CMOS Realizable and Highly Cascadable Structures of First-Order All-Pass Filters

Walailak Journal of Science and Technology (WJST) Pub Date : 2021-07-14 DOI:10.48048/WJST.2021.21451

Jitender Jitender, J. Mohan, B. Chaturvedi

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引用次数: 9

Abstract

Two novel resistorless structures of a first-order voltage-mode all-pass filter are presented in the paper. Both the structures employ a fully differential second-generation current conveyor (FDCCII) as the primary active element, in addition to an active resistor. A grounded capacitor is the only passive component used in both the structures. In both the structures, CMOS realization of FDCCII is utilized; hence, these structures are CMOS compatible. Some of the other highly demanded features possessed by the presented all-pass structures are: a simple circuit topology, electronic tunability, high input impedance, constraint-free operation in terms of passive component matching, and low sensitivity figures. The theoretical performances under ideal and non-ideal scenarios are presented in detail. Furthermore, the proposed idea is extended to an Nth-order voltage-mode all-pass filter and a quadrature oscillator to explore some of the possible applications. PSPICE simulation results verify the theoretical claims of the presented all-pass filters. HIGHLIGHTS Two novel resistorless structures of first-order all-pass filters based on fully differential second-generation current conveyor are presented Performance of the proposed structures are thoroughly described in ideal and non-ideal scenarios Theoretically described details of the proposed structures are verified by carrying simulations on PSPICE using 180 nm CMOS technology An Nth-order all-pass filter and a quadrature oscillator are also presented as applications GRAPHICAL ABSTRACT

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一阶全通滤波器的CMOS可实现和高级联结构

本文提出了两种一阶电压型全通滤波器的新型无电阻结构。这两种结构都采用了全差分第二代电流输送机(FDCCII)作为主要的有源元件，此外还有一个有源电阻。两个结构中唯一使用的无源元件是接地电容器。两种结构均采用CMOS实现FDCCII;因此，这些结构是CMOS兼容的。所提出的全通结构所具有的一些其他高要求特性是:简单的电路拓扑，电子可调性，高输入阻抗，无源元件匹配方面的无约束操作以及低灵敏度数字。详细介绍了理想和非理想情况下的理论性能。此外，所提出的思想被扩展到一个n阶电压模式全通滤波器和一个正交振荡器，以探索一些可能的应用。PSPICE仿真结果验证了所提出的全通滤波器的理论主张。重点介绍了两种基于全差分二代电流输送的一阶全通滤波器的新型无阻结构，在理想和非理想情况下对所提出结构的性能进行了详细描述，并利用180 nm CMOS技术在PSPICE上进行了仿真验证，并给出了n阶全通滤波器和正交振荡器的应用

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Walailak Journal of Science and Technology (WJST)

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