Novel miniaturized low-pass filters from artificial transmission line structures

TL;DR

This paper introduces a new miniaturized low-pass filter design using artificial transmission line structures, achieving significant size reduction while maintaining performance, validated through simulation and measurement.

Contribution

The paper presents a novel method for constructing reactance components from microstrip structures for compact low-pass filters, reducing size by 77% compared to conventional designs.

Findings

Size reduced to 23% of conventional filters

Simulation results closely match measurements

Effective for microwave system applications

Abstract

A novel design on miniaturized low-pass filters from artificial transmission line structures is proposed. Reactance components, i.e. capacitors and inductors, are directly constructed from microstrip structures based on electromagnetic simulation and parameter extraction. The constructed reactance components are integrated to build low-pass filters. The results of two 5th-order Butterworth and 0.5 dB ripple Chebyshev low-pass filters, which are realized by the proposed method, are presented. The proposed low-pass filter is compact and its size is only 23% of a conventional filter. The simulation agrees well to the measurements, which shows the validation of the proposed design method. The miniaturized low-pass filters have good applications in microwave systems.