Patent application number | Description | Published |
20090237977 | SENSING RESISTANCE VARIABLE MEMORY - The present disclosure includes devices and methods for operating resistance variable memory. One device embodiment includes an array of memory cells wherein a number of the cells are commonly coupled to a select line, the number cells including a number of data cells programmable within a number of target threshold resistance (R | 09-24-2009 |
20090237984 | MEMORY CELL - Methods, and circuits, are disclosed for operating a programmable memory device. One method embodiment includes storing a value as a state in a first memory cell and as a complementary state in a second memory cell. Such a method further includes determining the state of the first memory cell using a first self-biased sensing circuit and the complementary state of the second memory cell using a second self-biased sensing circuit, and comparing in a differential manner an indication of the state of the first memory cell to a reference indication of the complementary state of the second memory cell to determine the value. | 09-24-2009 |
20090244961 | PHASE CHANGE MEMORY - The present disclosure includes devices and methods for operating phase change memory cells. One or more embodiments include applying a programming signal to a phase change material of a memory cell, and decreasing a magnitude of a trailing portion of the applied programming signal successively according to a number of particular decrements. The magnitude and the duration of the number of particular decrements correspond to particular programmed values. | 10-01-2009 |
20090273969 | CAPACITIVE DIVIDER SENSING OF MEMORY CELLS - The present disclosure includes devices and methods for sensing resistance variable memory cells. One device embodiment includes at least one resistance variable memory cell, and a capacitive divider configured to generate multiple reference levels in association with the at least one resistance variable memory cell. | 11-05-2009 |
20090279374 | SYSTEM AND METHOD FOR MITIGATING REVERSE BIAS LEAKAGE - The present disclosure includes devices, methods, and systems for programming memory, such as resistance variable memory. One embodiment can include an array of resistance variable memory cells, wherein the resistance variable memory cells are coupled to one or more data lines, a row decoder connected to a first side of the array, a column decoder connected to a second side of the array, wherein the second side is adjacent to the first side, a gap located adjacent to the row decoder and the column decoder, and clamp circuitry configured to control a reverse bias voltage associated with one or more unselected memory cells during a programming operation, wherein the clamp circuitry is located in the gap and is selectively coupled to the one or more data lines. | 11-12-2009 |
20090323408 | METHODS FOR DETERMINING RESISTANCE OF PHASE CHANGE MEMORY ELEMENTS - Methods for measuring the resistance of multiple memory elements are disclosed. The memory elements may be multi-bit memory and through precise measurement of resistance of the multi-bit memory elements, determination of how many and which memory elements fall into specific memory ranges can be accomplished. Furthermore, storage and/or display of this information may allow for the creation of resistance distribution histograms for modeling of one or more memory arrays. | 12-31-2009 |
20100067286 | MEMORY SENSING DEVICES, METHODS, AND SYSTEMS - The present disclosure includes devices, methods, and systems for sensing memory, such as resistance variable memory, among other types of memory. One or more embodiments can include a method for generating currents to be used in sensing a memory cell, the method including providing a number of initial currents, and generating a number of reference currents by summing particular combinations of the initial currents. | 03-18-2010 |
20100067287 | TEMPERATURE COMPENSATION IN MEMORY DEVICES AND SYSTEMS - The present disclosure includes devices, methods, and systems for temperature compensation in memory devices, such as resistance variable memory, among other types of memory. One or more embodiments can include a memory device including a table with an output that is used to create a multiplication factor for a current to compensate for temperature changes in the memory device, where the output depends on an operating temperature of the memory device and a difference in the current between a highest specified operating temperature and a lowest specified operating temperature of the memory device. | 03-18-2010 |
20100177574 | SYSTEM AND METHOD FOR MITIGATING REVERSE BIAS LEAKAGE - The present disclosure includes devices, methods, and systems for programming memory, such as resistance variable memory. One embodiment can include an array of resistance variable memory cells, wherein the resistance variable memory cells are coupled to one or more data lines, a row decoder connected to a first side of the array, a column decoder connected to a second side of the array, wherein the second side is adjacent to the first side, a gap located adjacent to the row decoder and the column decoder, and clamp circuitry configured to control a reverse bias voltage associated with one or more unselected memory cells during a programming operation, wherein the clamp circuitry is located in the gap and is selectively coupled to the one or more data lines. | 07-15-2010 |
20100202195 | PHASE CHANGE MEMORY - The present disclosure includes devices and methods for operating resistance variable memory cells. One or more embodiments include applying a programming signal to a resistance variable material of a memory cell, and decreasing a magnitude of a trailing portion of the applied programming signal successively according to a number of particular decrements. The magnitude and the duration of the number of particular decrements correspond to particular programmed values. | 08-12-2010 |
20100214821 | CAPACITIVE DIVIDER SENSING OF MEMORY CELLS - The present disclosure includes devices and methods for sensing resistance variable memory cells. One device embodiment includes at least one resistance variable memory cell, and a capacitive divider configured to generate multiple reference levels in association with the at least one resistance variable memory cell. | 08-26-2010 |
20110026304 | MEMORY CELL - Methods, and circuits, are disclosed for operating a programmable memory device. One method embodiment includes storing a value as a state in a first memory cell and as a complementary state in a second memory cell. Such a method further includes determining the state of the first memory cell using a first self-biased sensing circuit and the complementary state of the second memory cell using a second self-biased sensing circuit, and comparing in a differential manner an indication of the state of the first memory cell to a reference indication of the complementary state of the second memory cell to determine the value. | 02-03-2011 |
