Abstract :
This article describes a class of recently developed multiple-mode-resonator-based bandpass filters for ultra-wide-band (UWB) transmission systems. These filters have many attractive features, including a simple design, compact size, low loss and good linearity in the UWB, enhanced out-of-band rejection, and easy integration with other circuits/antennas. In this article, we present a variety of multiple-mode resonators with stepped-impedance or stub-loaded nonuniform configurations and analyze their properties based on the transmission line theory. Along with the frequency dispersion of parallel-coupled transmission lines, we design and implement various filter structures on planar, uniplanar, and hybrid transmission line geometries.
Keywords :
band-pass filters; resonator filters; transmission line theory; ultra wideband communication; P; antennas; circuits; enhanced out-of-band rejection; filter structures; hybrid transmission line geometry; multiplemode-resonator-based bandpass filters; parallel-coupled transmission lines; planar geometry; stepped-impedance configuration; stub-loaded nonuniform configuration; transmission line theory; ultrawide-band transmission systems; uniplanar geometry; Band pass filters; Distributed parameter circuits; Frequency; Geometry; Linearity; Planar transmission lines; Resonator filters; Transmission line theory; Ultra wideband antennas; Ultra wideband technology;
