在±0.82 V低电压下,基于VDTA的最小功耗电子可调谐有源滤波器的CMOS实现

G. Singh
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引用次数: 2

摘要

本文提出了一种基于电压差跨导放大器(VDTA)的高阶电压和电流模式低通或高通滤波器。针对波有源滤波器的基本有源模块,提出了波等效变量技术、拓扑仿真以及利用波变量技术的运算实现。在适当选择终端连接的情况下,将所提出的波等效技术用于波有源滤波器。本文提出了实现波有源滤波器的基本元件是串联电感和并联接地电容。采用0.18μm的TSMC CMOS工艺参数,通过SPICE仿真实现了最小功耗为±0.82V的四阶低通和高通巴特沃斯滤波器,验证了所提出的波形有源滤波器。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
CMOS Realization of VDTA Based Electronically Tunable Wave Active Filter with Minimum Power Consumption at Low Supply Voltage ±0.82 V
This paper presents a higher order voltage and current mode low pass or high pass filter for wave active filter based on Voltage Differencing Transconductance Amplifiers (VDTAs). The wave equivalent variable technique and topological simulation as well as operational realization using wave variables techniques are proposed for basic active building blocks of wave active filters. The proposed wave equivalent technique is employed for wave active filter with the proper selection of the terminal connections. This work presented the basic element for the realizing wave active filter is the series inductor with parallel grounded capacitor. The proposed wave active filter is verified by realizing a 4th order low pass and high pass Butterworth filter with minimum power consumption at ±0.82 V using SPICE simulation with 0.18 μm TSMC CMOS technology parameters.
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