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A high efficiency charge pump circuit is designed and realized.The charge transfer switch is biased by the additional capacitor and transistor to eliminate the influence of the threshold voltage.Moreover,the bulk of the switch transistor is dynamically biased so that the threshold voltage gets lower when it is turned on during charge transfer and gets higher when it is turned off.As a result,the efficiency of the charge pump circuit can be improved.A test chip has been implemented in a 0.18μm 3.3 V standard CMOS process.The measured output voltage of the eight-pumpingstage charge pump is 9.8 V with each pumping capacitor of 0.5 pF at an output current of 0.18μA,when the clock frequency is 780 kHz and the supply voltage is 2 V.The charge pump and the clock driver consume a total current of 2.9μA from the power supply.This circuit is suitable for low power applications.
A high efficiency charge pump circuit is designed and realized. The charge transfer switch is biased by the additional capacitor and transistor to eliminate the influence of the threshold voltage. Moreover, the bulk of the switch transistor is dynamically biased so that the threshold voltage gets lower when it is turned on during charge transfer and gets higher when it is turned off. As a result, the efficiency of the charge pump circuit can be improved. A test chip has been implemented in a 0.18 μm 3.3 V standard CMOS process. output voltage of the eight-pumping stack charge pump is 9.8 V with each pumping capacitor of 0.5 pF at an output current of 0.18 μA when the clock frequency is 780 kHz and the supply voltage is 2 V. The charge pump and the clock driver consume a total current of 2.9μA from the power supply.This circuit is suitable for low power applications.