Analysis of equiangular spiral antennas

Abstract

In this work, equiangular spiral antennas are analyzed with the well-known method of moments in conjunction with triangular patch modeling. In particular, the analysis focuses on the validity of several generic guidelines hitherto available for designing such antennas. In our study, numerical results indicate that increasing the number of spiral arm turns broadens the radiation pattern (i.e., the axial ratio increases), but that tapering the outermost portion of the arms has little effect. Furthermore, as a spiral is wrapped tighter, the radiation pattern broadens and the gain increases. We also show that the useful frequency range of the spiral antenna depends not only on the spiral arm length and the inner radius near the spiral center, but also on the wrap tightness. Finally, numerically determined input impedance differed considerably from the 188-Ω impedance expected for these self-complementary type antennas. © 1996 John Wiley & Sons, Inc.