A novel pattern reconflgurable antenna operating at 2.45 GHz is designed for portable devices by exploiting the characteristic modes analysis (CMA). In particular, a null-steering antenna is proposed by exploiting the current modes distribution (Jn) over a ground plane of the dimensions of a mobile terminal. To achieve this goal, two current modes (J4 and J8) are asymmetrically excited by introducing a phase difference (Δθ) between the two capacitive coupler exciters fCCEsl hosted above the conductive plane. More in detail, the position of the CCEs allows exciting only Mode # 4 and Mode # 8, related to the current modes J4 and J8, respectively. The phase difference (Δθ) allows controlling the level of the excitation of these modes and obtaining the null-steering antenna in the y-z plane. As a proof of concept, a discrete phase shifter that employs several pin diodes has been designed in microstrip technology in order to obtain a subset of the phase differences. The radiation patterns prove that the proposed design guidelines are reliable and applicable to other kinds of structures.
Design guidelines for pattern reconfigurable antennas by exploiting the characteristic modes analysis
DICANDIA, FRANCESCO ALESSIO;GENOVESI, SIMONE;MONORCHIO, AGOSTINO
2016-01-01
Abstract
A novel pattern reconflgurable antenna operating at 2.45 GHz is designed for portable devices by exploiting the characteristic modes analysis (CMA). In particular, a null-steering antenna is proposed by exploiting the current modes distribution (Jn) over a ground plane of the dimensions of a mobile terminal. To achieve this goal, two current modes (J4 and J8) are asymmetrically excited by introducing a phase difference (Δθ) between the two capacitive coupler exciters fCCEsl hosted above the conductive plane. More in detail, the position of the CCEs allows exciting only Mode # 4 and Mode # 8, related to the current modes J4 and J8, respectively. The phase difference (Δθ) allows controlling the level of the excitation of these modes and obtaining the null-steering antenna in the y-z plane. As a proof of concept, a discrete phase shifter that employs several pin diodes has been designed in microstrip technology in order to obtain a subset of the phase differences. The radiation patterns prove that the proposed design guidelines are reliable and applicable to other kinds of structures.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.