Patent application number | Description | Published |
20080247255 | ELECTRONIC DEVICE INCLUDING A NONVOLATILE MEMORY ARRAY AND METHODS OF USING THE SAME - An electronic device can include a first memory cell and a second memory cell. The first memory cell can include a first source, and a second memory cell can include a second source. The first memory cell and the second memory cell can lie within a same sector of a memory array. In one embodiment, erasing the electronic device can include erasing the first memory cell while inhibiting the erase of the second memory cell. A third memory cell can have a third source and lie within another sector. In another embodiment, inhibiting the erase of the first memory cell can include placing the first source and the third source at a same potential. In a particular embodiment, the first source can be electrically insulated from the second source. | 10-09-2008 |
20090168541 | ELECTRICAL ERASABLE PROGRAMMABLE MEMORY TRANSCONDUCTANCE TESTING - A test method determines if an array of a Flash EEPROM circuit has a bit cell with a transconductance (gm) that is deficient. The method preconditions all bit cells of the array to a particular programmed state and then determines whether any of the bit cells exhibit undesirable operating characteristics by reading each bit cell to determine whether its transconductance is less than desirable. | 07-02-2009 |
20090231925 | READ REFERENCE TECHNIQUE WITH CURRENT DEGRADATION PROTECTION - A set of reference cells is used for sensing the data values stored at bit cells of a memory device. In response to an event, the reference cell providing the highest output of the set is selected as the reference cell to be used for subsequent memory access operations. The remaining reference cells are disabled so that they can recover back to or near their original non-degraded states. At each successive event, the set of reference cells can be reassessed to identify the reference cell that provides the highest output at that time and the memory device can be reconfigured to utilize the reference cell so identified. By utilizing the reference cell having the highest output to provide the read reference and disabling the remaining reference cells, the likelihood of the read reference falling below a minimum threshold can be reduced. | 09-17-2009 |
20090296464 | METHOD FOR ELECTRICALLY TRIMMING AN NVM REFERENCE CELL - An integrated circuit memory has a plurality of non-volatile memory cells and a reference cell. The reference cell provides a reference current for reading a selected memory cell of the plurality of non-volatile memory cells. A method comprises trimming the reference cell to a predetermined threshold voltage, wherein trimming the reference cell comprises biasing a control gate, a source terminal, a drain terminal, and a substrate terminal of the reference cell with a predetermined set of bias conditions, wherein in response to the predetermined set of bias conditions, the reference cell will gain or lose charge toward an asymptotic state of charge that no longer changes significantly after a predetermined operating time under the predetermined set of bias conditions. In addition, the integrated circuit memory is also configured to adjust the reference cell gate voltage to output a desired target current reference. | 12-03-2009 |
20120176844 | READ CONDITIONS FOR A NON-VOLATILE MEMORY (NVM) - A method and memory are provided for determining a read reference level for a plurality of non-volatile memory cells. The method includes: performing a program operation of the plurality of non-volatile memory cells; determining a program level of a least programmed memory cell of the plurality of memory cells; performing an erase operation of the plurality of non-volatile memory cells; determining an erase level of a least erased memory cell of the plurality of memory cells; determining an operating window between the program level and the erase level; and setting the read reference level to be a predetermined offset from the erase level if the operating window is determined to compare favorably to a predetermined value. The memory includes registers for storing the program level and the erase level. | 07-12-2012 |
20130265828 | SMART CHARGE PUMP CONFIGURATION FOR NON-VOLATILE MEMORIES - A semiconductor memory device includes a non-volatile memory, a memory controller, and a charge pump system. The memory controller establishes first parameters for a first programming cycle of a first plurality of memory cells of the non-volatile memory prior to the first programming cycle being performed. The charge pump system includes a plurality of charge pumps and provides a first programming pulse for use in performing the first program cycle. The first programming pulse is provided by selecting, according to the first parameters, which of the plurality of charge pumps are to be enabled during the first program cycle and which are to be disabled during the first program cycle. | 10-10-2013 |
