Patent application number | Description | Published |
20080212373 | SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE WITH A STACKED GATE INCLUDING A FLOATING GATE AND A CONTROL GATE - A semiconductor integrated circuit device includes first and second nonvolatile semiconductor memories. The first memory has first and second select transistors and first memory cell transistors. The first memory cell transistor has a first floating gate on a first gate insulating film and a first control gate on a first inter-gate insulating film. The second memory has a third select transistor and a second memory cell transistor. The second memory cell transistor has a second floating gate on a second gate insulating film and a second control gate on a second inter-gate insulating film. The first and second gate insulating films have the same film thickness. The first and second floating gates have the same film thickness. The first and second inter-gate insulating films have the same film thickness. The first and second control gates have the same film thickness. | 09-04-2008 |
20120281476 | MEMORY APPARATUS AND METHODS - Embodiments of apparatus and methods having a memory device can include a line to exchange information with a string of memory cells and a transistor coupled between the string of memory cells and the line. Such a memory device can also include a module configured to couple a gate of the transistor to a node during a first time interval of a memory operation and decouple the gate from the node during a second time interval of the memory operation. Additional apparatus and methods are described. | 11-08-2012 |
20120314507 | REDUCED VOLTAGE NONVOLATILE FLASH MEMORY - Subject matter disclosed herein relates to a memory device, and more particularly to flash memory. | 12-13-2012 |
20130010537 | DEVICES AND METHODS OF PROGRAMMING MEMORY CELLS - Devices and methods of programming memory cells, both SLC and MLC, such as to reduce charge-storage structure to charge-storage structure coupling, are shown and described. Programming of memory cells can include comparing a first page of data to a second page of data, and further programming cells corresponding to the first page of data that will not likely be affected by coupling from programming the second page of data. | 01-10-2013 |
20130051142 | MEMORY WITH THREE TRANSISTOR MEMORY CELL DEVICE - Memory, memory devices, and a method for a backup sequence are disclosed. In one such memory device, sense circuitry and page buffers are coupled between a three transistor memory cell device and a non-volatile memory device. Enable/disable gates enable selective access to the sense circuitry and page buffers by either the three transistor memory cell device or the non-volatile memory device. | 02-28-2013 |
20130135937 | PROGRAMMING MEMORY CELLS USING SMALLER STEP VOLTAGES FOR HIGHER PROGRAM LEVELS - Memory devices and methods are disclosed. An embodiment of one such method includes programming a first memory cell to a first program level by applying a first series of programming pulses to a control gate of the first memory cell, where the programming pulses of the first series have voltages that sequentially increase by a certain first voltage; and programming a second memory cell to a second program level that is higher than the first program level by applying a second series of programming pulses to a control gate of the second memory cell, where the programming pulses of the second series have voltages that sequentially increase by a certain second voltage less than the certain first voltage. | 05-30-2013 |
20130146960 | MEMORY CELLS HAVING A PLURALITY OF CONTROL GATES AND MEMORY CELLS HAVING A CONTROL GATE AND A SHIELD - Various embodiments comprise apparatuses having a number of memory cells. In one such apparatus, each cell has a plurality of control gates. For example, each of two control gates is adjacent a respective side of a charge storage structure. In another apparatus, each cell has a control gate and a shield, such as where the control gate is adjacent one side of a charge storage structure and the shield is adjacent another side of the charge storage structure. Additional apparatuses and methods are described. | 06-13-2013 |
20130207225 | MEMORY CELL PROFILES - Examples of the present disclosure provide devices and methods for processing a memory cell. A method embodiment includes removing a key-hole shaped column from a material, to define a profile for the memory cell. The method also includes partially filling the key-hole shaped column with a first number of materials. The method further includes filling the remaining portion of the key-hole shaped column with a second number of materials. | 08-15-2013 |
20130235660 | LOCAL SELF-BOOST USING A PLURALITY OF CUT-OFF CELLS ON A SINGLE SIDE OF A STRING OF MEMORY CELLS - Methods for local self-boost of a selected memory cell channel, memory devices, and systems are disclosed. One such method generates a cut-off channel under each of a plurality of memory cells on one of either a source side or a drain side of a selected memory cell. | 09-12-2013 |
20130258785 | APPARATUSES AND METHODS INCLUDING MEMORY WRITE, READ, AND ERASE OPERATIONS - Some embodiments include apparatuses and methods having a memory cell string that can include memory cells located in different levels of the apparatus. The memory cell string can include a body associated with the memory cells. At least one of such embodiments can include a module configured to apply a negative voltage to at least a portion of the body of the memory cell string during an operation of the apparatus. The operation can include a read operation, a write operation, or an erase operation. Other embodiments are described. | 10-03-2013 |
