Time-Based High-Pass, Low-Pass, Shelf, and Notch Filters

IF 0.9 4区工程技术 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC

Elektronika Ir Elektrotechnika Pub Date : 2023-12-13 DOI:10.5755/j02.eie.35277

Nicolai J. Dahl, P. L. Muntal, Michael A. E. Andersen

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引用次数: 0

Abstract

This paper presents formulations for time-based first-order and second-order high-pass, shelf, and notch filters. These formulations are an extension to the existing literature where low-pass filters are already developed using a multiphase controlled oscillator in conjunction with a phase detector and charge pump. The presented high-pass filter expands the circuit by introducing a current-controlled delay line (CCDL) that provides a direct path from input to output. By combining the high-pass filter with the low-pass filter, we show that shelf and notch filters can be obtained without an increase in circuit complexity compared to the high-pass filter. The results show good matching between the ideal small signal and the simulated time-based large signal frequency response. The simulated of total harmonic distortion for the filters shows an increase in distortion due to the nonlinearities introduced by the CCDL for the high-pass, notch, and shelf filter compared to the existing low-pass filter. The derivation of the new filter types allows the creation of complex high-order time-based filters by combining multiple first- or second-order filters.

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时基高通、低通、搁栅和陷波滤波器

本文介绍了基于时间的一阶和二阶高通、搁架和陷波滤波器的公式。这些公式是对现有文献的扩展，在现有文献中，低通滤波器已利用多相控制振荡器与相位检测器和电荷泵共同开发。所介绍的高通滤波器通过引入电流控制延迟线 (CCDL)，提供了一条从输入到输出的直接路径，从而扩展了电路。通过将高通滤波器与低通滤波器相结合，我们发现与高通滤波器相比，可以在不增加电路复杂性的情况下获得搁架滤波器和陷波滤波器。结果表明，理想的小信号与模拟的基于时间的大信号频率响应之间匹配良好。滤波器的总谐波失真模拟结果表明，与现有的低通滤波器相比，CCDL 为高通、陷波和搁架滤波器引入的非线性导致失真增加。新滤波器类型的推导允许通过组合多个一阶或二阶滤波器来创建复杂的高阶时基滤波器。

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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来源期刊

Elektronika Ir Elektrotechnika 工程技术-工程：电子与电气

CiteScore

2.40

自引率

7.70%

发文量

审稿时长

24 months

期刊介绍： The journal aims to attract original research papers on featuring practical developments in the field of electronics and electrical engineering. The journal seeks to publish research progress in the field of electronics and electrical engineering with an emphasis on the applied rather than the theoretical in as much detail as possible. The journal publishes regular papers dealing with the following areas, but not limited to: Electronics; Electronic Measurements; Signal Technology; Microelectronics; High Frequency Technology, Microwaves. Electrical Engineering; Renewable Energy; Automation, Robotics; Telecommunications Engineering.