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Satoshi TANEZAKI Toshio MATSUSHIMA Seiichi MUROYAMA
We describe a simulation method and design for a stand-alone hybrid power supply system composed of a wind turbine generator and photovoltaic modules. The system has been developed to supply power for telecommunications equipment in areas with no commercial power sources. We also report a comparison of the simulation results with actual measured data. The results show that the hybrid system can function effectively as a power supply for telecommunications equipment.
Shun-ichiro OHMI Go YAMANAKA Tetsushi SAKAI
Electron cyclotron resonance (ECR) plasma oxidation of AlN thin films was studied to form the AlON high-κ gate insulator. The leakage current was found to be decreased, and also the surface roughness was improved with the ECR plasma oxidation of AlN thin films. The leakage current was further decreased after 1000 RTA in N2 with little increase of equivalent oxide thickness (EOT) because of the high quality interfacial layer formation.
Mitsuhiro TATEDA Tomoko ARITA Takashige OMATSU
We propose a set of Fabry-Perot etalons integrated in a planar lightwave circuit (PLC-FPE) designed for a unified system for broadcasting and communication. A PLC-FPE containing four etalons having different cavity lengths is fabricated and their loss and frequency characteristics are investigated. The total loss and the maximum finesse were found to be 8 dB and 34, respectively.
Mitsuhiro TATEDA Minoru HIRAKAWA Takashige OMATSU
A passive branched optical network unified for broadcasting and communication utilizing a set of Fabry-Perot etalons with different cavity lengths is proposed and its basic operation including thermal stability of broadcasting channel is demonstrated. It is confirmed that a high transmission frequency in common for a pair of fiber Fabry-Perot etalons is always found however environmental temperature changes.