| ID | 30241 |
| FullText URL | |
| Author |
Analoui, M.
Tsuboi, H.
Nakata, Takayoshi
|
| Abstract | A cylindrical dipole antenna is numerically analyzed by the moment method. The surface of the antenna is approximated by triangular patches and the electric field integral equation is used for direct calculation of the surface current distribution. Therefore, the cylinder antenna can be treated in open or closed boundary form. The current expansion functions and the testing functions of the electric field boundary condition are of the triangular type. The surface integrals are numerically solved by a 33-point Gaussian quadrature approximation. The current distribution on a flat plate illuminated by a plane wave and the input admittance of a hollow cylindrical dipole as the near field quantities has been investigated. The convergence of the input admittance against the number of the triangular patches is presented, and the admittance solution is compared with the thin-wire approximation and theoretical results. Finally the CPU time and memory storage size for different numbers of patches are presented. Rapid admittance convergence and few required unknowns per square wavelength are the advantages of surface patch modeling |
| Keywords | antenna theory
convergence of numerical methods
current distribution
dipole antennas
electric admittance
integral equations
numerical analysis
|
| Note | Digital Object Identifier: 10.1109/20.106464
Published with permission from the copyright holder. this is the institute's copy, as published in Magnetics, IEEE Transactions on, Mar. 1990, Volume 26, Issue 2, Pages 905-908. Publisher URL:http://dx.doi.org/10.1109/20.106464 Copyright © 1990 IEEE. All rights reserved. |
| Published Date | 1990-3
|
| Publication Title |
Magnetics
|
| Volume | volume26
|
| Issue | issue2
|
| Start Page | 905
|
| End Page | 908
|
| Content Type |
Journal Article
|
| language |
English
|
| Refereed |
True
|
| DOI | |
| Submission Path | electricity_and_magnetism/164
|
