Title :
Ultra-wideband signals radiation by linear arrays of aperture stacked patch antennas
Author :
Artem, Vilenskiy ; Andrey, Krylov
Author_Institution :
SAIT Russia Lab., Samsung R&D Inst. Russia, Moscow, Russia
Abstract :
A low-profile multilayer ultra-wideband microstrip antenna (aperture stacked patch antenna) is investigated as a radiator of ultra-wideband radio pulses with 50% relative bandwidth. Low permittivity materials such as Rogers RO 4003, teflon and foam were used for antenna implementation. Linear antenna arrays designed on the basis of proposed stacked patch elements were investigated. Frequency-domain analysis demonstrated very good array elements matching and negligible mutual coupling. Transient radiated pulses were simulated for different observation angles in the antenna E-plane, energy patterns and fidelity factors are calculated. Time-domain results evidence small radiated pulse degradation and high fidelity factor values for broadside directions.
Keywords :
antenna arrays; frequency-domain analysis; microstrip antennas; permittivity; ultra wideband antennas; antenna E-plane; aperture stacked patch antennas; energy patterns; fidelity factors; foam; frequency domain analysis; high fidelity factor values; linear antenna arrays; low permittivity materials; low profile multilayer ultra wideband microstrip antenna; negligible mutual coupling; radiated pulse degradation; relative bandwidth; stacked patch elements; transient radiated pulses; ultra wideband radio pulses; ultra wideband signals radiation; Apertures; Linear antenna arrays; Microstrip; Microstrip antennas; Patch antennas; aperture stacked patch antenna; linear antenna array; time-domain electromagnetics; ultra-wideband antenna;
Conference_Titel :
Radar Conference (EuRAD), 2013 European
Conference_Location :
Nuremberg
