A New Class of Bilateral SISO-(Single Input Single Output) Active Filters Targeted for Health-Care Applications

2022 IEEE Bombay Section Signature Conference (IBSSC) Pub Date : 2022-12-08 DOI:10.1109/IBSSC56953.2022.10037285

Umar Mohammad, M. Y. Yasin, Fang Tang

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Abstract

Filter circuits from the very beginning have played a vital role in the broader areas of signal processing and communications systems. In the paper, a new paradigm of bilateral filtering has been presented. The scheme presents a new class of filters that have the ability to work on the either side of the device. The working of the presented circuits in this study commensurates to the working of the transceivers. The initial verification of the circuits was done using nodal analysis and then put for simulation verifications. The Active device used to realise the proposed circuits is the translinear circuit scheme of second generation current conveyor-CCCII. Basic filter signals like low-pass, high-pass, band-pass and band-stop responses were perceived and authenticate the theory proposed. The simulation work was done on Hspice tool using the 45nm PTM CMOS technology node. The detailed analysis of the proposed circuits is open for the readers in this study. The power consumption of the proposed circuits is in the range of $100-200\mu \mathrm{W}$ with $\pm$ 1 V rail to rail voltages. The Proposed circuit is expected to get applicable as the major analog front-end circuit in numerous biomedical devices.

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针对医疗保健应用的一类新的双边SISO(单输入单输出)有源滤波器

滤波电路从一开始就在信号处理和通信系统的更广泛领域发挥着至关重要的作用。本文提出了一种新的双边滤波模式。该方案提出了一种新的滤波器，能够在设备的任何一侧工作。本研究中提出的电路的工作原理与收发器的工作原理一致。通过节点分析对电路进行了初步验证，然后进行了仿真验证。用于实现所提出电路的有源器件是第二代电流输送机- cccii的非线性电路方案。对低通、高通、带通和带阻等基本滤波器信号进行了感知并验证了所提出的理论。采用45nm PTM CMOS技术节点，在Hspice工具上完成了仿真工作。在本研究中，对所提出电路的详细分析是开放给读者的。所提出电路的功耗范围为$100-200\mu \ mathm {W}$，轨对轨电压$ $\pm$ 1 V。该电路有望成为众多生物医学设备的主要模拟前端电路。

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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2022 IEEE Bombay Section Signature Conference (IBSSC)

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