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    • 3. 发明授权
    • Automatic program disturb with intelligent soft programming for flash cells
    • 自动程序干扰与闪存单元的智能软编程
    • US06252803B1
    • 2001-06-26
    • US09692881
    • 2000-10-23
    • Richard FastowSameer S. HaddadLee E. ClevelandChi Chang
    • Richard FastowSameer S. HaddadLee E. ClevelandChi Chang
    • G11C1616
    • G11C16/16
    • A method of erasing a flash electrically-erasable programmable read-only memory (EEPROM) device is provided which includes a plurality of memory cells. An erase pulse is applied to the plurality of memory cells. The plurality of memory cells is overerase verified and an overerase correction pulse is applied to the bitline to which the overerased memory cell is attached. This cycle is repeated until all cells verify as not being overerased. The plurality of memory cells is erase verified and another erase pulse is applied to the memory cells if there are undererased memory cells and the memory cells are again erase verified. This cycle is repeated until all cells verify as not being undererased. After erase verify is completed, the plurality of memory cells is soft program verified and a soft programming pulse is applied to the those memory cells in the plurality of memory cells which have a threshold voltage below a pre-defined minimum value. This cycle is repeated until all of those memory cells in the plurality of memory cells which have a threshold voltage below the pre-defined minimum value are brought above the pre-defined minimum value. The erase method is considered to be finished when there are no memory cells in the plurality of memory cells which have a threshold voltage below the pre-defined minimum value.
    • 提供擦除闪存电可擦除可编程只读存储器(EEPROM)设备的方法,其包括多个存储器单元。 擦除脉冲被施加到多个存储单元。 多个存储器单元被过度验证,并且过高修正脉冲被施加到被过度存储的存储单元附着的位线。 重复此循环,直到所有的单元格都被验证为不被过高。 多个存储器单元被擦除验证,并且如果存在未存储的存储器单元并且存储器单元再次被擦除验证,则另一个擦除脉冲被施加到存储器单元。 重复此循环,直到所有单元格都被验证为不被忽略。 在擦除验证完成之后,多个存储器单元被软件程序验证,并且将软编程脉冲施加到具有低于预定义最小值的阈值电压的多个存储单元中的那些存储单元。 重复该循环,直到具有低于预定义最小值的阈值电压的多个存储器单元中的所有那些存储器单元高于预定义的最小值。 当多个存储单元中没有存储单元的阈值电压低于预先定义的最小值时,擦除方法被认为是完成的。
    • 4. 发明授权
    • Power saving on the fly during reading of data from a memory device
    • 在从存储设备读取数据时,可以实时省电
    • US06292425B1
    • 2001-09-18
    • US09696652
    • 2000-10-25
    • Ali K. Al-ShammaLee E. Cleveland
    • Ali K. Al-ShammaLee E. Cleveland
    • G11C700
    • G11C7/1006G11C7/1072
    • Power saving on the fly improves both the speed and power consumed in reading data from a core memory. Present data is selected from the core memory and clocked into the power saving arrangement. The present data is compared with previously selected data to determine whether the majority of data presently selected has changed from the previously selected data. In addition, the present selected data is also delayed and then subjected to a logical XOR function with the majority determination above. Finally, the data subjected to the logical XOR function and the majority determination are driven separately to external elements requesting the present data. Power is saved as the state of the majority of the data being driven from one data set to the next remains unchanged. Speed is increased as the data, once clocked into the arrangement, is driven in less than a clock pulse.
    • 省电省电可以提高从内核读取数据所需的速度和功耗。 现有数据从核心存储器中选择并计入省电布置。 将当前数据与先前选择的数据进行比较,以确定当前选择的大部分数据是否已从先前选择的数据改变。 此外,当前选择的数据也被延迟,然后经过上述多数确定的逻辑XOR功能。 最后,经过逻辑异或功能和多数确定的数据分别驱动到请求本数据的外部元件。 由于从一个数据集驱动的大部分数据到下一个数据集的状态保持不变,所以功率被保存。 速度增加,因为数据一旦进入该装置,就以不到一个时钟脉冲驱动。
    • 8. 发明授权
    • Sector-based redundancy architecture
    • 基于扇区的冗余架构
    • US5349558A
    • 1994-09-20
    • US112033
    • 1993-08-26
    • Lee E. ClevelandMichael A. Van BuskirkJohnny C. ChenChung K. Chang
    • Lee E. ClevelandMichael A. Van BuskirkJohnny C. ChenChung K. Chang
    • G11C17/00G11C16/06G11C29/00G11C29/04H01L21/8247H01L27/115G11C7/00
    • G11C29/808
    • An improved redundancy architecture is provided for an array of flash EEPROM cells which permit repair of defective columns of memory cells in the array with redundant columns of memory cells on a sector-by-sector basis. The redundancy circuitry includes a plurality of sector-based redundancy blocks (2-8) each having redundant columns of memory cells extending through the plurality of sectors. Sector selection transistors (Q1,Q2) are provided for dividing the redundant columns into different segments, each residing in at least one of the plurality of sectors and for isolating the different segments so as to allow independent use from other segments in the same redundant column in repairing defective columns in the corresponding ones of the plurality of sectors. Addressable storage circuitry (314a,314b) is used for storing sector-based redundancy column addresses, each defining a column address containing the defective column of memory cells in the plurality of sectors in association with one of the different redundant column segments to be used in repairing the defective column.
