Title :
Design of a Wideband Highly Directive EBG Antenna Using Double-Layer Frequency Selective Surfaces and Multifeed Technique for Application in the Ku-Band
Author :
Moustafa, Lina ; Jecko, Bernard
Author_Institution :
Ondes et Syst. Associes (OSA) Dept., Xlim Lab., Limoges, France
fDate :
7/2/1905 12:00:00 AM
Abstract :
We have shown in previous works that the use of double-layer frequency selective surface (FSS) in the superstrate of an electromagnetic band-gap (EBG) antenna provides a radiation bandwidth improvement. Nevertheless, such an antenna is still not directive enough for some applications. To increase its gain, the antenna will be fed using the multisource feeding technique. This principle is applied to design a wideband highly directive antenna operating in the Ku-band. When the radiation bandwidth corresponding to the realized gain is equal to 14% for a maximal gain of 22.5 dB, 17% of radiation bandwidth is obtained for a maximal directivity of 23 dB.
Keywords :
antenna feeds; antenna radiation patterns; broadband antennas; directive antennas; frequency selective surfaces; inhomogeneous media; microwave antennas; photonic band gap; Ku band; double layer frequency selective surfaces; electromagnetic band gap antenna; multifeed technique; radiation bandwidth improvement; wideband highly directive EBG antenna; wideband highly directive antenna; Broadband antenna; electromagnetic band-gap (EBG) antenna; evanescent mode; frequency selective surface (FSS); highly directive antenna; multifeeding; positive phase slope;
Journal_Title :
Antennas and Wireless Propagation Letters, IEEE
DOI :
10.1109/LAWP.2010.2047630
