Title :
Design Considerations of Miniaturized Least Dispersive Periodic Slow-Wave Structures
Author :
Zhou, Chengzhi ; Yang, H. Y David
Author_Institution :
Univ. of Illinois, Chicago
Abstract :
Slow-wave structures using distributed periodic inductive and capacitive loadings have found many microwave circuit applications as left-handed (bandpass) or right-handed (low-pass) transmission lines. A large slow-wave factor (SWF) could result in a much smaller passive component, but also a much lower bandgap (cutoff) frequency and a larger dispersion. This paper addresses the issues and the design tradeoff between the SWF, group delay (dispersion), and the cutoff frequency of a right-handed (low-pass) quasi-lumped transmission line. A new two-layer transmission line structure using 3-D substrate metallization with an SWF of 5.8 is designed. A prototype of a 3-GHz branch-line coupler with a 70% size reduction using such a transmission line structure is fabricated and tested.
Keywords :
dispersion (wave); microstrip couplers; microwave circuits; periodic structures; slow wave structures; transmission lines; 3-D substrate metallization; EBG branch-line coupler; distributed periodic capacitive loadings; distributed periodic inductive loadings; frequency 3 GHz; group delay dispersion; left-handed transmission lines; microstrip branch-line coupler; miniaturized least dispersive periodic slow-wave structures; right-handed quasilumped transmission line; right-handed transmission lines; two-layer transmission line structure; Cutoff frequency; Delay; Dispersion; Distributed parameter circuits; Metallization; Microwave circuits; Periodic structures; Photonic band gap; Prototypes; Transmission lines; Branch-line coupler; dispersion; electromagnetic bandgap (EBG); periodic structures; slow wave;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2007.914633
