Title :
Enhanced antenna performances using planar circularly symmetric EBGs
Author :
Llombart, N. ; Neto, A. ; Gerini, G. ; de Maagt, P.
Author_Institution :
Radar Group, TNO, Den Haag, Netherlands
Abstract :
Planar circularly symmetric (PCS) electromagnetic band-gap (EBG) substrates have recently been proposed to suppress surface waves (Llombart, N. et al., 2004). The application of PCS-EBG to reduce the surface waves excited by an antenna printed on a dielectric slab is discussed. The study starts from a reference microstrip-excited, slot-coupled dipole that presents a relatively large bandwidth (about 12%) and relatively low efficiency (about 40%-60%) due to surface wave losses. Some design considerations on how to enhance the performance of this antenna by surrounding it with a PCS-EBG are then presented. Finally the measured results are presented. These explicitly show the advantages of the proposed EBG substrate in terms of bandwidth and radiation pattern. A bandwidth of 20% is achieved without significant surface wave losses. The results also show radical improvements in the isolation between antennas printed on the same substrate.
Keywords :
antenna feeds; antenna radiation patterns; broadband antennas; dipole antennas; microstrip antennas; microwave materials; photonic band gap; substrates; surface electromagnetic waves; bandwidth; dielectric slab; microstrip-excited dipole; planar circularly symmetric EBG substrates; planar circularly symmetric electromagnetic band-gap substrates; printed antenna; radiation pattern; slot-coupled dipole; surface wave suppression; Antenna measurements; Antennas and propagation; Bandwidth; Dielectric substrates; Dipole antennas; Metamaterials; Periodic structures; Slabs; Space technology; Surface waves;
Conference_Titel :
Antennas and Propagation Society International Symposium, 2005 IEEE
Print_ISBN :
0-7803-8883-6
DOI :
10.1109/APS.2005.1551436
