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    • 3. 发明申请
    • SWITCHING CIRCUIT AND SMALL-SIZE HIGH-EFFICIENCY DC-DC CONVERTER FOR PORTABLE DEVICES INCLUDING THE SAME
    • 用于包括其的便携式设备的切换电路和小型高效DC-DC转换器
    • US20100123445A1
    • 2010-05-20
    • US12487596
    • 2009-06-18
    • Kwi Dong KIMJong Kee KwonJong Dae KimYong Seo Koo
    • Kwi Dong KIMJong Kee KwonJong Dae KimYong Seo Koo
    • G05F1/618
    • H02M1/08H02M2001/0032Y02B70/16
    • Provided are a switching circuit and a small-size high-efficiency direct current-to-direct current (DC-DC) converter for portable devices including the same. Using dynamic threshold-complementary metal oxide semiconductor (DT-CMOS) transistors having dynamic threshold voltages as a switching device, the switching circuit maintains a low threshold voltage in a normal mode to improve current drivability while reducing conduction loss, and maintains a high threshold voltage in a standby mode to minimize power consumption. When the switching circuit is employed in a DC-DC converter, power conversion efficiency can be improved by reducing conduction loss in the normal mode, and power consumption can be minimized in the standby mode. Consequently, the DC-DC converter can maximize a use time of a battery of a portable device and can be useful in power supplies of portable devices that are gradually being miniaturized.
    • 提供了一种用于包括其的便携式设备的开关电路和小尺寸高效率直流 - 直流(DC-DC)转换器。 使用具有动态阈值电压的动态阈值互补金属氧化物半导体(DT-CMOS)晶体管作为开关器件,开关电路在正常模式下维持低阈值电压,从而改善电流驱动能力,同时降低导通损耗,并保持高阈值电压 处于待机模式以最小化功耗。 当在DC-DC转换器中采用开关电路时,可以通过降低正常模式下的导通损耗来提高功率转换效率,并且在待机模式下功耗可以最小化。 因此,DC-DC转换器可以使便携式设备的电池的使用时间最大化,并且可以用于逐渐小型化的便携式设备的电源。
    • 8. 发明申请
    • CIRCUIT AND METHOD FOR CONTROLLING SELF-REFRESH CYCLE
    • 用于控制自激循环的电路和方法
    • US20090323449A1
    • 2009-12-31
    • US12535069
    • 2009-08-04
    • Kwi Dong KIM
    • Kwi Dong KIM
    • G11C7/00G11C7/02G11C11/24
    • G11C11/406G11C7/04G11C11/40615G11C11/40626G11C2211/4061G11C2211/4068
    • The present invention relates to a circuit and a method for controlling a self-refresh cycle of a dynamic random access memory or DRAM. A cell voltage is directly detected so that a self-refresh cycle can be variably controlled. Detectors each detecting whether or not a voltage charged into a capacitor of a detection cell drops to or below a reference voltage and outputs a detection signal. A pulse generator generates a self-refresh pulse while being linked with an enabled detection signal of the plurality of detectors. A self-refresh cycle can be variably controlled and set to be suitable for the charging capacity of a cell. The detection cell is adapted to the change of the charging capacity of the cell in accordance with a change in temperature.
    • 本发明涉及用于控制动态随机存取存储器或DRAM的自刷新周期的电路和方法。 直接检测电池电压,使得可以可变地控制自刷新周期。 检测器各自检测充电到检测单元的电容器中的电压是否下降到或低于参考电压,并输出检测信号。 脉冲发生器在与多个检测器的使能检测信号链接的同时产生自刷新脉冲。 自刷新周期可以被可变地控制并且设置成适合于电池的充电容量。 检测单元根据温度的变化适应电池的充电容量的变化。