Patent application number | Description | Published |
20090231923 | REDUCTION OF PUNCH-THROUGH DISTURB DURING PROGRAMMING OF A MEMORY DEVICE - In one or more of the disclosed embodiments, a punch-through disturb effect in a memory device can be reduced by biasing a selected word line at a program voltage to program a selected memory cell, biasing word lines on the drain side of the series string with a V | 09-17-2009 |
20100142285 | REDUCING READ FAILURE IN A MEMORY DEVICE - Read failure is reduced by increasing the drain current through a serial string of memory cells during the read operation. In one embodiment, this is accomplished by using a higher read pass voltage for unselected word lines when the selected word line is within a predetermined distance of the drain side of the memory block array. If the selected word line is closer to the source side, a lower read pass voltage is used. In another embodiment, the cells on the word lines closer to the drain side of the memory block array are erased to a lower threshold voltage than the memory cells on the remaining word lines. | 06-10-2010 |
20110128782 | REDUCING EFFECTS OF ERASE DISTURB IN A MEMORY DEVICE - Methods for programming and memory devices are disclosed. One such method for programming includes initially biasing a subset of a plurality of control gates of a string of memory cells with a negative voltage, wherein the subset is less than all of the plurality of control gates of the string. The control gate of a selected memory cell is subsequently biased with a programming voltage during a programming phase. | 06-02-2011 |
20110134702 | PROGRAMMING METHODS AND MEMORIES - Methods of programming memory cells, and memories incorporating such methods, are disclosed. In at least one embodiment, programming is accomplished by applying a set of incrementing program pulses to program a selected cell to a first target threshold voltage, and applying a set of incrementing inhibit pulses to an unselected cell to fine-tune program the selected cell to a second threshold voltage. | 06-09-2011 |
20110273219 | VOLTAGE SWITCHING IN A MEMORY DEVICE - Voltage switches, memory devices, memory systems, and methods for switching are disclosed. One such voltage switch uses a pair of switch circuits coupled in series, each switch circuit being driven by a level shift circuit. Each switch circuit uses a group of series coupled transistors with a parallel control transistor where the number of transistors in each group may be determined by an expected switch input voltage and a maximum allowable voltage drop for each transistor. A voltage of a particular state of an enable signal is shifted up to the switch input voltage by the level shift circuits. The particular state of the enable signal turns on the voltage switch such that the switch output voltage is substantially equal to the switch input voltage. | 11-10-2011 |
20120163094 | PROGRAMMING METHODS AND MEMORIES - Methods of programming memory cells, and memories incorporating such methods, are disclosed. In at least one embodiment, programming is accomplished by applying a set of incrementing program pulses to program a selected cell to a first target threshold voltage, and applying a set of incrementing inhibit pulses to an unselected cell to fine-tune program the selected cell to a second threshold voltage. | 06-28-2012 |
20120236640 | REDUCING EFFECTS OF ERASE DISTURB IN A MEMORY DEVICE - A method for programming includes initially biasing a subset of a plurality of control gates of a string of memory cells with a negative voltage, wherein the subset is less than all of the plurality of control gates of the string. The control gate of a selected memory cell is subsequently biased with a programming voltage during a programming phase. | 09-20-2012 |
20120269011 | VOLTAGE SWITCHING IN A MEMORY DEVICE - Voltage switches, memory devices, memory systems, and methods for switching are disclosed. One such voltage switch uses a pair of switch circuits coupled in series, each switch circuit being driven by a level shift circuit. Each switch circuit uses a group of series coupled transistors with a parallel control transistor where the number of transistors in each group may be determined by an expected switch input voltage and a maximum allowable voltage drop for each transistor. A voltage of a particular state of an enable signal is shifted up to the switch input voltage by the level shift circuits. The particular state of the enable signal turns on the voltage switch such that the switch output voltage is substantially equal to the switch input voltage. | 10-25-2012 |