Patent application number | Description | Published |
20110286280 | Pulse Control For NonVolatile Memory - This disclosure provides a nonvolatile memory device that uses pulsed control and rest periods to mitigate the formation of defect precursors. A first embodiment uses pulsed bitline control, where the coupling between a memory cell channel and a reference voltage (selected in response to the bitline) is pulsed when it is desired to change state in the associated memory cell. Each pulse may be chosen to be less than about (20) nanoseconds, while a “rest period” between pulses typically is chosen to be on the order of about a hundred nanoseconds or greater (e.g., one microsecond). Because bitline control is used, very short rise times can be enabled, enabling generation of pulse durations of (50) nanoseconds or less. In other embodiments, these methods may also be more generally applied to other conductors (e.g., wordline or substrate well, for program or erase operations); if desired, segmented wordlines or bitlines may also be used, to minimize RC loading and enable sufficiently short rise times to make pulses robust. | 11-24-2011 |
20120211722 | THREE-DIMENSIONAL MEMORY ARRAY STACKING STRUCTURE - A memory device includes a planar substrate, a plurality of horizontal conductive planes above the planar substrate, and a plurality of horizontal insulating layers interleaved with the plurality of horizontal conductive planes. An array of vertical conductive columns, perpendicular to the pluralities of conductive planes and insulating layers, passes through apertures in the pluralities of conductive planes and insulating layers. The memory device includes a plurality of programmable memory elements, each of which couples one of the horizontal conductive planes to a respective vertical conductive column. | 08-23-2012 |
20130148437 | THERMAL ANNEAL USING WORD-LINE HEATING ELEMENT - In response to detecting an event during operation of an integrated-circuit memory device containing charge-storing memory cells, an electric current is enabled to flow through a word line coupled to the charge-storing memory cells for a brief interval to heat the charge-storing memory cells to an annealing temperature range. | 06-13-2013 |
20130242640 | Methods and Systems for Resistive Change Memory Cell Restoration - A resistive change memory device includes a first conductive line, a second conductive line, and a resistive change memory cell that includes a resistive memory element coupled between the first conductive line and the second conductive line. The resistive change memory device also includes control circuitry to apply, via the first conductive line and the second conductive line, a first biasing condition to the resistive change memory cell for a reset operation and a second biasing condition to the resistive change memory cell for a restore operation. The restore operation is performed to counteract a decrease in resistance of the resistive memory element for a reset state of the resistive change memory cell. At least one of a voltage, current, and duration of the second biasing condition is greater than a corresponding voltage, current, or duration of the first biasing condition. | 09-19-2013 |
20130250657 | System and Method for Writing Data to an RRAM Cell - A resistive RAM device includes a bit line, a word line, an RRAM cell coupled to the word line and to the bit line, a write driver and a disable circuit. The write driver is coupled to the bit line. The disable circuit stops a write operation performed by the write driver on a respective RRAM cell when a predefined condition on the bit line is achieved. The predefined condition depends on a mode of operation of the RRAM cell. | 09-26-2013 |
20140112058 | RESISTANCE MEMORY CELL - A resistance memory includes a resistance memory cell having a resistance memory element and a two-terminal access device in series. The two-terminal access device affects the current-voltage characteristic of the resistance memory cell. The resistance memory additionally includes a circuit to apply across the resistance memory cell a set pulse having a set polarity to set the resistance memory cell to a low-resistance state that is retained after application of the set pulse, a reset pulse having a reset polarity, opposite to the set polarity, to reset the resistance memory cell to a high-resistance state that is retained after application of the reset pulse, and a read pulse of the reset polarity and smaller in magnitude than the reset pulse to determine the resistance state of the resistance memory cell without changing the resistance state of the resistance memory cell. | 04-24-2014 |
20140247656 | Pulse Control For NonVolatile Memory - A nonvolatile memory device that uses pulsed control and rest periods to mitigate the formation of defect precursors. A first embodiment uses pulsed bitline control, where the coupling between a memory cell channel and a reference voltage is pulsed when it is desired to change state in the associated memory cell. Each pulse may be chosen to be less than about 20 nanoseconds, while a “rest period” between pulses can be on the order of about a hundred nanoseconds or greater. Because bitline control is used, very short rise times can be enabled, enabling generation of pulse durations of 50 nanoseconds or less. In other embodiments, these methods may also be more generally applied to other conductors (e.g., wordline or substrate well, for program or erase operations); segmented wordlines or bitlines may also be used, to minimize RC loading and enable sufficiently short rise times to make pulses robust. | 09-04-2014 |
20140254286 | THERMAL ANNEAL USING WORD-LINE HEATING ELEMENT - In response to detecting an event during operation of an integrated-circuit memory device containing charge-storing memory cells, an electric current is enabled to flow through a word line coupled to the charge-storing memory cells for a brief interval to heat the charge-storing memory cells to an annealing temperature range. | 09-11-2014 |