Patent application number | Description | Published |
20080239783 | Semiconductor memory devices having strapping contacts - Semiconductor memory devices having strapping contacts with an increased pitch are provided. The semiconductor memory devices include cell regions and strapping regions between adjacent cell regions in a first direction on a semiconductor substrate. Active patterns extend in the first direction throughout the cell regions and strapping regions and are spaced apart from one another in a second direction intersecting the first direction. First interconnection lines extend in the first direction throughout the cell regions and the strapping regions and are spaced apart from one another in the second direction while overlapping with the active patterns. Second interconnection lines extend in the second direction to intersect the active patterns and the first interconnection lines in the cell regions. The second interconnection lines are spaced apart from one another in the first direction. Memory cells are positioned at intersection portions of the first and second interconnection lines in the cell regions. Strapping contacts are in the strapping regions and configured such that the active patterns contact with the first interconnection lines through the strapping contacts. | 10-02-2008 |
20090242866 | Phase change memory device and method of fabricating the same - A semiconductor device includes an insulating layer on a substrate, a first electrode in the insulating layer having a first upper surface and a second upper surface, a second electrode in the insulating layer spaced apart from the first electrode by a first distance and having a third upper surface and a fourth upper surface, the third upper surface being disposed at a substantially same level as the first upper surface, and the fourth upper surface being disposed at a substantially same level as the second upper surface, a first phase change material pattern covering a part of the first upper surface of the first electrode, and a second phase change material pattern covering a part of the third upper surface of the second electrode, wherein an interface region between the second phase change pattern and the second electrode is spaced apart from an interface region between the first phase change pattern and the first electrode by a second distance greater than the first distance. | 10-01-2009 |
20100038624 | MEMORY DEVICE HAVING HIGHLY INTEGRATED CELL STRUCTURE AND METHOD OF ITS FABRICATION - In an embodiment, a memory device, with a highly integrated cell structure, includes a mold insulating layer disposed on a semiconductor substrate. At least one conductive line is disposed on the mold insulating layer. Data storage elements self-aligned with the conductive line are interposed between the conductive line and the mold insulating layer. In this case, each of the data storage elements may include a resistor pattern and a barrier pattern, which are sequentially stacked, and the resistor pattern may be self-aligned with the barrier pattern. | 02-18-2010 |
20100159638 | Method of fabricating nonvolatile memory device - A method of manufacturing a nonvolatile memory device including forming on a lower insulating layer a first sacrificial pattern having first openings extending in a first direction, forming a second sacrificial pattern having second openings extending in a second direction on the lower insulating layer and the first sacrificial pattern wherein the second openings intersect the first openings, etching the lower insulating layer using the first and second sacrificial patterns to form a lower insulating pattern having contact holes defined by a region where the first and second openings intersect each other, forming a bottom electrode in the contact holes, and forming a variable resistance pattern on the lower insulating pattern so that a portion of the variable resistance pattern connects to a top surface of the bottom electrode. | 06-24-2010 |
20100159675 | METHOD FABRICATING NONVOLATILE MEMORY DEVICE - A method of fabricating a nonvolatile memory device includes; forming a first sacrificial layer pattern including a first open area that extends in a first direction on a lower dielectric layer, forming a pre-lower dielectric layer pattern including a recess that extends in the first direction using the first sacrificial layer pattern, forming a second sacrificial layer pattern including a second open area that extends in a second direction on the pre-lower dielectric layer pattern and the first sacrificial layer pattern, wherein the second open area intersects the first open area, forming a lower dielectric layer pattern including contact holes spaced apart in the recess using the first sacrificial layer pattern and second sacrificial layer pattern, wherein the contact holes extend to a bottom of the lower dielectric layer pattern, and forming a bottom electrode in the contact hole. | 06-24-2010 |
20100171090 | Semiconductor phase-change memory device - A semiconductor phase-change memory device comprises a data line disposed on a semiconductor substrate and a data storage structure disposed under the data line and having a concave portion extending in a direction along the data line. A data contact structure is configured to contact the data storage structure, and having a lower portion filling the concave portion of the data storage structure and an upper portion surrounding at least a lower portion of the data line. Each of sidewalls of the data storage structure is disposed at substantially the same plane as a corresponding one of sidewalls of the upper portion of the data contact structure. | 07-08-2010 |
