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SMPTE Journal ( Volume: 108, Issue: 4, April 1999)
[ACTIVE]

Fiber-Optic Transmission of SMPTE 259M and SMPTE 292M SDI Signals

Metadata

Publisher
SMPTE — White Plains, NY, USA
Doc Type
Journal Article
Content Type
Original Research
Abbreviated Title
SMPTE J
Volume
108, No. 4, pp. 213–220
Abstract
This paper, in the form of a review, introduces some technical aspects dealing with fiber-optic digital transmitters. The special case of the serial digital interface (SDI) data transmitter is considered. The paper presents the basic features of semiconductor laser structures; the problem of laser light modulation and stabilization is discussed, especially for direct modulation; and SDI signal features are briefly reviewed. The most commonly used mean-value stabilization loop is analyzed, and its limited performance for SDI signal transmission is demonstrated. Finally, the SDI designated feed-forward compensated stabilization loop is proposed, and its properties are analyzed.
Publication Date
1999-04-01
DOI
10.5594/J15725
ISSN
Print: 0036-1682
Link
https://doi.org/10.5594/J15725
Author(s)
L. SliwczynskiUniversity of Mining and Metalurgy (UMM), Krakow, Poland
bio
Lukasz Sliwczynski is an assistant in the Institute of Electronics at the University of Mining and Metalurgy (UMM), Krakow, Poland. He joined the Optoelectronics Group in 1993, after receiving his M.S. in electronics from there. His professional interests include high-speed fiber-optic transmission systems, both digital and analog, high-speed semiconductor laser driving circuits, and high-speed optical receivers. Sliwezynski's main interests lie in burst-mode digital transmission and the influence of LF components of transmitted digital signal on the BER performance of fiber-optic transmission system. He has contributed to the design and evaluation of fiber-optic transmission systems, some designated for digital TV contribution systems and digital TV studios.
M. LipinskiUniversity of Mining and Metalurgy (UMM), Krakow, Poland
bio
Marcin Lipinski received his M.S. in 1971 from Wroclaw Technical University and joined the Polon Nuclear Equipment Plant where he worked as project manager on many CAMAC system products. In 1977 he joined the Institute of Electronics at the UMM where he received his Ph.D. Currently he is a member of the Optoelectronics Group at UMM. He has been engaged in several projects concerned with fiber-optic transmission systems, including high-quality TV contribution systems.
P. KrehlikUniversity of Mining and Metalurgy (UMM), Krakow, Poland
bio
Przemyslaw Krehlik received M.S. and Ph.D. degrees in electronics from the UMM, Krakow, Poland, in 1988 and 1998 respectively. Since 1988 he has worked in the Institute of Electronics at UMM as an assistant in the Optoelectronics Group. His R&D activity is focused on electronic circuitry for various fiber-optic transmission systems and multilevel signalling in fiber-optic links. He was also involved in several projects concerning fiber-optic transmission of TV signals for military and broadcasting purposes.
A. WolczkoUniversity of Mining and Metalurgy (UMM), Krakow, Poland
bio
Andrzej Wolczko received his M.S. in electronics from Wroclaw Technical University in 1970. Between 1970–74 he worked as a research engineer at Polon Nuclear Equipment Plant in Krakow, where he was involved in different electronic equipment projects (dosimeters, CAMAC system). In 1974, he joined the Institute of Electronics at UMM where he was involved with research projects in high-frequency electronics and fiber optics. He earned his Ph.D. in 1982 and is the author and coauthor of several patents and scientific publications. Wolczko lectures on Optoelectronics and Data Transmissions to electronic engineering students.
Copyright
© 1999 Society of Motion Picture and Television Engineers, Inc.

Bibliographic Reference(s)

