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    • 3. 发明授权
    • Methods and apparatuses relating to automatic cell threshold voltage measurement
    • 与自动电池阈值电压测量相关的方法和装置
    • US07920428B2
    • 2011-04-05
    • US12352147
    • 2009-01-12
    • Shigekazu Yamada
    • Shigekazu Yamada
    • G11C16/06
    • G11C29/50G11C16/04G11C16/0483G11C16/28G11C29/12005G11C29/50004
    • Methods and apparatuses for automatically measuring memory cell threshold voltages are disclosed. Measurement circuitry includes an internal reference current generator, a plurality of memory cells and a bit line pre-charge reference circuit. If the reference current is greater than the memory cell current, the bit line voltage will increase. Conversely, if the reference current is less than the memory cell current, the bit line voltage will decrease. The reference current is generated in large steps until a comparator, that compares the bit line voltage and a bit line pre-charge reference voltage, is switched. The reference current then generates a current in small steps until the comparator is again switched. The reference current converges on the memory cell current within an accuracy of 10 nA. The memory cell threshold voltage is then determined from the memory cell current. Systems including memory according to an embodiment of the invention are also disclosed.
    • 公开了用于自动测量存储单元阈值电压的方法和装置。 测量电路包括内部参考电流发生器,多个存储器单元和位线预充电参考电路。 如果参考电流大于存储单元电流,则位线电压将增加。 相反,如果参考电流小于存储单元电流,则位线电压将降低。 参考电流以很大的步长产生,直到比较位线电压和位线预充电参考电压的比较器被切换为止。 参考电流然后以小步骤产生电流,直到再次切换比较器。 参考电流在10 nA的精度内收敛于存储单元电流。 然后从存储单元电流确定存储单元阈值电压。 还公开了包括根据本发明的实施例的存储器的系统。
    • 4. 发明授权
    • Method and system for selectively limiting peak power consumption during programming or erase of non-volatile memory devices
    • 用于在编程或擦除非易失性存储器件期间选择性地限制峰值功耗的方法和系统
    • US07800953B2
    • 2010-09-21
    • US12505909
    • 2009-07-20
    • Shigekazu Yamada
    • Shigekazu Yamada
    • G11C11/34
    • G11C16/30G11C16/0483
    • A power supply circuit is used to supply power having a limited peak magnitude to an array of non-volatile memory cells during programming or erasing of the memory cells. The power supply circuit includes a reference current source supplying a reference current having a predetermined magnitude. The reference current source is coupled to a current generator, which supplies current to the array. The current generator may use current mirrors, and it supplies a current to the array having a predetermined relationship to the reference current. The current generator is selectively enabled by a control circuit so that current is supplied to the array during programming or erasing of at least some of the memory cells in the array.
    • 电源电路用于在存储器单元的编程或擦除期间向非易失性存储单元阵列提供具有有限峰值幅度的功率。 电源电路包括提供具有预定大小的参考电流的参考电流源。 参考电流源耦合到电流发生器,其向阵列提供电流。 电流发生器可以使用电流镜,并且它向阵列提供与参考电流具有预定关系的电流。 电流发生器由控制电路选择性地使能,使得在阵列中的至少一些存储器单元的编程或擦除期间将电流提供给阵列。
    • 6. 发明申请
    • Semiconductor memory column decoder device and method
    • 半导体存储器列解码器装置及方法
    • US20090180333A1
    • 2009-07-16
    • US12008417
    • 2008-01-10
    • Shigekazu YamadaTomoharu Tanaka
    • Shigekazu YamadaTomoharu Tanaka
    • G11C16/14
    • G11C16/14G11C16/0483G11C16/08G11C16/10G11C16/16G11C16/26
    • Semiconductor memory devices and methods include a flash memory cell array fabricated in a well, with memory cells in the same column connected to each other in series and connected to a respective bit line. The memory devices also include a column decoder, a data register buffer unit, a row decoder, an erase control unit, and an input/output buffer unit. In one or more embodiments, the erase control unit applies voltages to the well to erase the memory cells in a manner that avoids breaking down p-n junctions formed by transistors fabricated in the well. In another embodiment, high voltage transistors are used to selectively isolate the bit lines from and couple the bit lines to a peripheral circuit in pairs so that each high voltage transistor is shared by two bit lines.
    • 半导体存储器件和方法包括在阱中制造的闪存单元阵列,同一列中的存储单元彼此串联连接并连接到相应的位线。 存储器件还包括列解码器,数据寄存器缓冲器单元,行解码器,擦除控制单元和输入/输出缓冲器单元。 在一个或多个实施例中,擦除控制单元以避免由在井中制造的晶体管形成的p-n结分解的方式向阱施加电压以擦除存储器单元。 在另一个实施例中,高压晶体管用于选择性地将位线隔离并将位线成对地耦合到外围电路,使得每个高压晶体管由两个位线共享。
    • 8. 发明授权
    • Semiconductor device and writing method
    • 半导体器件和写入方法
    • US07227778B2
    • 2007-06-05
    • US11194023
    • 2005-07-29
    • Shigekazu Yamada
    • Shigekazu Yamada
    • G11C11/34G11C16/06
    • G11C11/5628G11C16/10G11C2216/14
    • A semiconductor device has a memory cell array including a multi-level memory cell having multiple and different threshold values, a first latch circuit latching information of multiple-word of input information, a second latch circuit latching write information in which the information of the multiple-word of the input information is converted into information according to each level of the multi-level memory cell, a write circuit writing information into the multi-level memory cell on a group basis corresponding to the number of memory cells simultaneously programmable, according to the write information, and a control circuit controlling programming the memory cell array. The information is simultaneously programmed on the group basis into which multiple-word input information is divided, and makes it possible to shorten a program period substantially on a word basis. The program period is not increased, even if programming and verification are repeated several times in programming the multi-level memory cell.
    • 一种半导体器件具有存储单元阵列,该存储单元阵列包括具有多个和不同阈值的多电平存储单元,第一锁存电路锁存多字输入信息的信息,第二锁存电路锁存写信息, 根据多级存储器单元的每个级别将输入信息的字转换为信息,写电路根据与可同时编程的存储单元的数量对应的组,将信息写入多级存储器单元,根据 写入信息,以及控制对存储单元阵列进行编程的控制电路。 该信息同时被编程在分组多字输入信息的组基础上,并且使得可以基本上基于单词缩短程序周期。 即使编程和验证在编程多层存储单元中重复多次,程序周期也不会增加。