Title :
Integrated filtering-antenna with controllable frequency bandwidth
Author :
Mao, C.X. ; Gao, S. ; Wang, Z.P. ; Wang, Y. ; Qin, F. ; Sanz-Izquierdo, B. ; Chu, Q.X.
Author_Institution :
Sch. of Eng. & Digital Arts, Univ. of Kent, Canterbury, UK
Abstract :
An integrated design of a band-pass filter and a patch antenna is proposed in this paper by using an aperture coupled structure. Traditionally, the microwave filter and antenna are designed separately using 50 Ohm interface and then connected by transmission lines, which lead to a large size and more loss. Here, the antenna and microwave filter are directly integrated without a 50 Ohm interface between them. Compared with the traditional cascade designing, the co-design of filter and antenna has a more compact size, simpler configuration, improved frequency selectivity and higher system efficiency. The frequency bandwidth also can be controlled by adjusting the dimension of the coupling aperture in the ground. The measured results agree very well with the simulations, showing the filtering-antenna has good performance in impedance matching, radiation pattern and antenna gain.
Keywords :
antenna radiation patterns; band-pass filters; microstrip antennas; microwave antennas; microwave filters; antenna gain; aperture coupled structure; bandpass filter; controllable frequency bandwidth; coupling aperture; filtering antenna; frequency bandwidth; impedance matching; integrated filtering antenna; microwave antenna; microwave filter; patch antenna; radiation pattern; transmission lines; Apertures; Band-pass filters; Bandwidth; Filtering theory; Microwave filters; Resonator filters; aperture; bandwidth; filtering-antenna; patch;
Conference_Titel :
Antennas and Propagation (EuCAP), 2015 9th European Conference on
Conference_Location :
Lisbon
