Patent application number | Description | Published |
20090040833 | NON-VOLATILE MEMORY DEVICE AND PROGRAMMING METHOD - Provided are a non-volatile memory device and a programming method. The programming method includes applying a program voltage to a selected word line, applying an elevated pass voltage to word lines adjacent to the selected word line in a plurality of word lines, and applying a pass voltage to remaining word lines in the plurality of word lines. | 02-12-2009 |
20090072298 | Semiconductor device and method of manufacturing the same - An embodiment of a semiconductor device includes a substrate including a cell region and a peripheral region; a cell gate pattern on the cell region; and a peripheral gate pattern on the peripheral region, wherein a first cell insulation layer, a second cell insulation layer, and a third cell insulation layer may be between the substrate and the cell gate pattern, a first peripheral insulation layer, a second peripheral insulation layer, and a third peripheral insulation layer may be between the substrate and the peripheral gate pattern, and the second cell insulation layer and the third cell insulation layer include the same material as the respective second peripheral insulation layer and third peripheral insulation layer. | 03-19-2009 |
20090121275 | Non-Volatile Memory Devices Including Blocking and Interface Patterns Between Charge Storage Patterns and Control Electrodes and Related Methods - A non-volatile memory device may include a semiconductor substrate and an isolation layer on the semiconductor substrate wherein the isolation layer defines an active region of the semiconductor substrate. A tunnel insulation layer may be provided on the active region of the semiconductor substrate, and a charge storage pattern may be provided on the tunnel insulation layer. An interface layer pattern may be provided on the charge storage pattern, and a blocking insulation pattern may be provided on the interface layer pattern. Moreover, the block insulation pattern may include a high-k dielectric material, and the interface layer pattern and the blocking insulation pattern may include different materials. A control gate electrode may be provided on the blocking insulating layer so that the blocking insulation pattern is between the interface layer pattern and the control gate electrode. Related methods are also discussed. | 05-14-2009 |
20090159962 | Non-Volatile Memory Devices - Non-volatile memory devices are provided including a control gate electrode on a substrate; a charge storage insulation layer between the control gate electrode and the substrate; a tunnel insulation layer between the charge storage insulation layer and the substrate; a blocking insulation layer between the charge storage insulation layer and the control gate electrode; and a material layer between the tunnel insulation layer and the blocking insulation layer, the material layer having an energy level constituting a bottom of a potential well. | 06-25-2009 |
20090212340 | FLASH MEMORY DEVICES - A gate electrode line which extends in a second direction crossing a first direction on a substrate including an active region which is defined by a device isolation layer and extends in the first direction and a charge trap layer disposed between the active region and the gate electrode line, wherein a bottom surface of the gate electrode line disposed on the device isolation layer is lower than a top surface of the charge trap layer disposed on the active region and higher than a top surface of the active region. | 08-27-2009 |
20090230451 | Semiconductor device capable of suppressing short channel effect and method of fabricating the same - A semiconductor device includes a semiconductor substrate including at least one memory channel region and at least one memory source/drain region, the memory channel region and the memory source/drain region being arranged alternately, and at least one word line on the memory channel region, wherein the memory source/drain region has a higher net impurity concentration than the memory channel region. | 09-17-2009 |
20090321811 | MEMORY CELL TRANSISTORS HAVING BANDGAP-ENGINEERED TUNNELING INSULATOR LAYERS, NON-VOLATILE MEMORY DEVICES INCLUDING SUCH TRANSISTORS, AND METHODS OF FORMATION THEREOF - A memory cell transistor comprises: an active region, the active region being elongated in a first direction of extension; a tunnel layer on the active region, the tunnel layer comprising a first tunnel insulating layer, a second tunnel insulating layer on the first tunnel insulating layer and a third tunnel insulating layer on the second tunnel insulating layer; a charge storage layer on the tunnel layer; a blocking insulating layer on the charge storage layer; and a control gate electrode on the blocking insulating layer, the control gate electrode being elongated in a second direction of extension that is transverse the first direction of extension, the active region having a first width in the second direction of extension, the second tunnel insulating layer having a second width in the second direction of extension, the second width being different than the first width. | 12-31-2009 |
20090321815 | Non-volatile memory device and method of fabricating the same - A non-volatile memory device, including a substrate of a first conductivity type, the substrate including a plurality of wells of a second conductivity type, a plurality of memory cells in one of the plurality of wells of the second conductivity type, and a peripheral circuit including at least one first transistor of the second conductivity type on the substrate, and at least one second transistor of the first conductivity type in another one of the plurality of wells of the second conductivity type. | 12-31-2009 |
