattern that is formed narrower than the minimum line width that can be defined in a photolithographic process so that sheet resistance thereof increases, and a method of fabricating the same. | 12-22-2011 |