DocumentCode
1043212
Title
Successive variational approximations of impedance parameters in a coupled antenna system
Author
Hu, M.K. ; Hu, Y.Y.
Author_Institution
Syracuse University, Syracyse, NY, USA
Volume
7
Issue
4
fYear
1959
fDate
10/1/1959 12:00:00 AM
Firstpage
373
Lastpage
379
Abstract
In this paper, a new variational formulation for a single impedance parameter of an
-antenna system is presented. This formulation enables one to determine any self impedance
, one at a time, merely by exciting antenna
alone and leaving all the other antennas open circuited. For determining any mutual impedance
, only two independent excitations, one the same as that used for determining
and the other for determining
, are required. Thus, if all the
impedance are required, only
independent excitation conditions are needed. In contrast to this, the formulation available in the literature is based on
independent excitation conditions. Because of a reduced number of excitation conditions and the way they are assumed, the physical nature of the problem is made simpler and easier to comprehend. Such comprehension helps considerably in the choice of trial current distributions for a specific application. Two methods of evaluating the successive higher-order approximations are also given. One is based upon an orthogonalization process, and the other is based upon the successive inversion of matrices. In the evaluation of a certain order approximation, both methods have the advantage of utilizing all the work already done for the lower-order approximations; and at the same time, additional work required is considerably reduced. It is believed that the formulation, as well as the two methods of successive approximations, will also be useful in other problems.
-antenna system is presented. This formulation enables one to determine any self impedance
, one at a time, merely by exciting antenna
alone and leaving all the other antennas open circuited. For determining any mutual impedance
, only two independent excitations, one the same as that used for determining
and the other for determining
, are required. Thus, if all the
impedance are required, only
independent excitation conditions are needed. In contrast to this, the formulation available in the literature is based on
independent excitation conditions. Because of a reduced number of excitation conditions and the way they are assumed, the physical nature of the problem is made simpler and easier to comprehend. Such comprehension helps considerably in the choice of trial current distributions for a specific application. Two methods of evaluating the successive higher-order approximations are also given. One is based upon an orthogonalization process, and the other is based upon the successive inversion of matrices. In the evaluation of a certain order approximation, both methods have the advantage of utilizing all the work already done for the lower-order approximations; and at the same time, additional work required is considerably reduced. It is believed that the formulation, as well as the two methods of successive approximations, will also be useful in other problems.Keywords
Antenna array mutual coupling; Variational methods; Antenna arrays; Antennas and propagation; Circuits; Current distribution; Electronic switching systems; Equations; Geometry; Impedance; Mutual coupling; Receiving antennas;
fLanguage
English
Journal_Title
Antennas and Propagation, IRE Transactions on
Publisher
ieee
ISSN
0096-1973
Type
jour
DOI
10.1109/TAP.1959.1144701
Filename
1144701
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