| Patent application number | Description | Published |
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| 20080205147 | Local self-boost inhibit scheme with shielded word line - A NAND architecture non-volatile memory device and programming process is described that reduces the effects of word line to word line voltage coupling by utilizing sets of two or more adjacent word lines and applying the same voltage to each in array access operations. This allows each word line of the set or pair to shield the other from word line to word line capacitive voltage coupling. In NAND memory string embodiments the various cells of strings of non-volatile memory cells are programmed utilizing modified or unmodified drain-side self boost, source-side self boost, local self boost, and virtual ground programming processes that utilize two or more “blocking” memory cells on either the source line side and drain line side of a selected memory cell. The paired blocking cells shield each other during programming to reduce coupled noise, to prevent charge leakage from the boosted channel of the selected memory cell. | 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 |
| 20090219761 | CHARGE LOSS COMPENSATION DURING PROGRAMMING OF A MEMORY DEVICE - A selected memory cell on a selected word line is programmed through a plurality of programming pulses that are incremented by a step voltage. After a successful program verify operation, programming of the selected memory cell is inhibited while other memory cells of the selected word line are being programmed. Another program verify operation is performed on the selected memory cell. If the program verify operation fails, a bit line coupled to the selected cell is biased at the step voltage and a final programming pulse is issued to the selected word line. The selected memory cell is then locked from further programming without evaluating the final program verify operation. | 09-03-2009 |
| 20100091582 | 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. | 04-15-2010 |
| 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 |
| 20100259992 | METHODS AND APPARATUS FOR PROGRAMMING A MEMORY CELL USING ONE OR MORE BLOCKING MEMORY CELLS - Methods and apparatus for programming a memory cell using one or more blocking memory cells facilitate mitigation of capacitive voltage coupling. The methods include applying a program voltage to a selected memory cell of a string of memory cells, and applying a cutoff voltage to a set of one or more memory cells of the string between the selected memory cell and a select gate. The methods further include applying a pass voltage to one or more other memory cells of the string between the selected memory cell and the select gate. Other methods further include applying other pass voltages, other cutoff voltages and/or intermediate voltages to still other memory cells of the string. | 10-14-2010 |
| Patent application number | Description | Published |
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| 20080285341 | 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. | 11-20-2008 |
| 20090016143 | WORD LINE ACTIVATION IN MEMORY DEVICES - Memory devices and methods are disclosed, such as those facilitating flexibility in applying differing biasing schemes to word lines. For example, one such memory device can include an architecture capable of partitioning word lines into one of a plurality of address spaces. Each address space has a corresponding configuration control bus. By identifying the address space to which a word line belongs, its appropriate configuration control bus may be selected and the control signals from the selected bus used to select the appropriate potentials for driving the word lines. | 01-15-2009 |
| 20100054068 | TEMPERATURE COMPENSATION OF MEMORY SIGNALS USING DIGITAL SIGNALS - A temperature sensor generates a digital representation of the temperature of the integrated circuit. A logic circuit reads the digital temperature and generates a multiple bit digital representation of an operational voltage and a multiple bit digital representation of a timing signal, both being functions of the integrated circuit temperature. A voltage generator converts the digital representation of the operational voltage to an analog voltage that biases portions of the integrated circuit requiring temperature compensated voltages. In one embodiment, the temperature compensated voltages bias memory cells. A timing generator converts the multiple bit digital representation of the timing signal to a logic signal. | 03-04-2010 |
| 20100246270 | CHARGE LOSS COMPENSATION DURING PROGRAMMING OF A MEMORY DEVICE - A selected memory cell on a selected word line is programmed through a plurality of programming pulses that are incremented by a step voltage. After a successful program verify operation, programming of the selected memory cell is inhibited while other memory cells of the selected word line are being programmed. Another program verify operation is performed on the selected memory cell. If the program verify operation fails, a bit line coupled to the selected cell is biased at the step voltage and a final programming pulse is issued to the selected word line. The selected memory cell is then locked from further programming without evaluating the final program verify operation. | 09-30-2010 |
