Patent application number | Description | Published |
20120126783 | SELF TIMED CURRENT INTEGRATING SCHEME EMPLOYING LEVEL AND SLOPE DETECTION - Some embodiments of the invention relate to a sense amplifier configured to determine the slope of a bitline charging voltage and to utilize the determined slope in combination with a voltage level sensing scheme to aid in reading data from a memory cell associated with the bitline. In particular, a sense amplifier circuit is configured to determine a slope of a bit line charging voltage and based upon the determined slope to adjust the slope of the bitline voltage (e.g., by adding a dynamic slope dependent current to a memory cell current configured to charge the bitline) provided to a sense amplifier. By adjusting the slope of the bitline voltage, the charging speed of memory cells in a low resistive state (e.g., having a high cell current and therefore a good SNR) can be increased. | 05-24-2012 |
20130208527 | MEMORY CELL, A METHOD FOR FORMING A MEMORY CELL, AND A METHOD FOR OPERATING A MEMORY CELL - A memory cell is provided, the memory cell including a first two-terminal memory element; a second two-terminal memory element; a controller circuit configured to program the first two-terminal memory element to one or more states and the second two-terminal memory element to one or more states, wherein a state of the first two-terminal memory element and a state of the second two-terminal memory element are interdependent; and a measuring circuit configured to measure a difference signal between a first two-terminal memory element signal associated with the state of the first two-terminal memory element and a second two-terminal memory element signal associated with the state of the second two-terminal memory element. | 08-15-2013 |
20140056058 | Differential Sensing Method and System for STT MRAM - The invention relates to methods and systems for reading a memory cell and in particular, an STT MRAM. In accordance with one aspect of the invention, a system for reading a memory cell includes a read path and a precharge path. The reference current is provided through the read path and is sampled via a sampling element in the read path. Subsequently, a current from the memory cell is provided through the same sampling element and read path. The output level is then determined by the cell current working against the sampled reference current. | 02-27-2014 |
20140056059 | Symmetrical Differential Sensing Method and System for STT MRAM - The invention relates to methods and systems for reading a memory cell and in particular, an STT MRAM. In one example, a system for reading a memory cell includes a sense path and an inverse path. A reference current is provided through the sense path and is sampled via a first sampling element in the sense path, and a cell current from the memory cell is provided through the inverse sense path and is sampled via a second sampling element in the inverse sense path. Subsequently, the memory cell is disconnected from the inverse sense path, the cell current is provided through the sense path, the reference source is disconnected from the sense path, and the reference current is provided through the inverse sense path. The output levels are then determined by the cell and reference currents working against the sampled reference and sampled cell currents. | 02-27-2014 |
20140056079 | Method and System for Switchable Erase or Write Operations in Nonvolatile Memory - Embodiments relate to systems and methods including a step of switching between two or more erase operations and/or two or more write operations for erasing of and/or writing to least one memory cell of a nonvolatile memory enabling to select a most suitable erase and/or write operation for a particular erase and/or write operation within the memory. | 02-27-2014 |
20140063923 | Mismatch Error Reduction Method and System for STT MRAM - The invention relates to methods and systems for reading a memory cell and in particular, an STT MRAM. In accordance with one aspect of the invention, a method for reading a memory cell includes combining a cell current from a memory cell with a reference current from a reference source to create an average current, enabling the average current to flow through a first mirror transistor in a sense path and a second mirror transistor in a reference path, storing the current mismatch on a capacitor coupled to the gates of the first mirror transistor and the second mirror transistor, disconnecting the memory cell from the reference path and disconnecting the reference source from the sense path, enabling the cell current only to flow through the sense path, and determining the output level of the memory cell. | 03-06-2014 |
20140064011 | System and Method for Providing Voltage Supply Protection in a Memory Device - The invention relates to an electronic memory system, and more specifically, to a system for providing voltage supply protection in a memory device, and a method for providing voltage supply protection in a memory device. According to an embodiment, a system for providing voltage supply protection in a memory device is provided, the system including a memory array including a plurality of memory cells arranged in a plurality of groups of memory cells, and a plurality of current limiting elements, wherein each group of memory cells is associated with at least one current limiting element. | 03-06-2014 |
20140215124 | SYSTEM AND METHOD FOR ADAPTIVE BIT RATE PROGRAMMING OF A MEMORY DEVICE - The disclosure relates to an electronic memory system, and more specifically, to a system for adaptive bit rate programming of a memory device, and a method for adaptive bit rate programming of a memory device. According to an embodiment, a system for adaptive bit rate programming of a memory device including a plurality of memory cells is provided, wherein the memory cells are configured to be electrically programmable by application of a current supplied by a current source, the system including selection devices for selecting memory cells for programming based on availability of current from the current source. | 07-31-2014 |