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    • 2. 发明授权
    • Nonvolatile semiconductor storage unit
    • 非易失性半导体存储单元
    • US06999348B2
    • 2006-02-14
    • US10501391
    • 2002-02-28
    • Michitaro KanamitsuYoshinori TakaseShoji Kubono
    • Michitaro KanamitsuYoshinori TakaseShoji Kubono
    • G11C11/34
    • G11C16/26
    • A nonvolatile semiconductor storage unit can prevent erratic sense operations in a sense latch circuit by adopting a single-end sensing system capable of reducing an area (decreasing the number of elements). There is provided a flash memory chip using the single-end sensing system and an NMOS gate sensing system together. In the single-end sensing system, the sense latch circuit is connected to one end of a global bit line to detect data on the global bit line corresponding to a threshold voltage for a memory cell. The NMOS gate sensing system uses an NMOSFET to receive data on the global bit line at a gate and drive a node for the sense latch circuit. The NMOSFET senses a sense voltage. The sense latch circuit is activated with a sufficient signal quantity ensured. An output voltage from a threshold voltage applying power supply precharges the global bit line. In this manner, it is possible to always keep a constant difference between a precharge voltage and a threshold voltage for the NMOSFET.
    • 非易失性半导体存储单元可以通过采用能够减小面积(减少元件数量)的单端感测系统来防止感测锁存电路中的错误检测操作。 提供了使用单端感测系统和NMOS栅极感测系统的闪存芯片。 在单端感测系统中,感测锁存电路连接到全局位线的一端以检测对应于存储器单元的阈值电压的全局位线上的数据。 NMOS栅极感测系统使用NMOSFET在栅极处的全局位线上接收数据,并驱动用于感测锁存电路的节点。 NMOSFET感测感测电压。 感测锁存电路在确保足够的信号量的情况下被激活。 来自施加电源的阈值电压的输出电压预充电全局位线。 以这种方式,可以始终保持NMOSFET的预充电电压和阈值电压之间的恒定差。
    • 7. 发明授权
    • Semiconductor integrated circuit device
    • 半导体集成电路器件
    • US5272676A
    • 1993-12-21
    • US789018
    • 1991-11-06
    • Shoji KubonoHiroshi Sato
    • Shoji KubonoHiroshi Sato
    • G11C5/14G11C11/406G11C7/00
    • G11C11/40626G11C11/406G11C11/40615G11C5/145
    • The self-refresh operation of one round of a RAM using dynamic memory cells is accomplished on the basis of the periodic pulses which are formed by an oscillating circuit substantially having no temperature dependency, and the self-refresh period is controlled by a timer circuit using a time constant circuit corresponding to the temperature dependency of the data storage in the memory cells. The operating voltage or boosted output voltage is monitored to switch the circuit operation for generating a plurality kinds of boosted voltages rising sequentially two and three times so that the boosted voltage may be a desired voltage. A control voltage to be fed to the gate of a MOSFET connected between the substrate and the earth potential of the circuit is generated by a dummy substrate voltage generator having a leakage current path varying to follow the fluctuations in a supply voltage.
    • 基于由基本上没有温度依赖性的振荡电路形成的周期性脉冲来实现使用动态存储单元的一轮RAM的自刷新操作,并且自刷新周期由定时器电路使用 对应于存储器单元中的数据存储器的温度依赖性的时间常数电路。 监视工作电压或升压输出电压以切换电路操作,以产生依次升高两次和三次的多种升压电压,使得升压电压可以是期望的电压。 通过具有随着电源电压的波动而变化的漏电流路径的虚拟衬底电压发生器产生要馈送到连接在衬底和电路的接地电位之间的MOSFET的栅极的控制电压。