Synthesis of a New Class of Reflectionless Filter Prototypes

TL;DR

This paper introduces a novel design methodology for reflectionless filters that achieve perfect input-output matching across all frequencies, reducing reactive out-of-band effects in various systems.

Contribution

It presents a new synthesis approach and equations for creating reflectionless filter prototypes with multiple characteristics, validated by simulations and measurements.

Findings

Filters exhibit perfect matching at all frequencies.

Simulation results compare different implementations and tunings.

Measured data confirms theoretical predictions and practical advantages.

Abstract

A design methodology and synthesis equations are described for lumped-element filter prototypes having low-pass, high-pass, band-pass, or band-stop characteristics with theoretically perfect input- and output-match at all frequencies. Such filters are a useful building block in a wide variety of systems in which the highly reactive out-of-band termination presented by a conventional filter is undesirable. The filter topology is first derived from basic principles. Then the relative merits of several implementations and tunings are compared via simulation. Finally, measured data on low-pass and band-pass filter examples are presented which illustrate the practical advantages as well as showing excellent agreement between measurement and theory.