Patent application number | Description | Published |
20080266970 | PROGRAMMING AND/OR ERASING A MEMORY DEVICE IN RESPONSE TO ITS PROGRAM AND/OR ERASE HISTORY - For one embodiment, a program starting voltage of one or more program pulses applied to one or more memory cells is in response, at least in part, to on a number of program pulses previously required to program the one or more memory cells and/or an erase starting voltage of one or more erase pulses applied to one or more memory cells is based on a number of erase pulses previously required to erase the one or more memory cells. For another embodiment, a program starting voltage level and/or an erase starting voltage level of one or more program and/or erase pulses applied to one or more memory cells is in response, at least in part, to a number of program/erase cycles previously applied to the one or more memory cells. | 10-30-2008 |
20090024856 | Systems, methods and devices for limiting current consumption upon power-up - Embodiments are described including those for controlling peak current consumption of a multi-chip memory package during power-up. In one embodiment, each memory device of the multi-chip package includes a power level detector used to compare an internal voltage signal to a threshold. A current limiter controls the ramping rate of the internal voltage signal in response to the power level detector as the internal voltage signal ramps up towards the threshold. | 01-22-2009 |
20090027959 | PROGRAMMING MULTILEVEL CELL MEMORY ARRAYS - Methods and apparatus, such as those for programming of multilevel cell NAND memory arrays to facilitate a reduction of program disturb, are disclosed. In one such method, memory cells are shifted from a first Vt distribution to a second Vt distribution higher than the first Vt distribution during a first portion of a programming operation if a second or a fourth data state is desired, while memory cells remain in the first Vt distribution if the first or a third data state is desired. During a second portion of the programming operating, if the third data state is desired, those memory cells are shifted from the first Vt distribution to a third Vt distribution higher than the second Vt distribution and, if the fourth data state is desired, those memory cells are shifted from the second Vt distribution to a fourth Vt distribution higher than the third Vt distribution. | 01-29-2009 |
20090091982 | EXTERNAL CLOCK TRACKING PIPELINED LATCH SCHEME - A flash memory including a first latch having at least one external input to receive at least one command, at least one memory address, and a plurality of data bits, a command decoder coupled to the first latch output; a command latch including a first command latch input, a second command latch input, and a command latch output, the first command latch input to couple to the command decoder output, and the second command latch input to couple to a write command output of an internal clock control generator; and a command register including a first command register input and a second command register input, the first command register input to couple to the command latch output, and the second command register input to couple to an internal latch command output of the internal clock control generator. Additional apparatus, systems, and methods are disclosed. | 04-09-2009 |
20090154238 | PROGRAMMING MULTILEVEL CELL MEMORY ARRAYS - Methods and apparatus, such as those for programming of multilevel cell NAND memory arrays to facilitate a reduction of program disturb, are disclosed. In one such method, memory cells are shifted from a first Vt distribution to a second Vt distribution higher than the first Vt distribution during a first portion of a programming operation if a second or a fourth data state is desired, while memory cells remain in the first Vt distribution if the first or a third data state is desired. During a second portion of the programming operating, if the third data state is desired, those memory cells are shifted from the first Vt distribution to a third Vt distribution higher than the second Vt distribution and, if the fourth data state is desired, those memory cells are shifted from the second Vt distribution to a fourth Vt distribution higher than the third Vt distribution. | 06-18-2009 |
20090300237 | ASYNCHRONOUS/SYNCHRONOUS INTERFACE - The present disclosure includes methods, and circuits, for operating a memory device. One method embodiment for operating a memory device includes controlling data transfer through a memory interface in an asynchronous mode by writing data to the memory device at least partially in response to a write enable signal on a first interface contact, and reading data from the memory device at least partially in response to a read enable signal on a second interface contact. The method further includes controlling data transfer in a synchronous mode by transferring data at least partially in response to a clock signal on the first interface contact, and providing a bidirectional data strobe signal on an interface contact not utilized in the asynchronous mode. | 12-03-2009 |
20090323430 | PROGRAM ACCELERATION OF A MEMORY DEVICE - Selective program acceleration of a memory device is generally described. In one example, a method includes applying a first bias voltage to one or more bit lines coupled with a plurality of cells to be programmed, applying one or more program pulses to the plurality of cells, verifying the plurality of cells at a target threshold voltage to determine whether one or more cells of the plurality of cells have reached or surpassed the target threshold voltage, identifying slower cells of the plurality of cells, and selectively accelerating a program speed of the slower cells to reduce a programming time of a memory device. | 12-31-2009 |
