频率补偿
放大器
电容器
电容感应
相位裕度
功率因数
电气工程
沉降时间
回转率
材料科学
CMOS芯片
工程类
运算放大器
电压
阶跃响应
控制工程
作者
Ka Nang Leung,Philip K. T. Mok,Wing‐Hung Ki,J.K.O. Sin
出处
期刊:IEEE Journal of Solid-state Circuits
[Institute of Electrical and Electronics Engineers]
日期:2000-02-01
卷期号:35 (2): 221-230
被引量:229
摘要
A novel damping-factor-control frequency compensation (DFCFC) technique is presented in this paper with detailed theoretical analysis, This compensation technique improves frequency response, transient response, and power supply rejection for amplifiers, especially when driving large capacitive loads, Moreover, the required compensation capacitors are small and can be easily integrated in commercial CMOS process. Amplifiers using DFCPC and nested Miller compensation (NMC) driving two capacitive loads, 100 and 1000 pF, were fabricated using a 0.8-/spl mu/m CMOS process with V/sub tn/=0.72 V and V/sub tp/=-0.75 V. For the DFCFC amplifier driving a 1000-pF load, a 1-MHz gain-bandwidth product, 51/spl deg/ phase margin, 0.33-V//spl mu/s slew rate, 3.54-/spl mu/s settling time, and 426-/spl mu/W power consumption are obtained with integrated compensation capacitors. Compared to the NMC amplifier, the frequency and transient responses of the DFCFC amplifier are improved by one order of magnitude with insignificant increase of the power consumption.
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