| Patent application number | Description | Published |
|---|
| 20090116301 | INTERNAL DATA COMPARISON FOR MEMORY TESTING - Memory devices having a normal mode of operation and a test mode of operation are useful in quality programs. The test mode of operation includes a data comparison test mode. The data comparison test mode systematically searches for addresses of defective columns by comparing a sensed data value to an expected data value at various levels of decoding. Upon detection of a defective column, the address value for each level of decoding is stored and can be used in redundancy selection to replace the defective columns with redundant columns. The comparison is internal to the memory device such that the test mode is independent of external testers and can be run after fabrication, even by an end user, thus allowing repair after fabrication and installation. The comparisons are facilitated by compare logic inserted into the data path. | 05-07-2009 |
| 20090238006 | ADJUSTING PROGRAMMING OR ERASE VOLTAGE PULSES IN RESPONSE TO THE NUMBER OF PROGRAMMING OR ERASE FAILURES - Memory devices and methods of operating memory devices are provided. In one such embodiment a programming voltage pulse or an erase voltage pulse is applied to memory cells of a memory device. A number of the memory cells that failed to program or erase is determined and is compared to a certain number that can be different than a number of memory cells to be programmed or erased. The programming voltage pulse or the erase voltage pulse is adjusted in response to the comparison of the number of memory cells that failed to program or erase to the certain number. The adjusted programming voltage pulse or the adjusted erase voltage pulse is applied to the memory cells that failed to program or erase. | 09-24-2009 |
| 20100046295 | FAST DATA ACCESS MODE IN A MEMORY DEVICE - A fast data access circuit that has both a standard clock mode and a fast data access mode. The mode is selectable through a mode/configuration register. A configuration word loaded into the register has bits to indicate the desired mode and the input clock frequency. In the fast data access mode, a clock delay circuit uses the clock frequency setting bits to select a delay to be added to the input clock. The higher the clock frequency, the less the added delay. The delayed clock generates FIFO control signals to control a data FIFO register. During the fast data access mode, the data is output from the data FIFO register at a faster rate than in the standard clock mode. | 02-25-2010 |
| 20100054041 | ADJUSTING PROGRAMMING OR ERASE VOLTAGE PULSES IN RESPONSE TO A RATE OF PROGRAMMING OR ERASING - Memory devices and methods of operating memory devices are provided. In one such embodiment, a programming voltage pulse or an erase voltage pulse is applied to memory cells of a memory device. A rate at which programming or erasing is proceeding is determined. The programming voltage pulse or the erase voltage pulse is adjusted at least partially in response to the determined rate. The adjusted programming voltage pulse or the adjusted erase voltage pulse is applied to the memory cells that failed to program or erase. | 03-04-2010 |
| 20100211733 | DATA VALID INDICATION METHOD AND APPARATUS - Memory devices and methods facilitate handling of data received by a memory device through the use of data grouping and assignment of data validity status values to grouped data. For example, data is received and delineated into one or more data groups and a data validity status is associated with each data group. Data groups having a valid status are latched into one or more cache registers for storage in an array of memory cells wherein data groups comprising an invalid status are rejected by the one or more cache registers. | 08-19-2010 |
| 20100235679 | DEFECTIVE MEMORY BLOCK REMAPPING METHOD AND SYSTEM, AND MEMORY DEVICE AND PROCESSOR-BASED SYSTEM USING SAME - A non-volatile memory device includes a block remapping system that offsets an input block address by the addresses of non-functional blocks to provide an output block address that is used to address the memory device. The system generates the output block addresses by, in effect, adding to the input block address the addresses of all non-functional blocks of memory that are between an initial address and the output block address. The system performs this function be comparing the input block address to the address of any defective block. If the address of the defective block is less than or equal to the input block address, the addresses of all defective blocks starting at the block address are added to the input block address. The system then iteratively performs this process using each output block address generated by the system in place of the input block address. | 09-16-2010 |