    • 提供了一种用于快闪EEPROM单元阵列的改进的冗余架构,其允许以扇区为基础以冗余列的存储器单元来修复阵列中的存储器单元的有缺陷的列。 冗余电路包括多个基于扇区的冗余块(2-8),每个冗余块具有延伸穿过多个扇区的多个存储单元冗余列。 扇区选择晶体管(Q1,Q2)被提供用于将冗余列分成不同的段,每个段驻留在多个扇区中的至少一个扇区中,并且用于隔离不同的段,以允许独立使用同一冗余列中的其他段 在修复多个扇区中相应的扇区中的有缺陷的列。 可寻址存储电路(314a,314b)用于存储基于扇区的冗余列地址,每个定义包含多个扇区中的存储单元的缺陷列的列地址,与不同冗余列段之一相关联地使用 修理有缺陷的列。
    • 9. 发明授权
    • Method and device for programming cells in a memory array in a narrow distribution
    • 用于以窄分布编程存储器阵列中的单元的方法和装置
    • US06961267B1
    • 2005-11-01
    • US10738301
    • 2003-12-16
    • Richard M. FastowLee E. ClevelandChi Chang
    • Richard M. FastowLee E. ClevelandChi Chang
    • G11C16/04G11C16/34
    • G11C16/3468
    • Accurately programming a memory cell. A voltage is applied to a drain of the memory cell to program the cell. After applying the voltage, the cell is verified as to whether it is programmed to a desired level. The magnitude of the programming voltage is increased and applied to the drain, and the memory cell is re-verified for the desired level. This is repeated until the memory cell is programmed to the desired level. Additional memory cells are programmed in this fashion in order to program multiple memory cells in a narrow distribution around the desired level. The programming can be done one memory cell at a time or many cells can be programmed in parallel. Further a ramped programming voltage can applied to the gate of the memory cell(s), such that the ramped voltage to the gate and the ramped voltage to the drain both program the memory cell.
    • 准确编程存储单元。 将电压施加到存储器单元的漏极以对单元进行编程。 在施加电压之后,验证单元是否被编程到所需的电平。 编程电压的大小被增加并施加到漏极,并且存储器单元被重新验证所需的电平。 直到将存储单元编程到所需的电平为止。 以这种方式对附加存储器单元进行编程,以便以围绕期望水平的窄分布来编程多个存储器单元。 编程可以一次完成一个存储单元,或者可以并行编程多个单元。 此外,斜坡编程电压可以施加到存储器单元的栅极,使得到栅极的斜坡电压和到漏极的斜坡电压都对存储器单元进行编程。
    • 10. 发明授权
    • Low supply voltage negative charge pump
    • 低电源负电荷泵
    • US5612921A
    • 1997-03-18
    • US559705
    • 1996-02-15
    • Chung K. ChangJohnny C. ChenLee E. Cleveland
    • Chung K. ChangJohnny C. ChenLee E. Cleveland
    • G11C5/14G11C16/30H02M3/07G11C13/00
    • G11C16/30G11C5/145H02M3/073H02M2003/071H02M2003/075
    • A low supply voltage negative charge pump for generating a relatively high negative voltage to control gates of selected memory cells via wordlines in an array of flash EEPROM memory cells during flash erasure includes charge pump means (210) formed of a plurality of charge pump stages (201-206) and coupling capacitor means (C201-C212) for delivering clock signals to the plurality of charge pump stages. Each of the plurality of charge pump stages is formed of an N-channel intrinsic pass transistor (N1-N6), an N-channel intrinsic initialization transistor (MD1-MD6), and an N-channel intrinsic precharge transistor (MX3-MX7, MX1) which are disposed in separate p-wells so as to reduce body effect. As a result, the negative charge pump is operable using a supply voltage of +3 volts or lower.
    • 用于在闪速擦除期间通过闪存EEPROM存储器单元阵列中的字线产生相对高的负电压以控制所选择的存储器单元的栅极的低电源负电荷泵包括由多个电荷泵级形成的电荷泵装置(210) 201-206)和用于将时钟信号传送到多个电荷泵级的耦合电容器装置(C201-C212)。 多个电荷泵级中的每一个由N沟道本征通过晶体管(N1-N6),N沟道本征初始化晶体管(MD1-MD6)和N沟道本征预充电晶体管(MX3-MX7, MX1),其设置在单独的p阱中,以减少身体效应。 结果,负电荷泵可以使用+ 3伏或更低的电源电压工作。