Patent application number | Description | Published |
20080205155 | Systems and methods to reduce interference between memory cells - Embodiments of the inventive subject matter provide systems and methods for programming a set of memory cells by inducing a first voltage on the lower page of a first group of memory cells to hold a first least significant bit, and by inducing a second voltage on the lower page of a second group of memory cells to hold a second least significant bit. Once the lower page is programmed, the voltage may be shifted to the upper page of each memory cell into a final range representing one or more most significant bits to be programmed. Each memory cell may store a voltage within a final programmed range representing a binary value. | 08-28-2008 |
20090080253 | DEVICE, SYSTEM, AND METHOD OF BIT LINE SELECTION OF A FLASH MEMORY - Device, system, and method of bit line selection of a flash memory. In some demonstrative embodiments, the method may include connecting to ground at least one location along at least one bit line of a flash memory when the bit line is at an unselected state, wherein the bit line is connected to a multiplexer, and wherein at least one memory sector is coupled to the bit line between the multiplexer and the location; and connecting the location to a precharge path when the bit line is at a selected state. Other embodiments are described and claimed. | 03-26-2009 |
20100135075 | READING NON-VOLATILE MULTILEVEL MEMORY CELLS - Embodiments of the present disclosure provide methods, devices, modules, and systems for reading non-volatile multilevel memory cells. One method includes receiving a request to read data stored in a first cell of a first word line, performing a read operation on an adjacent cell of a second word line in response to the request, determining whether the first cell is in a disturbed condition based on the read operation. The method includes reading data stored in the first cell in response to the read request by applying a read reference voltage to the first word line and adjusting a sensing parameter if the first cell is in the disturbed condition. | 06-03-2010 |
20100165739 | NON-VOLATILE MULTILEVEL MEMORY CELL PROGRAMMING - Embodiments of the present disclosure provide methods, devices, modules, and systems for programming multilevel non-volatile multilevel memory cells. One method includes increasing a threshold voltage (Vt) for each of a number of memory cells until the Vt reaches a verify voltage (VFY) corresponding to a program state among a number of program states. The method includes determining whether the Vt of each of the cells has reached a pre-verify voltage (PVFY) associated with the program state, selectively biasing bit lines coupled to those cells whose Vt has reached the PVFY, adjusting the PVFY to a different level, and selectively biasing bit lines coupled to cells whose Vt has reached the adjusted PVFY, wherein the PVFY and the adjusted PVFY are less than the VFY. | 07-01-2010 |
20110280082 | NON-VOLATILE MEMORY PROGRAMMING - Some embodiments include a memory device and a method of programming memory cells of the memory device. One such method includes applying voltages to data lines associated with different groups of memory cells during a programming operation. Such a method applies the voltages to the data lines associated with a last group of memory cells being programmed in a different fashion from the other groups of memory cells after the other groups of memory cells have been programmed. Other embodiments including additional memory devices and methods are described. | 11-17-2011 |
20110299333 | NON-VOLATILE MEMORY PROGRAMMING - Some embodiments include a memory device and a method of programming memory cells of the memory device. One such method includes applying different voltages to data lines associated with different memory cells based on threshold voltages of the memory cells in an erased state. Other embodiments including additional memory devices and methods are described. | 12-08-2011 |
20120243318 | NON-VOLATILE MEMORY PROGRAMMING - Some embodiments include a memory device and a method of programming memory cells of the memory device. One such method can include applying a signal to a line associated with a memory cell, the signal being generated based on digital information. The method can also include, while the signal is applied to the line, determining whether a state of the memory cell is near a target state when the digital information has a first value, and determining whether the state of the memory cell has reached the target state when the digital information has a second value. Other embodiments including additional memory devices and methods are described. | 09-27-2012 |
20120307564 | METHOD FOR KINK COMPENSATION IN A MEMORY - This disclosure concerns memory kink compensation. One method embodiment includes applying a number of sequentially incrementing programming pulses to a memory cell, with the sequential programming pulses incrementing by a first programming pulse step voltage magnitude. A seeding voltage is applied after applying the number of sequentially incrementing programming pulses. A next programming pulse is applied after applying the seeding voltage, with the next programming pulse being adjusted relative to a preceding one of the sequentially incrementing programming pulses by a second programming pulse step voltage magnitude. The second programming pulse step voltage magnitude can be less than the first programming pulse step voltage magnitude. | 12-06-2012 |
20130051141 | THRESHOLD VOLTAGE COMPENSATION IN A MULTILEVEL MEMORY - Threshold voltages in a charge storage memory are controlled by threshold voltage placement, such as to provide more reliable operation and to reduce the influence of factors such as neighboring charge storage elements and parasitic coupling. Pre-compensation or post-compensation of threshold voltage for neighboring programmed “aggressor” memory cells reduces the threshold voltage uncertainty in a flash memory system. Using a buffer having a data structure such as a lookup table provides for programmable threshold voltage distributions that enables the distribution of data states in a multi-level cell flash memory to be tailored, such as to provide more reliable operation. | 02-28-2013 |
20130058164 | MEMORY APPARATUS, SYSTEMS, AND METHODS - Threshold voltages in a charge storage memory are controlled by threshold voltage placement, such as to provide more reliable operation and to reduce the influence of factors such as neighboring charge storage elements and parasitic coupling. Pre-compensation or post-compensation of threshold voltage for neighboring programmed aggressor memory cells reduces the threshold voltage uncertainty in a flash memory system. Using a buffer having a data structure such as a lookup table provides for programmable threshold voltage distributions that enables the distribution of data states in a multi-level cell flash memory to be tailored, such as to provide more reliable operation. Additional apparatus, systems, and methods are provided. | 03-07-2013 |
20130201764 | NON-VOLATILE MEMORY PROGRAMMING - Some embodiments include a memory device and a method of programming memory cells of the memory device. One such method includes applying different voltages to data lines associated with different memory cells based on threshold voltages of the memory cells in an erased state. Other embodiments including additional memory devices and methods are described. | 08-08-2013 |
