Descripcion de la tecnologia y sistemas de luz para transmitir señales
Sistemas de transmision por fibra optica, equipos de fibra optica para transmision inalambrica
5. Ground Lasercom Terminal Satellite Lasercom Terminal 1 Gbps 2000 km range Commercial Lasercom Examples of FSO Systems
6. Worldwide Installations USA Canada Mexico Brazil Argentina Uruguay China Singapore Japan India Philippines Taiwan S. Korea Australia Thailand Vietnam Malaysia Indonesia South Africa Nigeria Slovenia Croatia Latvia Czechoslovakia Gibraltar Luxemburg Netherlands France Norway Greece Germany England Switzerland Sweden Portugal Spain Italy Turkey Israel Saudi Arabia MRV Communications: More than 7000 links installed
7. Electromagnetic Spectrum Spread spectrum Microwave 10 1 10 2 10 3 10 4 10 5 10 6 10 7 10 8 10 9 10 10 10 11 10 12 10 13 10 14 10 15 10 16 Hertz kHz MHz GHz THz 10 7 10 6 10 5 10 4 10 3 10 2 10 1 0.1 10 -2 10 -3 10 -4 10 -5 10 -6 10 -7 10 -8 Frequency Wavelength Radio Waves Microwaves Infrared UV Power & Telephone Copper wire transmission km meter cm mm mm 10 -9 nm 10 17 Coaxial cable Fiber optic AM radio FM radio Laser communication Unlicensed III – The Technology Smaller carrier wavelength / Higher Bandwidth
8. Near Infrared Visible Spectrum 400 nm 500 nm 600 nm 700 nm 800 nm 900 nm HeNe 780 nm 810 nm 850 nm 1550 nm Near Infrared 1300 nm
9. How does it work? Fiber Optic Cable Laser Transmitter Receiver Network Network Lens Free space
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13. Access Technologies Positioning c 10 Gbps 1 Gbps 100 Mbps 10 Mbps 1 Mbps 200 m 50 m 500 m 1 km 5 km 15 km+ Fiber LMDS WiFi Optical Wireless T-1 DSL Future Performances
17. V - General Terms Beam Divergence - measure of angle or how much the beam spreads circle: 360° (degrees) = 2π radians 1 radian = 57° (degrees) 1 milliradian = 0.001 rad = 0.057° (degree) 80 µ radians = 0.00008 rad = 0.0046° (degree) (satellite) 2.5 mrad divergence 1 mrad divergence Range = R = 1000 m = 1 km 80 µrad divergence 1 radian Laser Communication System 2.5 m 1 m 8 cm STRV-2 Satellite Laser Communication System
18. Tx Tx High geometric loss. . . . . .good link stability. Narrow angle Tx . . .poor link stability. Wide angle Link stability – Depending on Beam divergence Tx
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22. Environmental factors Sunlight Building Motion Alignment Window Attenuation Fog Each of these factors can “attenuate” (reduce) the signal. However, there are ways to mitigate each environmental factor. Scintillation Range Obstructions Low Clouds Sunlight
29. Scintillation & Turbulence Atmospheric turbulence (ie. wind) produce temporary pockets of air with different temperature thus different density thus different index of refraction. These air pockets and are continuously being created and then destroyed as they are mixed. The effect of these cells which lie along the laser beam path depends on the size of the cells. Laser Beam Wander if the cells are larger than the beam diameter Scintillation if the cells are smaller than the beam diameter. The wavefront becomes distorted due to constructive and destructive interference creating fluctuations in receive power, similar to the twinkling of a distant star.
30. Scintillation & Turbulence Power Time Power Time Laser Beam Wander Transmit power Receive power Power Time Power Time Scintillation Total Effect is the sum of both Power Time
31. Scintillation caused burst errors Serial bit stream Fluctuating received laser power Minimum receive power threshold Burst error Burst error
32. Link Bandwidth vs. Link Range @ various Atmospheric attenuation values * * TS5000/G TS5000/155 Ethernet/4E1 E1 Bandwidth 1 km 1.25Gbps 100Mbps 10Mbps 2Mbps 2 km 3 km 4 km 5 km * 30 dB/km 17 dB/km 10 dB/km 3 dB/km @ @ @ * @ For operation under light to medium rain, light snow, light haze. * For operation under medium to heavy rain – snow, thin fog. For operation under cloudburst, medium snow, light fog. For operation under blizzard, moderate fog. @ 6 km
41. X - TereScope Structure בס " ד A - TS155 BLOCK DIAGRAM 1-155Mbps Interface unit Control Panel Management Unit(optional) Air Link Transmitter Air Link Receiver AC / DC Power Supply Clock / Data Recovery RSM-DC (Option) Data Out Data In Interface
42. B - 4E1 BLOCK DIAGRAM E1/T1 Line Interface unit E1/T1 Line Interface unit E1/T1 Line Interface unit E1/T1 Line Interface unit 4 E1/T1 Multiplexer / Demultiplexer Device Clock/Data Recovery Control Panel Management Unit(optional) Air Link Transmitter Air Link Receiver AC / DC Power Supply