Patent application number | Description | Published |
20080259684 | Programming a NAND flash memory with reduced program disturb - When a memory device receives two or more pluralities of bits from a host to store in a nonvolatile memory, the device first stores the bits in a volatile memory. Then, in storing the bits in the nonvolatile memory, the device raises the threshold voltages of some cells of the volatile memory to values above a verify voltage. While those threshold voltages remain substantially at those levels, the device raises the threshold voltages of other cells of the volatile memory to values below the verify voltage. In the end, every cell stores one or more bits from each plurality of bits. Preferably, all the cells share a common wordline. A data storage device operates similarly with respect to storing pluralities of bits generated by an application running on the system. | 10-23-2008 |
20080285351 | MEASURING THRESHOLD VOLTAGE DISTRIBUTION IN MEMORY USING AN AGGREGATE CHARACTERISTIC - A threshold voltage distribution of a set of storage elements in a memory device is measured by sweeping a control gate voltage while measuring a characteristic of the set of storage elements as a whole. The characteristic indicates how many of the storage elements meet a given condition, such as being in a conductive state. For example, the characteristic may be a combined current, voltage or capacitance of the set which is measured at a common source of the set. The control gate voltage can be generated internally within a memory die. Similarly, the threshold voltage distribution can be determined internally within the memory die. Optionally, storage elements which become conductive can be locked out, such as by changing a bit line voltage, so they no longer contribute to the characteristic. New read reference voltages are determined based on the threshold voltage distribution to reduce errors in future read operations. | 11-20-2008 |
20090135646 | OPERATION SEQUENCE AND COMMANDS FOR MEASURING THRESHOLD VOLTAGE DISTRIBUTION IN MEMORY - A memory device generates one or more read reference voltages rather than being explicitly supplied with each read reference voltage from an external host controller. The technique involves providing a command to the memory device that causes a reading of a set of storage elements by the memory device using a reference voltage which is different than a reference voltage used in a previous reading, where the new read reference value is not explicitly set outside the memory device. In one implementation, the memory device is provided with an initial reference voltage and a step size for generating additional reference voltages. The technique can be used, e.g., in determining a threshold voltage distribution of a set of storage elements. In this case, a voltage sweep can be applied to a word line associated with the set of storage elements, and data obtained based on the number of conductive storage elements. | 05-28-2009 |
20090172498 | Error correction in copy back memory operations - A method of storage and retrieval of data in a flash memory system, the flash memory system comprising a cache storage area of relatively high reliability, and a main storage area of relatively low reliability, the method comprising adding to data a level of error correction redundancy higher by a predetermined margin than that required for the cache storage area, writing the data to the cache storage area, and from the cache storage area copying the data directly to the main storage area, the predetermined margin being such as to allow subsequent error correction to compensate for errors accumulated from the cache storage area and the main storage area. In this way the memory die copy back operation can be used for copying the data from the cache to the main memory and two out of four transfers over the data bus to the flash controller are avoided. | 07-02-2009 |
20090296487 | INCREASING READ THROUGHPUT IN NON-VOLATILE MEMORY - Read throughput is increased in a non-volatile memory device by sensing storage elements which are of interest as soon as a word line voltage has propagated to them, but before the word line voltage has propagated to other storage elements which are not of interest. The delay which would be incurred by waiting for the voltage to propagate along the entire word line is avoided. The sensing can occur during programming, as a verify operation, or after programming, as where user data is read. Further, the storage elements may be sensed concurrently, e.g., via sense amplifiers. Data from the storage elements of interest is processed and data from the other storage elements is discarded. A time for sensing the storage elements of interest can be set by identifying which storage elements are being verified or include data which is requested by a read command. | 12-03-2009 |
20100275073 | METHOD AND DEVICE FOR BAD-BLOCK TESTING - Apparatus and methods for effecting bad-block testing operations are disclosed herein. In some embodiments, instead of effecting bad-block testing for the majority of the flash memory blocks of a flash memory device during manufacture, most or all bad-block testing is postponed until the end user is in possession of the flash memory device. In some embodiments, after user data is received by the flash memory device from a host device, one or more blocks of the flash memory device are subjected to bad-block testing. | 10-28-2010 |