基于dv - exccii的无电阻电流型通用双二次滤波器

Q3 Engineering Advances in Technology Innovation Pub Date : 2023-01-01 DOI:10.46604/aiti.2023.9283

Priyanka Singh, R. Nagaria

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引用次数: 0

摘要

本研究旨在提出一种新的无电阻电流模式多输入单输出通用滤波器。使用电流模式的设计方法来获得所提出的电路。该电路采用单个差分电压超X电流控制电流传送器（DV-EXCCCII）和两个接地电容器。这种多功能滤波器电路在单个输出端提供低通、高通、全通、带通和带阻滤波器，而无无源元件匹配约束。相同的电路拓扑可以获得具有不同输入条件的所有二阶滤波器函数。所提出的电路设计可以通过DV-EXCCCII的偏置电流进行电子调节。由于其高输出阻抗，这种布置适合级联其他电流模式电路。所提出的电路由Cadence Spectre在±0.9V电源电压下使用0.18µm UMC CMOS技术工艺参数进行模拟。仿真结果与所提出电路的理论概念吻合良好。

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DV-EXCCCII Based Resistor-Less Current-Mode Universal Biquadratic Filter

This study aims to present a new resistor-less current-mode multi-input single-output universal filter. The current-mode’s design approach is used to obtain the proposed circuit. This circuit employs a single differential voltage extra-X current controlled current conveyor (DV-EXCCCII) and two grounded capacitors. This multifunction filter circuit offers low-pass, high-pass, all-pass, band-pass, and band-reject filters at a single output terminal without passive component matching constraints. The same circuit topology can obtain all second-order filter functions with different input conditions. The proposed circuit design is electronically adjustable with the bias current of DV-EXCCCII. Because of its high output impedance, this arrangement is suitable for cascading other current-mode circuits. The proposed circuit is simulated by Cadence Spectre with 0.18 µm UMC CMOS technology process parameters at ± 0.9 V supply voltages. The simulation results agree well with the theoretical concept of the proposed circuit.

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