Efficient analysis of propagation characteristics of printed cylindrical transmission lines using the non-uniform FDTD technique

A two-dimensional cylindrical, non-uniform finite difference time domain te chnique is employed in conjunction with an unsplit, anisotropic perfectly m atched layer for boundary mesh truncation, for the analysis of printed cyli ndrical transmission lines. The computed propagation characteristics for bo th shielded and open structures are found to be in good agreement with the results obtained via the uniform cylindrical FDTD technique. However, the r equirements of computation capacity are significantly reduced. It is found that the Gibb's phenomenon corrupts the results, but can be eliminated by u sing the Blackman-Harris window function to truncate and modulate the time domain signatures.