Improved analysis of nonreciprocal remanence ferrite phase shifter in grooved waveguide

Author

Che, Wenquan ; Yung, Edward Kai-Ning ; Chen, Suibing ; Wen, Junding

Volume

50

Issue

8

fYear

2002

fDate

8/1/2002 12:00:00 AM

Firstpage

1912

Lastpage

1918

Abstract

In this paper, the nodal finite-element method is used to analyze the differential phase shift of a nonreciprocal remanence ferrite phase shifter in a grooved waveguide. Instead of the former twin-slab model, an improved analytical model is adopted, where the effect of every part of a ferrite toroid on the differential phase shift has been considered. This analysis may replace the correcting factor with good agreement with the experimental data. Furthermore, this analysis is employed to investigate the effect of corner chamfering on the figure-of-merit (differential phase shift per decibel insertion loss) of a ferrite phase shifter. The numerical results are found to agree with the experiments in the literatures.

Keywords

beam steering; ferrite phase shifters; finite element analysis; phased array radar; rectangular waveguides; remanence; sparse matrices; beam-steering element; differential phase shift; electric scalar potentials; ferrite toroid corner chamfering; figure-of-merit; grooved waveguide; gyromagnetic ratio; improved analytical model; magnetic vector potentials; nodal finite-element method; nonreciprocal remanence ferrite phase shifter; phased array radars; rectangular waveguide; saturated magnetization; sparse matrices; symmetric matrices; Analytical models; Dielectrics; Ferrites; Finite element methods; Magnetic analysis; Magnetization; Phase shifters; Phased arrays; Remanence; Waveguide theory;

fLanguage

English

Journal_Title

Microwave Theory and Techniques, IEEE Transactions on

Publisher

ieee

ISSN

0018-9480

Type

jour

DOI

10.1109/TMTT.2002.801331

Filename

1022035