Title :
Multichannel Filters Using Chirped Bandgap Structures in Microstrip Technology
Author :
Schwartz, Joshua D. ; Guttman, Michael M. ; Azaa, J. ; Plant, David V.
Author_Institution :
McGill Univ., Montreal
Abstract :
We demonstrate two techniques for creating several narrowband transmission channels within the ultra-wide stopband of a chirped electromagnetic bandgap structure in microstrip technology. In contrast to previous demonstrations which inserted defects into single-frequency-tuned bandgap structures using ground-plane etching, we demonstrate the use of local pi phase-shifts (defects) and "Moire"-type superposition in a sinusoidal chirped bandgap structure having a network topology. We demonstrate the design of 4-to-6-channel filters with lower insertion losses (<5 dB) and broader stopbands than previous approaches in microstrip.
Keywords :
band structure; band-stop filters; channel bank filters; microstrip lines; microwave filters; transmission line theory; ultra wideband technology; Moire-type superposition; chirped electromagnetic bandgap structure; ground-plane etching; low insertion losses; microstrip circuits; microstrip technology; multichannel filter design; multichannel resonators; narrowband transmission channels; pi phase-shifts; single-frequency-tuned bandgap structures; sinusoidal chirped bandgap structure; ultra-wide stopband filters; Bandwidth; Chirp; Etching; Metamaterials; Microstrip filters; Microwave filters; Periodic structures; Photonic band gap; Resonance; Resonator filters; Channelizers; microstrip circuits; multichannel resonators; ultra-wideband (UWB) filters;
Journal_Title :
Microwave and Wireless Components Letters, IEEE
DOI :
10.1109/LMWC.2007.901765
