Download presentation
Presentation is loading. Please wait.
Published byThomas Heath Modified over 9 years ago
1
Optical Communication et4-013 B1 Optical Communication Systems Opto-Electronic Devices Group Delft University of Technology Opto-Electronic Devices Group Delft University of Technology Meint Smit Xaveer Leijtens Siang Oei Meint Smit Xaveer Leijtens Siang Oei Course et4-013
2
Optical Communication et4-013 B2 Contents Introduction Fibre transmission properties Light sources (laser, LED) Light detectors Optical receivers Fibre systems Introduction Fibre transmission properties Light sources (laser, LED) Light detectors Optical receivers Fibre systems
3
Optical Communication et4-013 B3 Fibre performance z=0z=L Dispersion z=0z=L Attenuation
4
Optical Communication et4-013 B4 Fibre attenuation (SiO 2 ) 1.80.81.01.21.41.60.91.11.31.51.7 Wavelength ( m) Attenuation (dB/km) 0.2 0.5 1.0 1.5 0.16 dB/km Rayleigh scattering IR band edge OH - -peak UV absorption
5
Optical Communication et4-013 B5 Bandwidth and Bit rate t TT FWHM dBo 0 -1.5 -3 fofo fefe dBe 0 -3 -6 I det = R·P opt (:) P el Rule-of-thumb:
6
Optical Communication et4-013 B6 Types of dispersion Intermodal dispersiononly for MMF Material DispersionChromatic Waveguide DispersionDispersion Polarisation Mode Dispersion (PMD) Intermodal dispersiononly for MMF Material DispersionChromatic Waveguide DispersionDispersion Polarisation Mode Dispersion (PMD) } {
7
Optical Communication et4-013 B7 z=0 Chromatic dispersion TT z=L
8
Optical Communication et4-013 B8 Phase velocity (mode) z
9
Optical Communication et4-013 B9 Group velocity (pulse) z
10
Optical Communication et4-013 B10 Material Dispersion (1)
11
Optical Communication et4-013 B11 Material Dispersion (2)
12
Optical Communication et4-013 B12 Material Dispersion (3) Material Dispersion SiO 2 1.27
13
Optical Communication et4-013 B13 Standard Single-Mode Fibre
14
Optical Communication et4-013 B14 Fiber classification (1) Core diameter50 - 400 m Cladding125 (500) m 2 nd coating250 - 1000 m NA0.16 - 0.5 Attenuation1 - 4 dB/km BL-product6 - 25 MHz.km ApplicationShort distance, low cost limited bandwidth Core diameter50 - 400 m Cladding125 (500) m 2 nd coating250 - 1000 m NA0.16 - 0.5 Attenuation1 - 4 dB/km BL-product6 - 25 MHz.km ApplicationShort distance, low cost limited bandwidth MM-SI: Multi Mode - Step Index fiber
15
Optical Communication et4-013 B15 Fiber classification (2) Core diameter50 m standard Cladding125 m 2 nd coating200-1000 m NA0.2 - 0.3 Attenuation1 dB/km (1300 nm) BL-product 150 MHz.km - 2 GHz.km ApplicationMedium distance communication LED/Laser sources Core diameter50 m standard Cladding125 m 2 nd coating200-1000 m NA0.2 - 0.3 Attenuation1 dB/km (1300 nm) BL-product 150 MHz.km - 2 GHz.km ApplicationMedium distance communication LED/Laser sources MM-GI: Multi Mode - Graded Index fiber
16
Optical Communication et4-013 B16 Fiber classification (3) Core diameter3-10 m Cladding50-125 m 2 nd coating200-1000 m NA~0.1 (not used) Attenuation0.20@1550 - 0.4@1300 dB/km BL-product >> 500 MHz.km ApplicationLong distance communication Lasers, standard fiber Core diameter3-10 m Cladding50-125 m 2 nd coating200-1000 m NA~0.1 (not used) Attenuation0.20@1550 - 0.4@1300 dB/km BL-product >> 500 MHz.km ApplicationLong distance communication Lasers, standard fiber SM-SI: Single Mode - Step Index fiber
17
Optical Communication et4-013 B17 Waveguide dispersion n 1 ( ) n 2 ( )
18
Optical Communication et4-013 B18 Dispersion shifted fibre
19
Optical Communication et4-013 B19 Dispersion Mechanisms Intermodal multimode fiber! Intramodal / Chromatic material n waveguide
20
Optical Communication et4-013 B20 Optimal Pulse Width Gaussian pulse:
21
Optical Communication et4-013 B21 Soliton Transmission t E tot =2 T FWHM=1.76T n(E)n(E) Pulse Compression
22
Optical Communication et4-013 B22 Erbium-Doped Fiber Amplifier (EDFA) PUMP LASER 0.98 m or 1.48 m Er-doped fiber MUXFILTER
Similar presentations
© 2025 SlidePlayer.com. Inc.
All rights reserved.