20100002516 | Integrated Circuit Memory Devices Having Vertically Arranged Strings of Memory Cells Therein and Methods of Operating Same - Nonvolatile memory devices include a first NAND-type string of EEPROM cells having a first plurality of string selection transistors therein electrically connected in series within the string. This first plurality of string selection transistors includes a first plurality of depletion-mode transistors and a first enhancement-mode transistor. A second NAND-type string of EEPROM cells is also provided with a second plurality of string selection transistors therein that are electrically connected in series. The second plurality of string selection transistors includes a second plurality of depletion-mode transistors and a second enhancement-mode transistor. According to these embodiments of the invention, the first enhancement-mode transistor is stacked vertically relative to one of the second plurality of depletion-mode transistors and the second enhancement-mode transistor is stacked vertically relative to one of the first plurality of depletion-mode transistors. A first string selection plug is configured to electrically connect a gate electrode of the first enhancement-mode transistor to a gate electrode of one of the second plurality of depletion-mode transistors. Similarly, a second string selection plug is configured to electrically connect a gate electrode of the second enhancement-mode transistor to a gate electrode of one of the first plurality of depletion-mode transistors. | 01-07-2010 |
20100020601 | Multi-Bit Flash Memory Devices and Methods of Programming and Erasing the Same - A non-volatile memory device includes an array of non-volatile memory cells configured to support single bit and multi-bit programming states. A control circuit is provided, which is configured to program a first page of non-volatile memory cells in the array as M-bit cells during a first programming operation and further configured to program the first page of non-volatile memory cells as N-bit cells during a second programming operation. The first and second programming operations are separated in time by at least one operation to erase the first page of non-volatile memory cells. M and N are unequal integers greater than zero. | 01-28-2010 |
20100118606 | Methods of programming non-volatile memory devices and memory devices programmed thereby - In a method of programming a non-volatile memory device, and in a device incorporating the same, the memory device includes: a plurality of memory cell transistors arranged in a plurality of transistor strings, wherein a transistor string includes a plurality of memory cell transistors arranged in series; a plurality of word lines, each word line connected to a corresponding memory cell transistor of each of the different transistor strings; and a plurality of bit lines, each bit line connected to one of the transistor strings. The method comprises: applying a first voltage to a selected word line corresponding to a selected memory cell transistor of a selected transistor string to be programmed; and applying a second voltage to a neighboring word line neighboring the selected word line and corresponding to a neighboring transistor of the selected transistor string, wherein the first voltage is greater than the second voltage, the application of the first and second voltages to the selected and neighboring word lines respectively causing electrons to be generated by an electric field formed between the neighboring transistor and the selected memory cell transistor, the electrons accelerating toward the selected memory cell transistor and injecting into a charge storage layer of the selected memory cell transistor. | 05-13-2010 |
20100128522 | Flash memory device and programming/erasing method of the same - A flash memory device includes a bulk region, first through nth memory cell transistors arranged in a row on the bulk region, first through nth word lines respectively connected to gates of the first through nth memory cell transistors, a first dummy cell transistor connected to the first memory cell transistor, a first dummy word line connected to a gate of the first dummy cell transistor, a first selection transistor connected to the first dummy cell transistor, a first selection line connected to a gate of the first selection transistor, and a voltage control unit connected to the first selection line, the voltage control unit being adapted to output to the first selection line a voltage lower than a voltage applied to the bulk region, in an erasing mode for erasing the first through nth memory cell transistors. | 05-27-2010 |
20100133604 | Semiconductor Devices Having Gate Structures with Conductive Patterns of Different Widths and Methods of Fabricating Such Devices - A semiconductor device and a method of fabricating the same are provided. The semiconductor device includes a first dielectric pattern, a data storage pattern and a second dielectric pattern, which are sequentially stacked on a semiconductor substrate. A first conductive pattern is provided on the second dielectric pattern. A second conductive pattern having a greater width than the first conductive pattern is provided on the first conductive pattern. | 06-03-2010 |
20110019486 | SEMICONDUCTOR MEMORY DEVICE AND PROGRAMMING METHOD THEREOF - A programming method of a semiconductor memory device includes charging a channel of an inhibit string to a precharge voltage provided to the common source line and boosting the charged channel by providing a wordline voltage to the cell strings. The inhibit string is connected to a program bitline among the bitlines. | 01-27-2011 |