20100227449 | METHOD OF FORMING MEMORY DEVICE - A variable resistance memory device, and a method of forming the same. The method may include forming a lower electrode on a substrate, stacking a first etch stop layer and a second etch stop layer on the substrate, forming an insulating layer on the second etch stop layer, forming a recessing region to expose the lower electrode by patterning the insulating layer and the first and second etch stop layer, forming a variable resistance material layer in the recess region, and forming an upper electrode on the variable resistance material layer. The first etch stop layer can have an etching selectivity with respect to the second etch stop layer. | 09-09-2010 |
20100238709 | MEMORY DEVICES INCLUDING DECODERS HAVING DIFFERENT TRANSISTOR CHANNEL DIMENSIONS AND RELATED DEVICES - An integrated circuit memory device includes a memory cell array comprising memory cells having respective data storage regions therein, a plurality of pass transistors having different channel widths and/or channel lengths, and a plurality of conductive lines. Each of the conductive lines electrically couple a respective one of the pass transistors to ones of the memory cells. Each of the memory cells has a line resistance defined by a portion of the corresponding one of the conductive lines extending between the memory cell and the pass transistor coupled thereto. Ones of the memory cells having greater line resistances are coupled to ones of the pass transistors having greater channel widths and/or shorter channel lengths than ones of the memory cells having smaller line resistances. Each of the memory cells may also include a diode therein, and ones of the memory cells having greater line resistances may include diodes having lower resistances. Related devices are also discussed. | 09-23-2010 |
20110188292 | VARIABLE RESISTANCE MEMORY, OPERATING METHOD AND SYSTEM - Provided is an operating method of a variable resistance memory device. The operating method applies a set pulse to a plurality of memory cells to be written in a set state, and applies a reset pulse to a plurality of memory cells to be written in a reset state. The width of the set pulse is narrower than the width of the reset pulse. | 08-04-2011 |
20110305058 | NONVOLATILE MEMORY DEVICE AND METHOD OF FABRICATING SAME - A nonvolatile memory device includes multiple variable resistive elements formed on a substrate; multiple bit lines formed on the variable resistive elements, extended in a first direction, and separated from each other by a first pitch; multiple circuit word lines formed on the multiple bit lines, extended in a second direction, and separated from each other by a second pitch; and multiple circuit word lines formed on the multiple bit lines, extended in the first direction, and separated from each other by a third pitch, wherein the third pitch of the multiple circuit word lines is larger than the first pitch of the multiple bit lines. | 12-15-2011 |
20120092946 | MEMORY DEVICES AND MEMORY SYSTEMS INCLUDING DISCHARGE LINES AND METHODS OF FORMING - A non-volatile memory device can include a word line that is operatively coupled to a non-volatile memory cell. A local bit line can be operatively coupled to the non-volatile memory cell. A discharge line that is associated with the local bit line can be configured to discharge the local bit line and a discharge diode can be electrically coupled between the local bit line and the discharge line. | 04-19-2012 |
20130009125 | LOW RESISTANCE SEMICONDUCTOR DEVICE - A semiconductor device includes an insulation layer including a cell contact hole, and a switching device in the cell contact hole, at least a part of a top surface of the switching device being inclined with respect to an axial direction of the cell contact hole. | 01-10-2013 |
20130143382 | METHOD OF FORMING MEMORY DEVICE - A variable resistance memory device, and a method of forming the same. The method may include forming a lower electrode on a substrate, stacking a first etch stop layer and a second etch stop layer on the substrate, forming an insulating layer on the second etch stop layer, forming a recessing region to expose the lower electrode by patterning the insulating layer and the first and second etch stop layer, forming a variable resistance material layer in the recess region, and forming an upper electrode on the variable resistance material layer. The first etch stop layer can have an etching selectivity with respect to the second etch stop layer. | 06-06-2013 |
20130187119 | Semiconductor Memory Devices Having Strapping Contacts - Semiconductor memory devices having strapping contacts are provided, the devices include cell regions and strapping regions between adjacent cell regions in a first direction. Active patterns, extending in the first direction throughout the cell regions and strapping regions, are spaced apart from one another in a second direction intersecting the first direction. First interconnection lines, extending in the first direction throughout the cell regions and strapping regions, are spaced apart from one another in the second direction while overlapping with the active patterns. Second interconnection lines, extending in the second direction, intersect the active patterns and first interconnection lines in the cell regions. The second interconnection lines are spaced apart from one another in the first direction. Memory cells are positioned at intersection portions of the first and second interconnection lines in the cell regions. The active patterns contact the first interconnection lines through strapping contacts in the strapping regions. | 07-25-2013 |