20130336070 | APPARATUSES AND METHODS TO MODIFY PILLAR POTENTIAL - Apparatus are disclosed, such as a block including a number of strings of charge storage devices, each string including a number of charge storage devices associated with a pillar, and each pillar including semiconductor material. Methods are disclosed, such as a method that includes performing a first operation on a first charge storage device associated with a pillar in the block, modifying an electrical potential of the pillar, and performing a second operation on a second charge storage device in the block. Additional apparatus and methods are described. | 12-19-2013 |
20140016411 | DEVICES AND METHODS OF PROGRAMMING MEMORY CELLS - Devices and methods of programming memory cells, both SLC and MLC, such as to reduce charge-storage structure to charge-storage structure coupling, are shown and described. Programming of memory cells can include comparing a first page of data to a second page of data, and further programming cells corresponding to the first page of data that will not likely be affected by coupling from programming the second page of data. | 01-16-2014 |
20140126290 | MEMORY ARRAYS WITH A MEMORY CELL ADJACENT TO A SMALLER SIZE OF A PILLAR HAVING A GREATER CHANNEL LENGTH THAN A MEMORY CELL ADJACENT TO A LARGER SIZE OF THE PILLAR AND METHODS - The disclosure is related to memory arrays and methods. One such memory array has a substantially vertical pillar. A memory cell adjacent to the pillar where the pillar has a first size has a greater channel length than a memory cell adjacent to the pillar where the pillar has a second size larger than the first size. | 05-08-2014 |
20140254267 | MEMORY DEVICES WITH DIFFERENT SIZED BLOCKS OF MEMORY CELLS AND METHODS - In an embodiment, each block of a plurality of blocks includes a respective plurality of strings of memory cells, where each of the plurality of strings of a block is coupled to a respective select transistor, and wherein each of the select transistors coupled to the plurality of strings of the block is coupled to a common first select line. The plurality of blocks includes N block sizes, where N may be an integer greater than or equal to three. N−1 blocks of one block size of the N block sizes collectively include a first number of second select lines. A group of blocks consisting of a respective block of each remaining block size of the N block sizes collectively include a second number of second select lines that is equal to the first number of select lines or that is less than the first number of second select lines. | 09-11-2014 |
20140301145 | PROGRAMMING MEMORY CELLS USING SMALLER STEP VOLTAGES FOR HIGHER PROGRAM LEVELS - Memory devices and methods are disclosed. An embodiment of one such method includes programming a first memory cell to a first program level by applying a first series of programming pulses to a control gate of the first memory cell, where the programming pulses of the first series have voltages that sequentially increase by a certain first voltage; and programming a second memory cell to a second program level that is higher than the first program level by applying a second series of programming pulses to a control gate of the second memory cell, where the programming pulses of the second series have voltages that sequentially increase by a certain second voltage less than the certain first voltage. | 10-09-2014 |
20140321215 | INHIBITING PILLARS IN 3D MEMORY DEVICES - Methods and controllers for programming a memory are provided. In one such method, a potential for pillars of the memory that are to be inhibited is lowered, and programming cells of the memory is accomplished while the pillars of the memory that are to be inhibited have the lower potential. | 10-30-2014 |
20140347932 | MEMORY WITH THREE TRANSISTOR MEMORY CELL DEVICE - Memory, memory devices, and a method for a backup sequence are disclosed. In one such memory device, sense circuitry and page buffers are coupled between a three transistor memory cell device and a non-volatile memory device. Enable/disable gates enable selective access to the sense circuitry and page buffers by either the three transistor memory cell device or the non-volatile memory device. | 11-27-2014 |
20140369130 | LOCAL SELF-BOOST USING A PLURALITY OF CUT-OFF CELLS ON A SINGLE SIDE OF A STRING OF MEMORY CELLS - Methods for local self-boost of a selected memory cell channel, memory devices, and systems are disclosed. One such method generates a cut-off channel under each of a plurality of memory cells on one of either a source side or a drain side of a selected memory cell. | 12-18-2014 |
Patent application number | Description | Published |
20140036590 | PARTIAL BLOCK MEMORY OPERATIONS - Methods and apparatuses are disclosed, such as those including a block of memory cells that includes strings of charge storage devices. Each of the strings may comprise a plurality of charge storage devices formed in a plurality of tiers. The apparatus may comprise a plurality of access lines shared by the strings. Each of the plurality of access lines may be coupled to the charge storage devices corresponding to a respective tier of the plurality of tiers. The apparatus may comprise a plurality of sub-sources associated with the strings. Each of the plurality of sub-sources may be coupled to a source select gate of each string of a respective subset of a plurality of subsets of the strings, and each sub-source may be independently selectable from other sub-sources to select the strings of its respective subset independently of other strings corresponding to other subsets. | 02-06-2014 |
