An efficient dynamic interconnection model using wireless infrared technology and the theory of optical interconnections was constructed to design a dual-channel interconnection component.There were three conditions b...An efficient dynamic interconnection model using wireless infrared technology and the theory of optical interconnections was constructed to design a dual-channel interconnection component.There were three conditions between the rotating optical field and the stationary optical field:end separation,angle misalignment and lateral mis-alignment.The calculation formulas were given for these three conditions.A dual-channel optical interconnection com-ponent was designed based on the dynamic interconnection model and the data transmission rate of the component was measured.The experimental result showed that the dual-channel optical interconnection component could transmit optical signals across the rotating interface.The maximum transmission rate can reach 2.14 Mb/s.展开更多
基金supported by the National Natural Science Foundation of China (Grant No.60377031,60577013)the Program for New Century Talents in University,Ministry of Education (MOE),China.
文摘An efficient dynamic interconnection model using wireless infrared technology and the theory of optical interconnections was constructed to design a dual-channel interconnection component.There were three conditions between the rotating optical field and the stationary optical field:end separation,angle misalignment and lateral mis-alignment.The calculation formulas were given for these three conditions.A dual-channel optical interconnection com-ponent was designed based on the dynamic interconnection model and the data transmission rate of the component was measured.The experimental result showed that the dual-channel optical interconnection component could transmit optical signals across the rotating interface.The maximum transmission rate can reach 2.14 Mb/s.