  • 1. Agrawal G.P. , Fiber-Optic Communication Systems , 2nd. Ed. , Wiley : New York , 1997 . EXTERNAL
  • 10. “Simple Better Photonics Tools,” New Focus Product Catalog , 1995/1996 . EXTERNAL
  • 11. Wilson R. Petch Ch. Colborn D. , “Designing Digital Systems,” Grass Valley , Mar. 1994 . EXTERNAL
  • 12. “A Guide to Digital Television Systems and Measurements,” Tektronix , 1993 . EXTERNAL
  • 13. Fecher K. , Digital Communications, Satellite/Earth Station Engineering , Prenticc-Hall : Englewood Cliffs, NJ , 1983 . EXTERNAL
  • 14. “CLC014 Adaptive Cable Equalizer for High-Speed Data Recovery,” Comlinear , 1995 . EXTERNAL
  • 15. Ridpath I. , “Genlinx Serial Digital Chipset—Overview,” Gennum Corp. , 1993 . EXTERNAL
  • 16. SBX1601, 1602 Data Sheet, Sony, 1991 . EXTERNAL
  • 17. SMPTE 292M, “Bit-Serial Digital Interface for High-Definition Television Systems,” proposed SMPTE standard, 1996 . EXTERNAL
  • 18. Albanese A. , “An Automatic Bias Circuit (ABC) for Injection Lasers,” BSTJ 57 : 1533 – 1544 , May-June 1978 . EXTERNAL
  • 19. Gruber J. , “Electronic Circuits for High Bit Rate Digital Fibre Optic Communication Systems,” IEEE Trans. Commun. 26 : 1088 – 1098 , July 1978 . EXTERNAL
  • 2. Hentschel Ch. , Fiber Optics Handbook , Hewlett-Packard , 1989 . EXTERNAL
  • 20. Kressel H. , Semiconductor Devices for Optical Communication , Springer-Verlag : New York , 1980 . EXTERNAL
  • 21. Andonovic I. Uttamchandani D. , Principles of Modern Optical Systems , Artech House : Norwood , 1989 . EXTERNAL
  • 3. Geusic J.E. , “Quantum Well Lasers in Telecommunications,” AT&T Technical J. 71 : 75 – 83 , Jan./Feb. 1992 . EXTERNAL
  • 4. Dixon R.W. Dutta N.K. , “Lightwave Device Technology,” AT&T Technical J. 66 : 73 – 83 , Jan./Feb. 1987 . EXTERNAL
  • 5. Lightwave Products, Optoelectronics Business Unit Product Catalog , AT&T Microelectronics , 1995 . EXTERNAL
  • 6. Mitsubishi Optical Semiconductors Products Catalog , 1986 . EXTERNAL
  • 7. OKI Laser Diode Products, Technical Brief, OKI, June 1995 . EXTERNAL
  • 8. Einarsson G. , Principles of Lightwave Communications , Wiley : New York , 1996 . EXTERNAL
  • 9. Saleh B. E. A. Teich M. C. , Fundamentals of Photonics , Wiley : New York , 1991 . EXTERNAL
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L. Sliwczynski, M. Lipinski, P. Krehlik, and A. Wolczko; Fiber-Optic Transmission of SMPTE 259M and SMPTE 292M SDI Signals, SMPTE Journal ( Volume: 108, Issue: 4, April 1999); SMPTE, 1999. Available at https://doi.org/10.5594/J15725
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L. Sliwczynski, M. Lipinski, P. Krehlik, and A. Wolczko; Fiber-Optic Transmission of SMPTE 259M and SMPTE 292M SDI Signals, SMPTE Journal ( Volume: 108, Issue: 4, April 1999); SMPTE, 1999. Available at https://doi.org/10.5594/J15725

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L. Sliwczynski, M. Lipinski, P. Krehlik, and A. Wolczko; Fiber-Optic Transmission of SMPTE 259M and SMPTE 292M SDI Signals, SMPTE Journal ( Volume: 108, Issue: 4, April 1999); SMPTE, 1999. Available at https://doi.org/10.5594/J15725
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<span class="citation">L. Sliwczynski, M. Lipinski, P. Krehlik, and A. Wolczko; <cite>Fiber-Optic Transmission of SMPTE 259M and SMPTE 292M SDI Signals</cite>, SMPTE Journal ( Volume: 108, Issue: 4, April 1999); SMPTE, 1999. Available at <a href="https://doi.org/10.5594/J15725" target="_blank" rel="noopener">https://doi.org/10.5594/J15725</a></span>

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L. Sliwczynski, M. Lipinski, P. Krehlik, and A. Wolczko; Fiber-Optic Transmission of SMPTE 259M and SMPTE 292M SDI Signals, SMPTE Journal ( Volume: 108, Issue: 4, April 1999); SMPTE, 1999
doi: 10.5594/J15725
url: https://doi.org/10.5594/J15725
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L. Sliwczynski, M. Lipinski, P. Krehlik, and A. Wolczko; <cite id="bib-10-5594-j15725">Fiber-Optic Transmission of SMPTE 259M and SMPTE 292M SDI Signals</cite>, SMPTE Journal ( Volume: 108, Issue: 4, April 1999); SMPTE, 1999
<span class="doi">10.5594/J15725</span>
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