20130346680 | EMULATED ELECTRICALLY ERASABLE MEMORY HAVING AN ADDRESS RAM FOR DATA STORED IN FLASH MEMORY - A memory system comprises a memory controller, an address RAM coupled to the memory controller, and a non-volatile memory coupled to the memory controller. The non-volatile memory has an address portion and a data portion. The address portion of the non-volatile memory provides data portion addresses and data portion addresses of valid data to the memory controller. The memory controller loads the data portion addresses and stores them in the address RAM at locations defined by the data portion addresses of valid data into the address RAM. The memory controller uses the data portion addresses, and locations of data blocks within the address RAM, to locate the data blocks within the data portion of non-volatile memory. The memory controller uses the data portion addresses, and locations of the data block addresses within the address RAM, to locate data blocks within the data portion of non-volatile memory | 12-26-2013 |
20140022005 | CONFIGURABLE MULTISTAGE CHARGE PUMP USING A SUPPLY DETECT SCHEME - A configurable multistage charge pump including multiple pumpcells, at least one bypass switch and control logic. The pumpcells are coupled together in series including a first pumpcell receiving an input voltage and at least one remaining pumpcell including a last pumpcell which generates an output voltage. Each bypass switch is coupled to selectively provide the input voltage to a pumpcell input of a corresponding one of the remaining pumpcells. The control logic is configured to determine one of multiple voltage ranges of the input voltage, to enable each pumpcell for a first voltage range and to disable and bypass at least one pumpcell for at least one other voltage range. A method of operating a multistage charge pump including detecting an input voltage, selecting a voltage range based on an input voltage, and enabling a number of cascaded pumpcells corresponding to the selected voltage range. | 01-23-2014 |
20140119132 | CONTROL GATE WORD LINE DRIVER CIRCUIT FOR MULTIGATE MEMORY - A memory having an array of multi-gate memory cells and a word line driver circuit coupled to a sector of memory cells of the array. In at least one mode of operation, the word line driver circuit is controllable to place an associated control gate word line coupled to the control gate word line driver and coupled to the sector in a floating state during a read operation where the sector is a non selected sector. | 05-01-2014 |
20140211559 | PROGRAMMING A SPLIT GATE BIT CELL - A method of programming a split gate memory applies voltages differently to the terminals of the selected cells and the deselected cells. For cells being programming by being coupled to a selected row and a selected column, coupling the control gate to a first voltage, coupling the select gate to a second voltage, programming is achieved by coupling the drain terminal to a current sink that causes the split gate memory cell to be conductive, and coupling the source terminal to a third voltage. For cells not being programmed by not being coupled to a selected row, non-programming is maintained by coupling the control gate to the first voltage, coupling the select gate to a fourth voltage which is greater than a voltage applied to the select gate during a read in which the split gate memory cells are deselected but sufficiently low to prevent programming. | 07-31-2014 |
20140319593 | SCALABLE SPLIT GATE MEMORY CELL ARRAY - A split gate memory array includes a first row having memory cells; a second row having memory cells, wherein the second row is adjacent to the first row; and a plurality of segments. Each segment includes a first plurality of memory cells of the first row, a second plurality of memory cells of the second row, a first control gate portion which forms a control gate of each memory cell of the first plurality of memory cells, and a second control gate portion which forms a control gate of each memory cell of the second plurality of memory cells. The first control gate portion and the second control gate portion converge to a single control gate portion between neighboring segments of the plurality of segments. | 10-30-2014 |
20140321213 | BIASING SPLIT GATE MEMORY CELL DURING POWER-OFF MODE - A non-volatile memory (NVM) system has a normal mode, a standby mode and an off mode that uses less power than the standby mode. The NVM system includes an NVM array that includes NVM cells and NVM peripheral circuitry. Each NVM cell includes a control gate. A controller is coupled to the NVM array, applies a voltage to the control gates and power to the peripheral circuitry during the standby mode, and applies an off-mode voltage to the control gates and removes power from the NVM peripheral circuitry during the off mode. | 10-30-2014 |