Patent application number | Description | Published |
20080298123 | Non-volatile memory cell healing - Embodiments of the present disclosure provide methods, devices, modules, and systems for healing non-volatile memory cells. One method includes biasing a first select gate transistor coupled to a string of memory cells at a first voltage, biasing a second select gate transistor coupled to the string at a second voltage, applying a first healing voltage to a first edge word line in order to extract charge accumulated between the first select gate transistor and a first edge memory cell stack of the string, and applying a second healing voltage to a second edge word line in order to extract charge accumulated between the second select gate transistor and a second edge memory cell stack of the string. | 12-04-2008 |
20090003065 | Flash cell with improved program disturb - Memory cells, memory arrays, memory devices and methods are disclosed, such as those involving a memory cell comprising a floating gate comprising lightly doped polysilicon, wherein the lightly doped polysilicon has a substantially uniform doping concentration. One such memory cell further comprises a control gate and dielectric disposed between the floating gate and the control gate. | 01-01-2009 |
20090003078 | Program-verify method - Methods and devices are disclosed, such methods comprising applying a verify pass-through voltage to unselected select lines of the floating-gate memory array that is greater than a read pass-through voltage applied to the unselected select lines. Other methods involve utilizing a cell current for reading a value from one or more memory cells in program-verify operations that is lower than a cell current for reading value from one or more memory cells in read operations. | 01-01-2009 |
20090244979 | ERASE DEGRADATION REDUCTION IN NON-VOLATILE MEMORY - Methods for erasing a memory device and memory systems are provided, such as those including a non-volatile memory device is erased by using an intermediate erase step prior to a normal erase step. The intermediate erase step is comprised of an erase pulse voltage, applied to the semiconductor well of the selected memory block of memory cells, while edge rows of memory cells are biased at a low positive voltage (e.g., 0.8-2V). An erase verify operation is then performed. If the selected memory block is not erased, a normal memory erase step is then performed in which the same erase pulse voltage is used but all of the rows are biased at ground potential as in a normal erase step. If the memory block is still fails the erase verify operation, the erase pulse voltage is increased and the process repeated. | 10-01-2009 |
20090296471 | MEMORY CELL OPERATION - Embodiments of the present disclosure provide methods, devices, modules, and systems for operating memory cells. One method includes: performing an erase operation on a selected group of memory cells, the selected group including a number of reference cells and a number of data cells; performing a programming monitor operation on the number of reference cells as part of the erase operation; and determining a number of particular operating parameters associated with operating the number of data cells at least partially based on the programming monitor operation performed on the number of reference cells. | 12-03-2009 |
20100046303 | PROGRAM-VERIFY METHOD - Methods and devices are disclosed, some such methods comprising applying a verify pass-through voltage to unselected select lines of the floating-gate memory array that is greater than a read pass-through voltage applied to the unselected select lines. Other methods involve utilizing a cell current for reading a value from one or more memory cells in program-verify operations that is lower than a cell current for reading the value from the one or more memory cells in read operations. | 02-25-2010 |
20100067307 | METHOD FOR PROGRAMMING AND ERASING AN NROM CELL - A nitride read only memory (NROM) cell can be programmed by applying a ramp voltage to the gate input, a constant voltage to one of the two source/drain regions, and a ground potential to the remaining source/drain region. In order to erase the NROM cell, a constant voltage is coupled to the gate input. A constant positive current is input to one of the source/drain regions. The remaining source/drain region is either allowed to float, is coupled to a ground potential, or is coupled to the first source/drain region. | 03-18-2010 |
20100165747 | NON-VOLATILE MEMORY CELL HEALING - Embodiments of the present disclosure provide methods, devices, modules, and systems for healing non-volatile memory cells. One method includes biasing a first select gate transistor coupled to a string of memory cells at a first voltage, biasing a second select gate transistor coupled to the string at a second voltage, applying a first healing voltage to a first edge word line in order to extract charge accumulated between the first select gate transistor and a first edge memory cell stack of the string, and applying a second healing voltage to a second edge word line in order to extract charge accumulated between the second select gate transistor and a second edge memory cell stack of the string. | 07-01-2010 |
20110188312 | METHOD FOR MEMORY CELL ERASURE WITH A PROGRAMMING MONITOR OF REFERENCE CELLS - Embodiments of the present disclosure provide methods, devices, modules, and systems for operating memory cells. One method includes: performing an erase operation on a selected group of memory cells, the selected group including a number of reference cells and a number of data cells; performing a programming monitor operation on the number of reference cells as part of the erase operation; and determining a number of particular operating parameters associated with operating the number of data cells at least partially based on the programming monitor operation performed on the number of reference cells. | 08-04-2011 |
20120300551 | NON-VOLATILE MEMORY CELL HEALING - Embodiments of the present disclosure provide methods, devices, modules, and systems for healing non-volatile memory cells. One method includes biasing a first select gate transistor coupled to a string of memory cells at a first voltage, biasing a second select gate transistor coupled to the string at a second voltage, applying a first healing voltage to a first edge word line in order to extract charge accumulated between the first select gate transistor and a first edge memory cell stack of the string, and applying a second healing voltage to a second edge word line in order to extract charge accumulated between the second select gate transistor and a second edge memory cell stack of the string. | 11-29-2012 |
20120327712 | METHOD FOR MEMORY CELL ERASURE WITH A PROGRAMMING MONITOR OF REFERENCE CELLS - Embodiments of the present disclosure provide methods, devices, modules, and systems for operating memory cells. One method includes: performing an erase operation on a selected group of memory cells, the selected group including a number of reference cells and a number of data cells; performing a programming monitor operation on the number of reference cells as part of the erase operation; and determining a number of particular operating parameters associated with operating the number of data cells at least partially based on the programming monitor operation performed on the number of reference cells. | 12-27-2012 |
20130343127 | METHOD FOR MEMORY CELL ERASURE WITH A PROGRAMMING MONITOR OF REFERENCE CELLS - Embodiments of the present disclosure provide methods, devices, modules, and systems for operating memory cells. One method includes: performing an erase operation on a selected group of memory cells, the selected group including a number of reference cells and a number of data cells; performing a programming monitor operation on the number of reference cells as part of the erase operation; and determining a number of particular operating parameters associated with operating the number of data cells at least partially based on the programming monitor operation performed on the number of reference cells. | 12-26-2013 |