Numerical and experimental characterization of slow-wave microstrip line on periodic ground plane

Chin-Chang Chang, R. Cocciolo, Y. Qian, T. Itoh
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引用次数: 8

Abstract

A low loss//spl lambda/ slow-wave microstrip transmission line structure is numerically and experimentally investigated. The structure is based on a microstrip line on periodically etched ground plane. Dependency of the slow-wave factor on lattice dimensions is investigated. The slow-wave factor has also been simulated by the FDTD method as numerical verification of the accuracy of the results. Numerical results reveal that the slow-wave microstrip structure can reduce the attenuation//spl lambda/ by 6/spl times/ compared to conventional planar slow-wave structures.
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周期性地平面上慢波微带线的数值与实验表征
对低损耗//spl λ /慢波微带传输线结构进行了数值和实验研究。该结构基于周期性蚀刻的地平面上的微带线。研究了慢波因子与晶格维数的关系。用时域有限差分法对慢波因子进行了数值模拟,验证了计算结果的准确性。数值结果表明,与传统的平面慢波结构相比,该微带结构可使衰减减小6/spl。
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