20140104951 | SENSING DATA STORED IN MEMORY - The present disclosure includes apparatuses and methods for sensing data stored in memory. A number of embodiments include an array of memory cells, and a controller coupled to the array and configured to sense a page of memory cells coupled to an activated access line by pre-charging only a single subset of a number of data lines coupled to the page, wherein more than two subsets of data lines are coupled to the page and the single subset is coupled to those memory cells storing at least a portion of a single sector of data of the page, and sensing the single subset of the number of data lines to determine the at least a portion of the single sector of data. | 04-17-2014 |
20140104959 | MEMORY APPARATUS AND METHODS - Embodiments of apparatus and methods having a memory device can include a line to exchange information with a string of memory cells and a transistor coupled between the string of memory cells and the line. Such a memory device can also include a module configured to couple a gate of the transistor to a node during a first time interval of a memory operation and decouple the gate from the node during a second time interval of the memory operation. Additional apparatus and methods are described. | 04-17-2014 |
20140119117 | MULTIPLE DATA LINE MEMORY AND METHODS - Apparatuses and methods are disclosed, including an apparatus with rows of vertical strings of memory cells coupled to a common source and multiple data lines associated with each row of vertical strings. Each data line associated with a row is coupled to at least one of the vertical strings in the row. Additional apparatuses and methods are described. | 05-01-2014 |
20140138754 | MEMORY CELLS HAVING A PLURALITY OF CONTROL GATES AND MEMORY CELLS HAVING A CONTROL GATE AND A SHIELD - Various embodiments comprise apparatuses having a number of memory cells. In one such apparatus, each cell has a plurality of control gates. For example, each of two control gates is adjacent a respective side of a charge storage structure. In another apparatus, each cell has a control gate and a shield, such as where the control gate is adjacent one side of a charge storage structure and the shield is adjacent another side of the charge storage structure. Additional apparatuses and methods are described. | 05-22-2014 |
20140160851 | APPARATUSES AND METHODS TO CONTROL BODY POTENTIAL IN MEMORY OPERATIONS - Some embodiments include apparatuses and methods having a memory cell string including memory cells located in different levels of the apparatus and a data line coupled to the memory cell string. The memory cell string includes a pillar body associated with the memory cells. At least one of such apparatus can include a module configured to store information in a memory cell among memory cells and/or to determine a value of information stored in a memory cell among memory cells. The module can also be configured to apply a voltage having a positive value to the data line and/or a source to control a potential of the body. Other embodiments are described. | 06-12-2014 |
20140313839 | SEQUENTIAL MEMORY OPERATION WITHOUT DEACTIVATING ACCESS LINE SIGNALS - Some embodiments include apparatuses and methods for activating a signal associated with an access line coupled to different groups of memory cells during a memory operation of a device, and for sensing data lines of the device during different time intervals of the memory operation to determine the value of information stored in the memory cells. Each of the data lines can be coupled to a respective memory cell of each of the groups of memory cells. In at least one of such apparatuses and methods, the signal applied to the access line can remain activated during the memory operation. | 10-23-2014 |
20140369116 | SHIELDED VERTICALLY STACKED DATA LINE ARCHITECTURE FOR MEMORY - Apparatuses and methods are disclosed, including an apparatus that includes first and second strings of vertically stacked memory cells, and first and second pluralities of vertically stacked data lines. A data line of the first plurality of data lines is coupled to the first string through a first select device. A data line of the second plurality of data lines is coupled to the second string through a second select device and is adjacent to the data line coupled to the first string. Such an apparatus can be configured to couple the data line coupled to the first string to a shield potential during at least a portion of a memory operation involving a memory cell of the second string. | 12-18-2014 |
20150078089 | METHODS AND APPARATUSES HAVING STRINGS OF MEMORY CELLS AND SELECT GATES WITH DOUBLE GATES - An apparatus, a method, and a system are disclosed. The apparatus includes a string of memory cells coupled to a select gate drain transistor that has a front control gate and a back control gate. The front and back control gates can be coupled together such that they are biased at the same voltage or separate such that they can be biased at different voltages. | 03-19-2015 |
20150078099 | SENSING DATA STORED IN MEMORY - The present disclosure includes apparatuses and methods for sensing data stored in memory. A number of embodiments include an array of memory cells, and a controller coupled to the array and configured to sense a page of memory cells coupled to an activated access line by pre-charging only a single subset of a number of data lines coupled to the page, wherein more than two subsets of data lines are coupled to the page and the single subset is coupled to those memory cells storing at least a portion of a single sector of data of the page, and sensing the single subset of the number of data lines to determine the at least a portion of the single sector of data. | 03-19-2015 |