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锁相环频率综合器中高性能电荷泵设计 总被引:1,自引:1,他引:0
本文基于0.18μm CMOS工艺设计并实现了一种新的高性能电荷泵电路。采用宽输入范围的轨到轨运算放大器和自偏置共源共栅电流镜技术提高了电荷泵在宽输出电压范围内的电流匹配精度;同时,提出通过增加预充电电流源技术来提高电荷泵的初始充电电流,以缩短CPPLLs的建立时间。测试结果表明电荷泵在0.4~1.7V输出电压范围内失配电流小于0.4%,充电电流为100μA,预充电电流为70μA。在1.8V电源电压下,电荷泵电路锁定时的平均功耗为0.9mW。 相似文献
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A new high performance charge pump circuit is designed and realized in 0.18μm CMOS process. A wide input ranged rail-to-rail operational amplifier and self-biasing cascode current mirror are used to enable the charge pump current to be well matched in a wide output voltage range.Furthermore,a method of adding a precharging current source is proposed to increase the initial charge current,which will speed up the settling time of CPPLLs.Test results show that the current mismatching can be less than 0.4%in the output voltage range of 0.4 to 1.7 V,with a charge pump current of 100μA and a precharging current of 70μA.The average power consumption of the charge pump in the locked condition is around 0.9 mW under a 1.8 V supply voltage. 相似文献
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