这解决了电荷泵在充电期间功耗过大的问题,使它们不仅能适用于有较强电源的电路,也可以在无源或低功耗的环境下工作。
These two charge pumps are suitable for circuits with large power supply, and they can also operate in passive and low power systems.
随着电源电压的不断降低和芯片面积的不断减小,电荷泵的效率已成为MOS电荷泵电路设计过程中最为人们关心的问题之一。
The power efficiency of MOS charge pumping circuit is becoming one of the most important issues as the power supply decreasing continuously and the area of a chip.
首先基于电荷泵原理提出了一种新的无源电子标签电源产生电路结构,并提出了结构简化的算法。
A new architecture of power generation circuit is proposed based on charge pump principle. Then an algorithm is designed to simplify the power generation circuit architecture.
首先基于电荷泵原理提出了一种新的无源电子标签电源产生电路结构,并提出了结构简化的算法。
A new architecture of power generation circuit is proposed based on charge pump principle. Then an algorithm is designed to simplify the power generation circuit architecture.
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