Analysis performance of triangle microstrip antenna for basic construction of circularly polarized-synthetic aperture radar application

フォーマット:

論文

責任表示:

Purnomo, Muhammad Fauzan Edy ; Kitagawa, Akio ; 北川, 章夫

言語:

英語

出版情報:

Penerbit UTM Press, 2018-03

著者名:

• Purnomo, Muhammad Fauzan Edy
• Kitagawa, Akio
• 北川, 章夫

掲載情報:

Jurnal Teknologi

ISSN:

0127-9696      

巻:

80

通号:

2

開始ページ:

93

終了ページ:

104

バージョン:

publisher

概要:

金沢大学理工研究域電子情報学系<br />The development of radar technology, Synthetic Aperture Radar (SAR), Circularly Polarized-Synthetic Aperture Radar (CP-SAR) and geostationary satellite, are demanding needs of communication facilities and infrastr … uctures that have variety platforms, which can generate processed data with high resolution and better image quality for all types of explored terrain. Owing to the antenna embedded on the body of geostationary satellite, its shape should be compact, small, and simple configuration, i.e. the equilateral triangle with and without truncated-tip c1, c2, c3, and c3s antennas using probe and microstrip-line feed with low-power at S-band (2.5 GHz - 2.9 GHz). The Method of Moments (MoM) is chosen in the numerical analysis for fast calculation. The performance results for c2 and c3 antennas are almost same, for instance the values of gain and axial ratio (Ar) for each antenna are consecutive of 6.8 dBic and 0.42 dB. Moreover, the performance results for c1, c3, and c3s antennas at the each resonant frequency are relatively different, as follows: c1 antenna operates at the frequency 2.76 GHz, gain RHCP = 6.66 dBic, Ar = 2.91 dB, the operation frequency of c3 antenna is 2.9 GHz, gain LHCP = 6.98 dBic, Ar = 3.02 dB, and for c3s antenna has the operation frequency of 2.5 GHz, gain LHCP = 6.08 dBic, Ar = 1.75 dB. The results for both simulation and measurement of equilateral triangle antenna, especially for Ar bandwidth below 3-dB are about 0.02 GHz and 0.015 GHz, respectively. Furthermore, the results of the 3 dB-Ar beamwidth for simulation and measurement in elevation plane are consecutively about 120° and 80°. © 2018, Penerbit UTM Press. All rights reserved. 続きを見る

URL:

http://hdl.handle.net/2297/00050522