20110084329 | NON-VOLATILE MEMORY DEVICE - A non-volatile memory device includes a semiconductor layer including a cell region and a peripheral region, a cell region gate structure disposed in the cell region of the semiconductor layer, and wherein the cell region gate structure includes a tunneling insulating layer and a first blocking insulating layer, a second blocking insulating layer, and a third blocking insulating layer. The non-volatile memory device further includes a peripheral region gate structure formed in the peripheral region of the semiconductor layer. The peripheral region gate structure includes a first peripheral region insulating layer including a same material as a material included in the tunneling insulating layer and a second peripheral region insulating layer including a same material as a material included in the third blocking insulating layer. | 04-14-2011 |
20110198685 | Non-Volatile Memory Devices - Non-volatile memory devices are provided including a control gate electrode on a substrate; a charge storage insulation layer between the control gate electrode and the substrate; a tunnel insulation layer between the charge storage insulation layer and the substrate; a blocking insulation layer between the charge storage insulation layer and the control gate electrode; and a material layer between the tunnel insulation layer and the blocking insulation layer, the material layer having an energy level constituting a bottom of a potential well. | 08-18-2011 |
20110266607 | Integrated Circuit Memory Devices Having Vertically Arranged Strings of Memory Cells Therein and Methods of Operating Same - Nonvolatile memory devices include a first NAND-type string of EEPROM cells having a first plurality of string selection transistors therein electrically connected in series within the string. This first plurality of string selection transistors includes a first plurality of depletion-mode transistors and a first enhancement-mode transistor. A second NAND-type string of EEPROM cells is also provided with a second plurality of string selection transistors therein that are electrically connected in series. The second plurality of string selection transistors includes a second plurality of depletion-mode transistors and a second enhancement-mode transistor. According to these embodiments of the invention, the first enhancement-mode transistor is stacked vertically relative to one of the second plurality of depletion-mode transistors and the second enhancement-mode transistor is stacked vertically relative to one of the first plurality of depletion-mode transistors. A first string selection plug is configured to electrically connect a gate electrode of the first enhancement-mode transistor to a gate electrode of one of the second plurality of depletion-mode transistors. Similarly, a second string selection plug is configured to electrically connect a gate electrode of the second enhancement-mode transistor to a gate electrode of one of the first plurality of depletion-mode transistors. | 11-03-2011 |
20120007168 | SEMICONDUCTOR DEVICE CAPABLE OF SUPPRESSING SHORT CHANNEL EFFECT - A semiconductor device includes a semiconductor substrate including at least one memory channel region and at least one memory source/drain region, the memory channel region and the memory source/drain region being arranged alternately, and at least one word line on the memory channel region, wherein the memory source/drain region has a higher net impurity concentration than the memory channel region. | 01-12-2012 |
20120068245 | NON-VOLATILE MEMORY DEVICES INCLUDING BLOCKING INSULATION PATTERNS WITH SUB-LAYERS HAVING DIFFERENT ENERGY BAND GAPS - A non-volatile memory device may include a semiconductor substrate and an isolation layer on the semiconductor substrate wherein the isolation layer defines an active region of the semiconductor substrate. A tunnel insulation layer may be provided on the active region of the semiconductor substrate, and a charge storage pattern may be provided on the tunnel insulation layer. An interface layer pattern may be provided on the charge storage pattern, and a blocking insulation pattern may be provided on the interface layer pattern. Moreover, the block insulation pattern may include a high-k dielectric material, and the interface layer pattern and the blocking insulation pattern may include different materials. A control gate electrode may be provided on the blocking insulating layer so that the blocking insulation pattern is between the interface layer pattern and the control gate electrode. Related methods are also discussed. | 03-22-2012 |
20140183615 | NON-VOLATILE MEMORY DEVICES INCLUDING BLOCKING INSULATION PATTERNS WITH SUB-LAYERS HAVING DIFFERENT ENERGY BAND GAPS - A non-volatile memory device may include a semiconductor substrate and an isolation layer on the semiconductor substrate wherein the isolation layer defines an active region of the semiconductor substrate. A tunnel insulation layer may be provided on the active region of the semiconductor substrate, and a charge storage pattern may be provided on the tunnel insulation layer. An interface layer pattern may be provided on the charge storage pattern, and a blocking insulation pattern may be provided on the interface layer pattern. Moreover, the block insulation pattern may include a high-k dielectric material, and the interface layer pattern and the blocking insulation pattern may include different materials. A control gate electrode may be provided on the blocking insulating layer so that the blocking insulation pattern is between the interface layer pattern and the control gate electrode. Related methods are also discussed. | 07-03-2014 |