Microstrip circulator made of a magnetized ferrite sphere

The scattering of a plane wa¨e by a magnetized ferrite sphere is rigorously analyzed by a finite-difference time-domain technique with a perfectly matched layer. The field components in the sphere and power᎐density distribution on the surface of the sphere are obtained. The circulating characteristi

Here we develop a three-dimensional (3D) dyadic recursive Green's function with elements GQR GH suitable for determining the electric "eld component E X and magnetic "eld component H ( anywhere within a circular, planar (microstrip or stripline) circulator. All of the other components may also be fo

neously magnetized ferrite planar disk is studied first. The obtained results are then used to compute the inhomogeneously magnetized planar ferrite circulator. ## 2. THEORY From a practical point of view, it is assumed that the ferrite disk is magnetized along the axis of the disk z , and the dc

Diagonalization of the 3-D go¨erning equations, trans¨erse field construction, field dependence on the perpendicular coordinate, fields within annuli, compact recursion equations in matrix form, and 3-D EH and HH dyadic Green's function elements are treated. Explicit dependence on substrate thicknes

Design and test consideration of RF systems was studied. The frequency domain analysis of RF systems was performed. This analysis helps improve the design performance and facilitates the test of RF circuits. During this analysis we determined the critical components influencing the circuit performan