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    • 1. 发明公开
    • Semiconductor memory device, and method of controlling the same
    • Halbleiterspeicher und Steuerverfahrendafür
    • EP2246859A1
    • 2010-11-03
    • EP10165897.9
    • 2000-09-27
    • Fujitsu Semiconductor Limited
    • Fujioka, ShinyaKawakubo, TomohiroNishimura, KoichiSato, Kotoku
    • G11C11/406G11C5/14
    • G11C5/14G11C5/147G11C11/406G11C2207/2227
    • A semiconductor memory device comprises an internal voltage generator (18) which, when activated, generates an internal voltage to be supplied to an internal circuit. Operating the internal voltage generator (18) consumes a predetermined amount of the power. In response to a control signal from the exterior, an entry circuit (14) inactivates the internal voltage generator (18). When the internal voltage generator (18) is inactivated, the internal voltage is not generated, thereby reducing the power consumption. By the control signal from the exterior, therefore, a chip can easily enter a low power consumption mode. The internal voltage generator (18) is exemplified by a booster (28) for generating the boost voltage of a word line connected with memory cells, a substrate voltage generator (34) for generating a substrate voltage, or a precharging voltage generator (30) for generating the precharging voltage of bit lines to be connected with the memory cells. During the low power consumption mode, an external voltage supplying circuit supplies a power supply voltage supplied from the exterior as the internal voltage to a predetermined internal circuit. Even when the internal voltage generator (18) is inactivated, therefore, the power supply voltage is supplied to the power supply terminal of each internal circuit, which results in preventing a leak path.
    • 半导体存储器件包括内部电压发生器(18),其在被激活时产生将被提供给内部电路的内部电压。 操作内部电压发生器(18)消耗预定量的功率。 响应于来自外部的控制信号,入口电路(14)使内部电压发生器(18)失活。 当内部电压发生器(18)失活时,不产生内部电压,从而降低功耗。 因此,通过来自外部的控制信号,芯片可以容易地进入低功耗模式。 内部电压发生器(18)例如是用于产生与存储单元连接的字线的升压电压的升压器(28),用于产生衬底电压的衬底电压发生器(34)或预充电电压发生器(30) 用于产生要与存储器单元连接的位线的预充电电压。 在低功耗模式期间,外部电压供给电路将从外部供给的电源电压作为内部电压供给到规定的内部电路。 因此,即使当内部电压发生器(18)失活时,电源电压被提供给每个内部电路的电源端子,这导致防止泄漏路径。
    • 7. 发明公开
    • Semiconductor memory device, and method of controlling the same
    • Halbleiterspeichervorrichtung und Steuerverfahrendafür
    • EP2237281A1
    • 2010-10-06
    • EP10165898.7
    • 2000-09-27
    • Fujitsu Semiconductor Limited
    • Fujijoka, ShinyaKawakubo, TomohiroNishimura, KoichiSato, Kotoku
    • G11C11/406G11C5/14
    • G11C5/14G11C5/147G11C11/406G11C2207/2227
    • A semiconductor memory device comprises an internal voltage generator (18) which, when activated, generates an internal voltage to be supplied to an internal circuit. Operating the internal voltage generator (18) consumes a predetermined amount of the power. In response to a control signal from the exterior, an entry circuit (14) inactivates the internal voltage generator (18). When the internal voltage generator (18) is inactivated, the internal voltage is not generated, thereby reducing the power consumption. By the control signal from the exterior, therefore, a chip can easily enter a low power consumption mode. The internal voltage generator (18) is exemplified by a booster (28) for generating the boost voltage of a word line connected with memory cells, a substrate voltage generator (34) for generating a substrate voltage, or a precharging voltage generator (30) for generating the precharging voltage of bit lines to be connected with the memory cells. During the low power consumption mode, an external voltage supplying circuit supplies a power supply voltage supplied from the exterior as the internal voltage to a predetermined internal circuit. Even when the internal voltage generator (18) is inactivated, therefore, the power supply voltage is supplied to the power supply terminal of each internal circuit, which results in preventing a leak path.
    • 半导体存储器件包括内部电压发生器(18),其在被激活时产生将被提供给内部电路的内部电压。 操作内部电压发生器(18)消耗预定量的功率。 响应于来自外部的控制信号,入口电路(14)使内部电压发生器(18)失活。 当内部电压发生器(18)失活时,不产生内部电压,从而降低功耗。 因此,通过来自外部的控制信号,芯片可以容易地进入低功耗模式。 内部电压发生器(18)例如是用于产生与存储单元连接的字线的升压电压的升压器(28),用于产生衬底电压的衬底电压发生器(34)或预充电电压发生器(30) 用于产生要与存储器单元连接的位线的预充电电压。 在低功耗模式期间,外部电压供给电路将从外部供给的电源电压作为内部电压供给到规定的内部电路。 因此,即使当内部电压发生器(18)失活时,电源电压被提供给每个内部电路的电源端子,这导致防止泄漏路径。