Title :
Analysis of skeletal wire conical antennas
Author :
Givati, Ofer ; Fourie, Andre P C
Author_Institution :
Dept. of Electr. Eng., Univ. of the Witwatersrand, Johannesburg, South Africa
fDate :
6/1/1996 12:00:00 AM
Abstract :
A series of comparisons are drawn between the measured impedances of skeletal wire conical (SWC) antennas and theoretical impedances obtained using the method of moments computer simulation software code (numerical electromagnetics code) NEC2 formed the basis for this study. The validity of the numerical model was established on the basis of a favorable comparison between these results; this model forms the basis for the comprehensive computational investigation of SWC antennas presented. First, a definition of impedance convergency is provided; it serves to classify SWC antennas into two groups: sparse or convergent, and convergency curves are presented. Thereafter, the geometric mean-input resistance, voltage standing wave ratio (VSWR) performance and radiation patterns of these SWC antennas are examined. Finally, four graphs are considered. Used in conjunction, these graphs provide an initial approximation of the performance/parameter characteristics of SWC antennas
Keywords :
antenna radiation patterns; antenna testing; conical antennas; digital simulation; electric impedance measurement; electrical engineering; electrical engineering computing; method of moments; wire antennas; NEC2; SWC antennas; VSWR; approximation; biconical antenna; computer simulation software code; convergency curves; convergent antennas; geometric mean-input resistance; graphs; impedance convergency; measured impedance; method of moments; numerical electromagnetics code; numerical model; performance/parameter characteristics; radiation patterns; skeletal wire conical antennas; sparse antennas; theoretical impedance; voltage standing wave ratio; Antenna measurements; Antenna theory; Computer simulation; Electromagnetic measurements; Impedance measurement; Moment methods; Numerical models; Software measurement; Voltage; Wire;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
