Flash EEprom system

Details Flash EEprom system Flash EEprom system

1998-04-14

2002-04-16

Hoang, Huan (Department: 2818)

Static information storage and retrieval

Floating gate

Particular connection

C365S185030

Reexamination Certificate

active

06373747

ABSTRACT:

BACKGROUND OF THE INVENTION
This invention relates generally to semiconductor electrically erasable programmable read only memories (EEprom), and specifically to a system of integrated circuit Flash EEprom chips.
Computer systems typically use magnetic disk drives for mass storage of data. However, disk drives are disadvantageous in that they are bulky and in their requirement for high precision moving mechanical parts. Consequently they are not rugged and are prone to reliability problems, as well as consuming significant amounts of power. Solid state memory devices such as DRAM's and SRAM's do not suffer from these disadvantages. However, they are much more expensive, and require constant power to maintain their memory (volatile). Consequently, they are typically used as temporary storage.
EEprom's and Flash EEprom's are also solid state memory devices. Moreover, they are nonvolatile, and retain their memory even after power is shut down. However, conventional Flash EEprom's have a limited lifetime in terms of the number of write (or program)/erase cycles they can endure. Typically the devices are rendered unreliable after 10
2
to 10
3
write/erase cycles. Traditionally, they are typically used in applications where semi-permanent storage of data or program is required but with a limited need for reprogramming.
Accordingly, it is an object of the present invention to provide a Flash EEprom memory system with enhanced performance and which remains reliable after enduring a large number of write/erase cycles.
It is another object of the present invention to provide an improved Flash EEprom system which can serve as non-volatile memory in a computer system.
It is another object of the present invention to provide an improved Flash EEprom system that can replace magnetic disk storage devices in computer systems.
It is another object of the present invention to provide a Flash EEprom system with improved erase operation.
It is another object of the present invention to provide a Flash EEprom system with improved error correction.
It is yet another object of the present invention to provide a Flash EEprom with improved write operation that minimizes stress to the Flash EEprom device.
It is still another object of the present invention to provide a Flash EEprom system with enhanced write operation.
SUMMARY OF THE INVENTION
These and additional objects are accomplished by improvements in the architecture of a system of EEprom chips, and the circuits and techniques therein.
According to one aspect of the present invention, an array of Flash EEprom cells on a chip is organized into sectors such that all cells within each sector are erasable at once. A Flash EEprom memory system comprises one or more Flash EEprom chips under the control of a controller. The invention allows any combination of sectors among the chips to be selected and then erased simultaneously. This is faster and more efficient than prior art schemes where all the sectors must be erased every time or only one sector at a time can be erased. The invention further allows any combination of sectors selected for erase to be deselected and prevented from further erasing during the erase operation. This feature is important for stopping those sectors that are first to be erased correctly to the “erased” state from over erasing, thereby preventing unnecessary stress to the Flash EEprom device. The invention also allows a global de-select of all sectors in the system so that no sectors are selected for erase. This global reset can quickly put the system back to its initial state ready for selecting the next combination of sectors for erase. Another feature of the invention is that the selection is independent of the chip select signal which enables a particular chip for read or write operation. Therefore it is possible to perform an erase operation on some of the Flash EEprom chips while read and write operations may be performed on other chips not involved in the erase operation.
According to another aspect of the invention, improved error correction circuits and techniques are used to correct for errors arising from defective Flash EEprom memory cells. One feature of the invention allows defect mapping at cell level in which a defective cell is replaced by a substitute cell from the same sector. The defect pointer which connects the address of the defective cell to that of the substitute cell is stored in a defect map. Every time the defective cell is accessed, its bad data is replaced by the good data from the substitute cell.
Another feature of the invention allows defect mapping at the sector level. When the number of defective cells in a sector exceeds a predetermined number, the sector containing the defective cells is replaced by a substitute sector.
An important feature of the invention allows defective cells or defective sectors to be remapped as soon as they are detected thereby enabling error correction codes to adequately rectify the relatively few errors that may crop up in the system.
According to yet another aspect of the present invention, a write cache is used to minimize the number of writes to the Flash EEprom memory. In this way the Flash EEprom memory will be subject to fewer stress inducing write/erase cycles, thereby retarding its aging. The most active data files are written to the cache memory instead of the Flash EEprom memory. Only when the activity levels have reduced to a predetermined level are the data files written from the cache memory to the Flash EEprom memory. Another advantage of the invention is the increase in write throughput by virtue of the faster cache memory.
According to yet another aspect of the present invention, one or more printed circuit cards are provided which contain controller and EEprom circuit chips for use in a computer system memory for long term, non-volatile storage, in place of a hard disk system, and which incorporate various of the other aspects of this invention alone and in combination.
The present invention also includes improvements in EEprom array read and write circuits and techniques in order to provide multiple threshold levels that allow accurate reading and writing of more than two distinct states within each memory cell over an extended lifetime of the memory cells, so that more than one bit may be reliably stored in each cell.
According to one aspect of the present invention, the multiple threshold breakpoint levels are provided by a set of memory cells which serves as master reference cells. The master reference cells are independently and externally programmable, either by the memory manufacturer or the user. This feature provides maximum flexibility, allowing the breakpoint thresholds to be individually set within the threshold window of the device at any time. Also, by virtue of being an identical device as that of the memory cells, the reference cells closely track the same variations due to manufacturing processes, operating conditions and device aging. The independent programmability of each breakpoint threshold level allows optimization and fine-tuning of the threshold window's partitioning, critical in multi-state implementation. Furthermore, it allows post-manufacture configuration for either 2-state or multi-state memory from the same device, depending on user need or device characteristics at the time.
According to another aspect of the present invention, a set of memory cells within each sector (where a sector is a group of memory cells which are all erased at the same time in a Flash EEprom) are set aside as local reference cells. Each set of reference cells tracks the Flash cells in the same sector closely as they are both cycled through the same number of program/erase cycles. Thus, the aging that occurs in the memory cells of a sector after a large number of erase/reprogram cycles is also reflected in the local reference cells. Each time the sector of flash cells is erased and reprogrammed, the set of individual breakpoint threshold levels are re-programmed to the associated local reference cells. The t

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