Title :
Estimation of beam forming accuracy for satellite experiment toward SPS
Author :
Yoshino, Junki ; Shinohara, Nobuhiro ; Mitani, Tomonori
Author_Institution :
Kyoto Univ. Gokasyo, Uji, Japan
Abstract :
Nowadays, Solar Power Station is expected to solve energy problems. Therefore an experiment to demonstrate wireless energy transfer technology is planned in Japan. In the experiment, a satellite in low orbit of 370 km in space transfers energy to receiving antennas on the Earth by microwave of 5.8 GHz. In this demonstration, it is necessary to control the beam direction within 0.2°. In order to prove that it is feasible, practical experiments were conducted by using Advanced Phased Array System for Microwave Power Transmission, where the distance between the transmitting and receiving antenna is 6.5 meters. We changed control bits of phase shifter number from 1bit to 5bits and the number of sub array antenna. In each case, we measured the beam direction errors. In the experiments, we changed the beam direction from -30° to 30°. As a result, we conclude that we can control the beam direction with an accuracy of 0.2° or less.
Keywords :
antenna phased arrays; microwave power transmission; receiving antennas; solar power stations; transmitting antennas; SPS; advanced phased array system; beam direction errors; beam forming accuracy estimation; control bits; distance 6.5 m; frequency 5.8 GHz; microwave power transmission; phase shifter number; receiving antenna; satellite experiment; solar power station; sub array antenna; transmitting antenna; wireless energy transfer technology; Antenna measurements; Arrays; Directive antennas; Phase shifters; Phased arrays; Satellite antennas; Satellites; Beam direction control; Phased array antenna; Solar power station/satellite; Wireless power transmission;
Conference_Titel :
Wireless Power Transfer Conference (WPTC), 2014 IEEE
Conference_Location :
Jeju
DOI :
10.1109/WPT.2014.6839620
