ABSTRACT A monofilar Archimedean spiral is adopted as a circularly polarized slot radiator which is electromagnetically coupled to a feed line. Numerical analysis of the coupling between the slot and the feed line reveals that, when the slot arm length is properly chosen, a traveling-wave magnetic current is distributed along the slot, leading to the radiation of a circularly polarized wave. On the basis of this radiation mechanism, a spiral slot printed antenna fed by a triplate transmission line is experimentally designed to obtain a unidirectional radiation beam. It is found that an axial ratio of 0.6 dB is achieved, and that the spiral slot is matched to the transmission line with a VSWR of less than 1.5. An array antenna composed of 32 printed spiral slots is constructed, attaining a 5 % bandwidth for a 3-dB axial ratio criterion. The formation of several tilted beams is also demonstrated.
[1]
Junji Yamauchi,et al.
Single-arm spiral slot antenna fed by a triplate transmission line
,
1992
.
[2]
Hisamatsu Nakano,et al.
Dual-spiral slot antennas
,
1991
.
[3]
Hisamatsu Nakano,et al.
Dual-loop slot antenna with simple feed
,
1989
.
[4]
P. Hall,et al.
Handbook of microstrip antennas
,
1989
.
[5]
B. Forman,et al.
Directivity characteristics of scannable planar arrays
,
1972
.
[6]
J. R. James,et al.
Microstrip Antenna Theory and Design
,
1981
.
[7]
K. Hirose,et al.
A dual-spiral slot array antenna with a tilted beam
,
1991
.
[8]
A. I. Zaghloul,et al.
A High-Efficiency Flat Plate Array for Direct Broadcast Satellite Applications
,
1988,
1988 18th European Microwave Conference.