Fibre Optics '84: May 1-3, 1984, London, EnglandJ. M. Tait SPIE--the International Society for Optical Engineering, 1984 - Technology & Engineering - 243 pages |
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Page 15
... typical multimode fiber and monomode fiber are shown in Figure 1. Based on this problem a connector with an adjustable ferrule system was designed allowing random mating with a typical loss of 1 dB . The connector is completely ...
... typical multimode fiber and monomode fiber are shown in Figure 1. Based on this problem a connector with an adjustable ferrule system was designed allowing random mating with a typical loss of 1 dB . The connector is completely ...
Page 51
... typical multimode fibre has an area of nearly 2000 square microns whilst that of single mode fibre is only about 60 ... typical fluctuation of tracking ratio of STC high reliability lasers . Submerged System Laser Typical Tracking Ratio ...
... typical multimode fibre has an area of nearly 2000 square microns whilst that of single mode fibre is only about 60 ... typical fluctuation of tracking ratio of STC high reliability lasers . Submerged System Laser Typical Tracking Ratio ...
Page 114
... typical 1.e.d. which is rated at 1 million hours lifetime , we see that a surface emitter has a high thermal impedance of 150 ° C / Watt whereas the thermal impedance of an edge emitter is only 30 ° C / Watt . This means that if you ...
... typical 1.e.d. which is rated at 1 million hours lifetime , we see that a surface emitter has a high thermal impedance of 150 ° C / Watt whereas the thermal impedance of an edge emitter is only 30 ° C / Watt . This means that if you ...
Contents
OPTOELECTRONIC DEVICES | 49 |
SHORT AND MEDIUM DISTANCE COMMUNICATIONS | 81 |
TELECOMMUNICATIONS | 123 |
Copyright | |
3 other sections not shown
Common terms and phrases
5B6B code alignment applications assembly attenuation backscatter bandwidth beam birefringence CALIFORNIA cladding coaxial cables coherent components configuration core coupler coupling loss coupling ratio delay line detector developed devices diameter DIEGO UNIVERSITY diode distribution effect electrical electronic engine equipment error ERSITY fiber fibre cable fibre optic fibre-optic field filter frequency function glass holographic input insertion loss installation integrated optical intensity interface laser launch length lens light lithium niobate manufacturers Mbit/s measurement monitoring monomode multimode multiplexing Near-end crosstalk numerical aperture operation optic system optical fibre optical power optical waveguides output OWGS performance phase modulation photodiode PIN diode Plessey polarisation port switch processor pulse receiver refractive index rotation SAN DIEGO semiconductor sensitivity sensors shown in Figure signal single mode splice loss substrate techniques Telecommunications temperature terminal transmission transmitted typical voltage wavelength wire