Realizations of Voltage Transfer Functions Using DVCCs

T. Rathore
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引用次数: 1

Abstract

Maheshwari has proposed three differential-voltage current-conveyor configurations for realizing first order all-pass filters only. This paper has exploited these configurations for realizing more complex transfer function T(s) which yield poles and zeros of 1 - T(s) in one of the four admissible patterns. Bilinear and biquadratic functions are dealt in detail. It is shown that only bilinear functions can be realized with all the four passive elements grounded. First order all-pass function is a special case which needs only three elements (2R, 1C) or (1R, 2C). A biquadratic function requires (2R, 2C) elements and has all the capacitor grounded. Design of second order all-pass function is given.
用dvcc实现电压传递函数
Maheshwari提出了三种差分电压电流传送器配置,仅用于实现一阶全通滤波器。本文利用这些配置来实现更复杂的传递函数T(s),它在四种可容许模式中的一种模式中产生1-T的极点和零点。详细讨论了双线性函数和双二次函数。结果表明,在四个无源元件都接地的情况下,只有双线性函数才能实现。一阶全通函数是只需要三个元素(2R,1C)或(1R,2C)的特殊情况。双二次函数需要(2R,2C)个元素,并且所有电容器都接地。给出了二阶全通函数的设计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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