20100008144 | SYSTEM AND MEMORY FOR SEQUENTIAL MULTI-PLANE PAGE MEMORY OPERATIONS - A system and method for performing memory operations in a multi-plane flash memory. Commands and addresses are sequentially provided to the memory for memory operations in memory planes. The memory operations are sequentially initiated and the memory operation for at least one of the memory planes is initiated during the memory operation for another memory plane. In one embodiment, each of a plurality of programming circuits is associated with a respective memory plane and is operable to program data to the respective memory plane in response to programming signals and when it is enabled. Control logic coupled to the plurality of programming circuits generates programming signals in response to the memory receiving program commands and further generates programming enable signals to individually enable each of the programming circuits to respond to the programming signals and stagger programming of data to each of the memory planes. | 01-14-2010 |
20100039877 | EXTERNAL CLOCK TRACKING PIPELINED LATCH SCHEME - A flash memory including a first latch having at least one external input to receive at least one command, at least one memory address, and a plurality of data bits, a command decoder coupled to the first latch output; a command latch including a first command latch input, a second command latch input, and a command latch output, the first command latch input to couple to the command decoder output, and the second command latch input to couple to a write command output of an internal clock control generator; and a command register including a first command register input and a second command register input, the first command register input to couple to the command latch output, and the second command register input to couple to an internal latch command output of the internal clock control generator. Additional apparatus, systems, and methods are disclosed. | 02-18-2010 |
20100172186 | PROGRAMMING AND/OR ERASING A MEMORY DEVICE IN RESPONSE TO ITS PROGRAM AND/OR ERASE HISTORY - For one embodiment, a program starting voltage of one or more program pulses applied to one or more memory cells is in response, at least in part, to on a number of program pulses previously required to program the one or more memory cells and/or an erase starting voltage of one or more erase pulses applied to one or more memory cells is based on a number of erase pulses previously required to erase the one or more memory cells. For another embodiment, a program starting voltage level and/or an erase starting voltage level of one or more program and/or erase pulses applied to one or more memory cells is in response, at least in part, to a number of program/erase cycles previously applied to the one or more memory cells. | 07-08-2010 |
20100246262 | METHODS AND CONTROL CIRCUITRY FOR PROGRAMMING MEMORY CELLS - Methods of programming memory cells and control circuitry for memory arrays facilitate a reduction of program disturb. A memory cell is shifted from a first data state to a second data state if it is desired to alter a first digit of a data value of the memory cell. If it is desired to alter a second digit of the data value of the memory cell, the memory cell is shifted to a third data state if the memory cell is in the first data state and shifted to a fourth data state if the memory cell is in the second data state. The first, second, third and fourth data states correspond to respective non-overlapping ranges of threshold voltages. The threshold voltages corresponding to the fourth data state are greater than the threshold voltages corresponding to the third data state. | 09-30-2010 |
20100246272 | APPARATUS COMPARING VERIFIED DATA TO ORIGINAL DATA IN THE PROGRAMMING OF A MEMORY ARRAY - Apparatus configured to perform a programming operation on at least one memory cell of the memory array in response to original data, and further configured to perform a comparison of verified data of the at least one memory cell of the memory array to the original data following success of the programming operation. Certain apparatus may be configured to permit skipping the comparison. | 09-30-2010 |
20110164453 | SYSTEM AND MEMORY FOR SEQUENTIAL MULTI-PLANE PAGE MEMORY OPERATIONS - A system and method for performing memory operations in a multi-plane flash memory. Commands and addresses are sequentially provided to the memory for memory operations in memory planes. The memory operations are sequentially initiated and the memory operation for at least one of the memory planes is initiated during the memory operation for another memory plane. In one embodiment, each of a plurality of programming circuits is associated with a respective memory plane and is operable to program data to the respective memory plane in response to programming signals and when it is enabled. Control logic coupled to the plurality of programming circuits generates programming signals in response to the memory receiving program commands and further generates programming enable signals to individually enable each of the programming circuits to respond to the programming signals and stagger programming of data to each of the memory planes. | 07-07-2011 |