20110085375 | METHODS FOR DETERMINING RESISTANCE OF PHASE CHANGE MEMORY ELEMENTS - Methods for measuring the resistance of multiple memory elements are disclosed. The memory elements may be multi-bit memory and through precise measurement of resistance of the multi-bit memory elements, determination of how many and which memory elements fall into specific memory ranges can be accomplished. Furthermore, storage and/or display of this information may allow for the creation of resistance distribution histograms for modeling of one or more memory arrays. | 04-14-2011 |
20110205791 | TEMPERATURE COMPENSATION IN MEMORY DEVICES AND SYSTEMS - The present disclosure includes devices, methods, and systems for temperature compensation in memory devices, such as resistance variable memory, among other types of memory. One or more embodiments can include a memory device including a table with an output that is used to create a multiplication factor for a current to compensate for temperature changes in the memory device, where the output depends on an operating temperature of the memory device and a difference in the current between a highest specified operating temperature and a lowest specified operating temperature of the memory device. | 08-25-2011 |
20110242878 | METHODS FOR OPERATING MEMORY ELEMENTS - Methods for measuring the resistance of multiple memory elements are disclosed. The memory elements may be multi-bit memory and through precise measurement of resistance of the multi-bit memory elements, determination of how many and which memory elements fall into specific memory ranges can be accomplished. Furthermore, storage and/or display of this information may allow for the creation of resistance distribution histograms for modeling of one or more memory arrays. | 10-06-2011 |
20110310661 | MEMORY SENSING DEVICES, METHODS, AND SYSTEMS - The present disclosure includes devices, methods, and systems for sensing memory, such as resistance variable memory, among other types of memory. One or more embodiments can include a method for generating currents to be used in sensing a memory cell, the method including providing a number of initial currents, and generating a number of reference currents by summing particular combinations of the initial currents. | 12-22-2011 |
20110317473 | SYSTEM AND METHOD FOR MITIGATING REVERSE BIAS LEAKAGE - The present disclosure includes devices, methods, and systems for programming memory, such as resistance variable memory. One embodiment can include an array of resistance variable memory cells, wherein the resistance variable memory cells are coupled to one or more data lines, a row decoder connected to a first side of the array, a column decoder connected to a second side of the array, wherein the second side is adjacent to the first side, a gap located adjacent to the row decoder and the column decoder, and clamp circuitry configured to control a reverse bias voltage associated with one or more unselected memory cells during a programming operation, wherein the clamp circuitry is located in the gap and is selectively coupled to the one or more data lines. | 12-29-2011 |
20120092941 | MEMORY CELL - Methods, and circuits, are disclosed for operating a programmable memory device. One method embodiment includes storing a value as a state in a first memory cell and as a complementary state in a second memory cell. Such a method further includes determining the state of the first memory cell using a first self-biased sensing circuit and the complementary state of the second memory cell using a second self-biased sensing circuit, and comparing in a differential manner an indication of the state of the first memory cell to a reference indication of the complementary state of the second memory cell to determine the value. | 04-19-2012 |
20120287732 | APPARATUS AND METHODS OF DRIVING SIGNAL - Apparatus and methods for driving a signal are disclosed. An example apparatus includes a pre-driver circuit and a driver circuit. The pre-driver circuit includes a step-down transistor and the driver circuit includes a pull-down transistor configured to be coupled to a reference voltage. In a first mode, the step-down transistor is configured to reduce a voltage provided to the pull-down transistor to less than a supply voltage, and in a second mode, the step-down transistor configured to provide the voltage of the supply voltage to the pull-down transistor. The pre-driver circuit of the example signal driver circuit may further include a step-up transistor configured to increase a voltage provided to a pull-up transistor of the driver circuit to greater than the reference voltage, and in the second mode, the step-up transistor configured to provide the voltage of the reference voltage to the pull-up transistor. | 11-15-2012 |
20130010524 | MEMORY CELL - Methods, and circuits, are disclosed for operating a programmable memory device. One method embodiment includes storing a value as a state in a first memory cell and as a complementary state in a second memory cell. Such a method further includes determining the state of the first memory cell using a first self-biased sensing circuit and the complementary state of the second memory cell using a second self-biased sensing circuit, and comparing in a differential manner an indication of the state of the first memory cell to a reference indication of the complementary state of the second memory cell to determine the value. | 01-10-2013 |
20130010528 | SENSING RESISTANCE VARIABLE MEMORY - The present disclosure includes devices and methods for operating resistance variable memory. One device embodiment includes an array of memory cells wherein a number of the cells are commonly coupled to a select line, the number cells including a number of data cells programmable within a number of target threshold resistance (R | 01-10-2013 |
20130141960 | METHODS AND SYSTEMS FOR OPERATING MEMORY ELEMENTS - Methods and systems for measuring the resistance of multiple memory elements are disclosed. The memory elements may be multi-bit memory and through precise measurement of resistance of the multi-bit memory elements, determination of how many and which memory elements fall into specific memory ranges can be accomplished. Furthermore, storage and/or display of this information may allow for the creation of resistance distribution histograms for modeling of one or more memory arrays. | 06-06-2013 |
20140204689 | APPARATUS AND METHODS OF DRIVING SIGNAL FOR REDUCING THE LEAKAGE CURRENT - Apparatus and methods for driving a signal are disclosed. An example apparatus includes a pre-driver circuit and a driver circuit. The pre-driver circuit includes a step-down transistor and the driver circuit includes a pull-down transistor configured to be coupled to a reference voltage. In a first mode, the step-down transistor is configured to reduce a voltage provided to the pull-down transistor to less than a supply voltage, and in a second mode, the step-down transistor configured to provide the voltage of the supply voltage to the pull-down transistor. The pre-driver circuit of the example signal driver circuit may further include a step-up transistor configured to increase a voltage provided to a pull-up transistor of the driver circuit to greater than the reference voltage, and in the second mode, the step-up transistor configured to provide the voltage of the reference voltage to the pull-up transistor. | 07-24-2014 |