Title :
Discharge phenomenon on solar array surface due to RF irradiation
Author :
Kasedo, Kohei ; Hosoda, Satoshi ; Toyoda, Kazuhiro ; Cho, Mengu ; Hisada, Yasumasa
Author_Institution :
Dept. of Electr. Eng., Kyushu Inst. of Technol., Kitakyusyu
Abstract :
Space solar power system (SSPS) transfers enormous amount of electrical energy of microwave. As the microwave may diffract to solar array surface, there is concern of multipactor discharge caused by the microwave. There has been no experiment on interaction between high intensity microwave and solar array. The verification experiment is essential for SSPS to become a reality. We examined interaction between solar array surface and microwave in a vacuum chamber. We investigated a discharge phenomenon on the solar array surface that receives RF irradiation with 400W maximum power and 5.8GHz frequency generated by a magnetron. We observed discharge on solar array depending on the microwave strength and vacuum condition. The discharge occurred mostly at N-electrodes of solar cells that acted as an antenna as good as a dipole antenna. We calculated the distribution of electric field inside the chamber by finite difference time domain method
Keywords :
electric fields; finite difference time-domain analysis; microwave switches; radiation effects; solar cell arrays; surface discharges; 400 W; 5.8 GHz; RF irradiation; discharge phenomenon; electric field distribution; finite difference time domain method; magnetron; multipactor discharge; solar array surface; solar cells; space solar power system; vacuum chamber; Diffraction; Dipole antennas; Magnetic domains; Microwave antenna arrays; Photovoltaic cells; Power generation; Radio frequency; Solar power generation; Space power stations; Surface discharges;
Conference_Titel :
Discharges and Electrical Insulation in Vacuum, 2006. ISDEIV '06. International Symposium on
Conference_Location :
Matsue
Print_ISBN :
1-4244-0191-7
Electronic_ISBN :
1093-2941
DOI :
10.1109/DEIV.2006.357409
