一种紧凑的dtmos可调谐mosfet双输出低压电流型滤波器设计

IF 1.7 4区工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

International Journal of Numerical Modelling-Electronic Networks Devices and Fields Pub Date : 2025-09-01 DOI:10.1002/jnm.70106

Manoj Kumar, Maneesha Gupta, Bhawna Aggarwal

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引用次数: 0

摘要

本文提出了一种紧凑、低功耗、电子可调谐的双输出滤波器，采用0.18 μm CMOS工艺，采用动态阈值MOSFET实现。该设计利用固有晶体管寄生电容来实现滤波器响应，从而消除了对外部无源元件的需求。通过动态阈值MOSFET技术实现了低通和带通输出的电子可调性，允许在更低的电源电压下以更少的元件工作。低通滤波器的截止频率可从237.2 kHz调谐到141.34 MHz，而带通滤波器的中心频率范围为218.3 kHz至132.13 MHz。为了优化频率性能，提出了三种滤波器配置。使用Cadence-Virtuoso的仿真结果显示，在1.6 V和15 pF负载电容下，平均功耗为0.213 mW。所提出的滤波器设计非常适合集成到现代便携式和功率敏感的电子系统中，因为它具有宽调谐范围，低电压操作，低功耗和紧凑的尺寸。

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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A Compact Design of DTMOS-Tunable MOSFET-Only Dual-Output Low-Voltage Current-Mode Filter

This paper presents compact, low-power, electronically tunable dual-output filters implemented using DTMOS (dynamic threshold MOSFET) in a 0.18 μm CMOS process. The designs utilize intrinsic transistor parasitic capacitances to realize filter responses, eliminating the need for external passive components. Electronic tunability in both low-pass and band-pass outputs is achieved through the dynamic threshold MOSFET technique, allowing operation at a lower supply voltage with fewer components. The low-pass filter's cut-off frequency can be tuned from 237.2 kHz to 141.34 MHz, while the band-pass filter's center frequency ranges from 218.3 kHz to 132.13 MHz. Three filter configurations are proposed to optimize frequency performance. Simulation results using Cadence–Virtuoso show an average power consumption of 0.213 mW at 1.6 V with a 15 pF load capacitor. The proposed filter design is ideal for integration into modern portable and power-sensitive electronic systems due to its wide tuning range, low voltage operation, low power consumption, and compact size.

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来源期刊

International Journal of Numerical Modelling-Electronic Networks Devices and Fields 工程技术-工程：电子与电气

CiteScore

4.60

自引率

6.20%

发文量

101

审稿时长

>12 weeks

期刊介绍： Prediction through modelling forms the basis of engineering design. The computational power at the fingertips of the professional engineer is increasing enormously and techniques for computer simulation are changing rapidly. Engineers need models which relate to their design area and which are adaptable to new design concepts. They also need efficient and friendly ways of presenting, viewing and transmitting the data associated with their models. The International Journal of Numerical Modelling: Electronic Networks, Devices and Fields provides a communication vehicle for numerical modelling methods and data preparation methods associated with electrical and electronic circuits and fields. It concentrates on numerical modelling rather than abstract numerical mathematics. Contributions on numerical modelling will cover the entire subject of electrical and electronic engineering. They will range from electrical distribution networks to integrated circuits on VLSI design, and from static electric and magnetic fields through microwaves to optical design. They will also include the use of electrical networks as a modelling medium.