20130265827 | LEVEL COMPENSATION IN MULTILEVEL MEMORY - Some embodiments include apparatuses and methods having a compensation unit to provide a compensation value based at least in part on a threshold voltage value of a memory cell. At least one of such embodiments includes a controller to select a code during an operation of retrieving information from the memory cell to represent a value of information stored in the memory cell. Such a code can be associated with an address having an address value based at least in part on the compensation value. Additional apparatuses and methods are described. | 10-10-2013 |
20130286743 | NON-VOLATILE MEMORY PROGRAMMING - Some embodiments include a memory device and a method of programming memory cells of the memory device. One such method includes applying voltages to data lines associated with different groups of memory cells during a programming operation. Such a method applies the voltages to the data lines associated with a last group of memory cells being programmed in a different fashion from the other groups of memory cells after the other groups of memory cells have been programmed. Other embodiments including additional memory devices and methods are described. | 10-31-2013 |
20140043912 | METHOD FOR KINK COMPENSATION IN A MEMORY - This disclosure concerns memory kink compensation. One method embodiment includes applying a number of sequentially incrementing programming pulses to a memory cell, with the sequential programming pulses incrementing by a first programming pulse step voltage magnitude. A seeding voltage is applied after applying the number of sequentially incrementing programming pulses. A next programming pulse is applied after applying the seeding voltage, with the next programming pulse being adjusted relative to a preceding one of the sequentially incrementing programming pulses by a second programming pulse step voltage magnitude. The second programming pulse step voltage magnitude can be less than the first programming pulse step voltage magnitude. | 02-13-2014 |
20150085581 | NON-VOLATILE MEMORY PROGRAMMING - Some embodiments include a memory device and a method of programming memory cells of the memory device. One such method can include applying a signal to a line associated with a memory cell, the signal being generated based on digital information. The method can also include, while the signal is applied to the line, determining whether a state of the memory cell is near a target state when the digital information has a first value, and determining whether the state of the memory cell has reached the target state when the digital information has a second value. Other embodiments including additional memory devices and methods are described. | 03-26-2015 |
Patent application number | Description | Published |
20140133224 | ARCHITECTURE AND METHOD FOR MEMORY PROGRAMMING - Methods of programming a memory, memory devices, and systems are disclosed, for example. In one such method, each data line of a memory to be programmed is biased differently depending upon whether one or more of the data lines adjacent the data line are inhibited. In one such system, a connection circuit provides data corresponding to the inhibit status of a target data line to page buffers associated with data lines adjacent to the target data line. | 05-15-2014 |
20140185385 | MEMORIES AND METHODS OF PROGRAMMING MEMORIES - Apparatus and methods for adjusting programming for upper pages of memories are disclosed. In at least one embodiment, a threshold voltage distribution upper limit is determined after a single programming pulse for lower page programming, and upper page programming start voltages are adjusted based on the determined upper limit of the threshold voltage distribution. | 07-03-2014 |
20140204674 | LINE VOLTAGE BOOST SYSTEM AND METHOD FOR NON-VOLATILE MEMORY DEVICES AND MEMORY DEVICES AND PROCESSOR-BASED SYSTEM USING SAME - The voltage of a selected word line is increased beyond the voltage to which a respective string driver transistor is capable of driving the word line by capacitively coupling a voltage to the selected word line from adjacent word lines. The voltage is capacitively coupled to the selected word line by increasing the voltages of the adjacent word lines after a programming voltage has been applied to a string driver transistor for the selected word line and after a string driver voltage has been applied to the gates of all of the string driver transistors in an array. | 07-24-2014 |
20140321207 | DETERMINING SOFT DATA FOR COMBINATIONS OF MEMORY CELLS - The present disclosure includes apparatuses and methods for determining soft data for combinations of memory cells. A number of embodiments include an array of memory cells, wherein the array includes a first memory cell and a second memory cell, wherein the first and second memory cells are each programmable to one of a number of program states, and wherein a combination of the program states of the first and second memory cells corresponds to one of a number of data states. A number of embodiments also include a buffer and/or a controller coupled to the array and configured to determine soft data associated with the program states of the first and second memory cells and determine soft data associated with the data state that corresponds to the combination of the program states of the first and second memory cells based, at least in part, on the soft data associated with the program state of the first memory cell and the soft data associated with the program state of the second memory cell. | 10-30-2014 |
20150049556 | PROGRAM VERIFY OPERATION IN A MEMORY DEVICE - Methods for program verifying a memory cell include generating an access line voltage in response to a count and applying the access line voltage to a control gate of the memory cell, and generating a pass signal in response to the access line voltage activating the memory cell. Methods further include comparing at least a portion of the count to an indication of a desired threshold voltage of the memory cell, and when the at least a portion of the count matches the indication of the desired threshold voltage of the memory cell, determining if the pass signal is present. Methods further include generating a signal indicative of a desire to inhibit further programming of the memory cell if the pass signal is present when the match is indicated. | 02-19-2015 |
20150063031 | DYNAMIC PROGRAM WINDOW DETERMINATION IN A MEMORY DEVICE - A memory device has an array of memory cells and a controller coupled to the array of memory cells. The controller is configured to determine a program window after a portion of a particular programing operation performed on the memory device is performed and before a subsequent portion of the particular programing operation performed on the memory device is performed. The controller is configured to determine the program window responsive to an amount of program disturb experienced by a particular state of a memory cell. The controller is configured to perform the subsequent portion of the particular programing operation performed on the memory device using the determined program window. | 03-05-2015 |