20110179296 | SYSTEMS, METHODS AND DEVICES FOR LIMITING CURRENT CONSUMPTION UPON POWER-UP - Embodiments are described including those for controlling peak current consumption of a multi-chip memory package during power-up. In one embodiment, each memory device of the multi-chip package includes a power level detector used to compare an internal voltage signal to a threshold. A current limiter controls the ramping rate of the internal voltage signal in response to the power level detector as the internal voltage signal ramps up towards the threshold. | 07-21-2011 |
20110182128 | ASYNCHRONOUS/SYNCHRONOUS INTERFACE - The present disclosure includes methods, and circuits, for operating a memory device. One method embodiment for operating a memory device includes controlling data transfer through a memory interface in an asynchronous mode by writing data to the memory device at least partially in response to a write enable signal on a first interface contact, and reading data from the memory device at least partially in response to a read enable signal on a second interface contact. The method further includes controlling data transfer in a synchronous mode by transferring data at least partially in response to a clock signal on the first interface contact, and providing a bidirectional data strobe signal on an interface contact not utilized in the asynchronous mode. | 07-28-2011 |
20120173835 | SELECTIVE REGISTER RESET - The present disclosure includes methods, devices, modules, and systems for storing selective register reset. One method embodiment includes receiving an indication of a die and a plane associated with at least one address cycle. Such a method can also include selectively resetting a particular register of a number of registers, the particular register corresponding to the plane and the die. | 07-05-2012 |
20120224431 | PROGRAMMING AND/OR ERASING A MEMORY DEVICE IN RESPONSE TO ITS PROGRAM AND/OR ERASE HISTORY - For one embodiment, a programming method includes programming one or more memory cells of a memory device during a programming operation, determining, internal to the memory device, a number of program pulses required to program a sample of the one or more memory cells of the memory device during the programming operation, and adjusting a program starting voltage level of one or more program pulses applied to the one or more memory cells during a subsequent programming operation in response, at least in part, to the number of program pulses required to program the sample of the one or more memory cells programmed during the prior programming operation. | 09-06-2012 |
20120314517 | ASYNCHRONOUS/SYNCHRONOUS INTERFACE - The present disclosure includes methods, and circuits, for operating a memory device. One method embodiment for operating a memory device includes controlling data transfer through a memory interface in an asynchronous mode by writing data to the memory device at least partially in response to a write enable signal on a first interface contact, and reading data from the memory device at least partially in response to a read enable signal on a second interface contact. The method further includes controlling data transfer in a synchronous mode by transferring data at least partially in response to a clock signal on the first interface contact, and providing a bidirectional data strobe signal on an interface contact not utilized in the asynchronous mode. | 12-13-2012 |
20140153335 | ASYNCHRONOUS/SYNCHRONOUS INTERFACE - The present disclosure includes methods, and circuits, for operating a memory device. One method embodiment for operating a memory device includes controlling data transfer through a memory interface in an asynchronous mode by writing data to the memory device at least partially in response to a write enable signal on a first interface contact, and reading data from the memory device at least partially in response to a read enable signal on a second interface contact. The method further includes controlling data transfer in a synchronous mode by transferring data at least partially in response to a clock signal on the first interface contact, and providing a bidirectional data strobe signal on an interface contact not utilized in the asynchronous mode. | 06-05-2014 |
20140204679 | PROGRAMMING AND/OR ERASING A MEMORY DEVICE IN RESPONSE TO ITS PROGRAM AND/OR ERASE HISTORY - For one embodiment, a programming method includes programming one or more memory cells of a memory device during a programming operation, determining, internal to the memory device, a number of program pulses required to program a sample of the one or more memory cells of the memory device during the programming operation, and adjusting a program starting voltage level of one or more program pulses applied to the one or more memory cells during a subsequent programming operation in response, at least in part, to the number of program pulses required to program the sample of the one or more memory cells programed during the prior programming operation. | 07-24-2014 |
20150058644 | SYSTEMS, METHODS AND DEVICES FOR LIMITING CURRENT CONSUMPTION UPON POWER-UP - Embodiments are described including those for controlling peak current consumption of a multi-chip memory package during power-up. In one embodiment, each memory device of the multi-chip package includes a power level detector used to compare an internal voltage signal to a threshold. A current limiter controls the ramping rate of the internal voltage signal in response to the power level detector as the internal voltage signal ramps up towards the threshold. | 02-26-2015 |