Title :
Numerical analysis of arbitrarily shaped probe-excited single-arm printed wire antennas
Author :
Li, Rong-Lin ; Nakano, Hisamatsu
Author_Institution :
Dept. of Electr. Eng., Zhejiang Univ., Hangzhou, China
fDate :
9/1/1998 12:00:00 AM
Abstract :
A general integral equation technique is described for analysis of an arbitrarily shaped single-arm printed wire antenna excited through a vertical probe. A unified current integral equation is formulated on the basis of dyadic Green´s functions and the reciprocity theorem. The current distribution is obtained by using a parametric moment method in which parameter segments are adopted for the printed wire instead of the commonly employed wire length segments. The radiation field solution involving both the printed antenna and vertical probe is also presented. The validity of the formulation is verified by comparing the numerically obtained input impedance and radiation patterns for a linear antenna and a meander antenna with measured data. A circular open loop and an Archimedian spiral are investigated to illustrate the applicability of the present technique
Keywords :
Green´s function methods; antenna radiation patterns; current distribution; electric impedance; integral equations; loop antennas; method of moments; microstrip antennas; probes; spiral antennas; wire antennas; Archimedian spiral; arbitrarily shaped probe-excited antennas; circular open loop; current distribution; dyadic Green´s functions; general integral equation; input impedance; linear antenna; meander antenna; measured data; numerical analysis; parameter segments; parametric moment method; radiation field solution; radiation patterns; reciprocity theorem; single-arm printed wire antennas; unified current integral equation; vertical probe; Antenna measurements; Antenna radiation patterns; Current distribution; Green´s function methods; Impedance; Integral equations; Moment methods; Numerical analysis; Probes; Wire;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
