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Design and Performance Analysis of Semiconductor Optical Amplifier for 16×10Gbps DWDM Transmission Systems


Affiliations
1 Department of Electronics Engineering, Rajasthan Technical University, India
     

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In this paper, we proposed sixteen channel dense-wavelength-divisionmultiplexing (DWDM) optical transmission system using semiconductor optical amplifiers (SOAs). The SOA amplifiers overcome the attenuation effects of transmitted signal in optical communication systems. To overcome attenuation effects, pre-, post (booster) and In-line SOAs techniques are modeled, analyzed and compared for investigating the performance of DWDM system. The proposed system is designed for 10Gbps network using non-return-tozero (NRZ) modulation format with dispersion compensation fiber (DCF) of length 14kms and a single mode fiber (SMF) of length 70kms using Optisystem7.0 simulator. Performance of designed system is explored and compared in terms of eye shape (eye-diagram), Q-factor and bit error rate (BER) by varying the input power (mw) parameter of CW laser source. It is observed that the In-line SOA amplifier provides the best performance as attenuation compensator for proposed optical transmission systems.

Keywords

Bit Error Rate, Dense Wavelength Division Multiplexing, Dispersion Compensation Fiber, In-Line Amplifier, Semiconductor Optical Amplifier.
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  • S. Parkash, A. Sharma, H. Singh and H.P. Singh, “Performance Investigation of 40Gb/s DWDM Over Free Space Optical Communication System using RZ Modulation Format”, Advances in Optical Technologies, Vol. 2016, pp. 1-8, 2016.

  • V. Bobrovs, Alsevska, S. Olonkins, L. Gegere and G. Lvanovs, “Comparative performance of Raman-SOA and Raman-EDFA Hybrid Optical Amplifiers in DWDM Transmission Systems”, International Journal of Physical Sciences, Vol. 8, No. 39, pp. 1898-1906, 2013.

  • A.H. Gnauck, L.D. Garrett, Y. Danziger, U. Levy and M. Tur, “Dispersion and Dispersion-Slope Compensation of NZDSF Over the Entire C Band using Higher-Order-Mode Fibre”, Electronics Letters, Vol. 36, No. 23, pp. 1946-1947, 2000.

  • M. Sumetsky and B.J. Eggleton, “Fiber Bragg Gratings for Dispersion Compensation in optical Communication Systems”, Proceedings of International Conference on Ultrahigh-Speed Optical Transmission Technology, pp. 277-299, 2005.

  • M.L. Meena and Raj Kumar Gupta, “Design and Comparative Performance Evaluation of Chirped FBG Dispersion Compensation with DCF Technique for DWDM Optical Transmission Systems”, Optik, Vol. 188, pp. 212-224, 2019.

  • G.P. Agrawal, “Fiber-Optic Communication Systems”, 3rd Edition, John Wiley and Sons, 2007.

  • R. Srivastava and Y.N. Singh, “Fiber Optic Loop Buffer Switch Incorporating 3R Regeneration”, Optical and Quantum Electronics, Vol. 42, No. 5, pp. 297-311, 2011.

  • S. Singh, R. Randhawa and R.S. Kaler, “Handbook on Optical Amplifiers”, Lambert Academic Publisher, 2015.

  • Deepak Malik, Kuldip Pahwa and Amit Wason, “Performance Optimization of SOA, EDFA, Raman and hybrid Optical Amplifiers in WDM Network with Reduced Channel Spacing of 50GHz”, Optik, Vol. 127, pp. 11131-11137, 2016.

  • M.N. Islam, “Raman Amplifiers for Telecommunications 2: Sub-Systems and Systems”, Springer,2004.

  • F.M. Mustafa, A.A.M. Khalaf and F.A. Elgeldawy, “MultiPumped Raman Amplifier for Long-Haul UW-WDM Optical Communication Systems: Gain Flatness and Bandwidth Enhancements”, Proceedings of 15th International Conference on Advanced Communication Technology, pp. 122-127, 2013.

  • M.J. Connely, “Semiconductor Optical Amplifiers”, Kluwer Academic Publishers, 2004.

  • S. Singh and R.S. Kaler, “Hybrid Optical Amplifiers for 64×10Gbps Dense Wavelength Division Multiplexed System”, Optik, Vol. 124, pp. 1311-1313, 2013.

  • J. Helina Rajini and S. Tamil Selvi, “Performance Analysis of Hybrid Optical Amplifier for 64×10 Gbps DWDM Systems”, Asian Journal of Applied Sciences, Vol. 8, No. 1, pp. 46-54, 2015.

  • S. Singh, R.S. Kaler and A. Singh, “Performance Evaluation of EDFA, RAMAN and SOA Optical Amplifier for WDM Systems”, Optik, Vol. 124, pp. 95-101, 2013.

  • Ramandeep Kaur, Rajneesh Randhawa and R.S. Kaler, “Performance Evaluation of Optical Amplifier for 16×10, 32×10 and 64×10 Gbps WDM System”, Optik, Vol. 124, pp. 693-700, 2013.

  • S. Singh and R.S. Kaler, “Wide-Band Optical Wavelength Converter Based on Four-Wave Mixing using Optimized Semiconductor Optical Amplifier”, Fiber and Integrated Optics, Vol. 25, No. 3, pp. 213-230, 2006.

  • S. Singh and R.S. Kaler, “Review on Recent Developments in Hybrid Optical Amplifier for Dense Wavelength Division Multiplexed System”, Optical Engineering, Vol. 54, No. 10, pp. 100901-100910, 2005.

  • Kyriakos E. Zoiros, “Special Issue on Applications of Semiconductor Optical Amplifiers”, Applied Sciences, Vol. 8, No. 7, pp. 1185-1189, 2018.

  • Nabil Elsheikh Mohamed Elmak and Amin Babiker Nabi Mustafa, “Performance Analysis of Optical Amplifiers (EDFA and SOA)”, IOSR Journal of Electronics and Communication Engineering, Vol. 12, No. 2, pp. 5-7, 2017.


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  • Design and Performance Analysis of Semiconductor Optical Amplifier for 16×10Gbps DWDM Transmission Systems

Abstract Views: 249  |  PDF Views: 1

Authors

Bhavesh Ahuja
Department of Electronics Engineering, Rajasthan Technical University, India
M. L. Meena
Department of Electronics Engineering, Rajasthan Technical University, India
R. S. Meena
Department of Electronics Engineering, Rajasthan Technical University, India

Abstract


In this paper, we proposed sixteen channel dense-wavelength-divisionmultiplexing (DWDM) optical transmission system using semiconductor optical amplifiers (SOAs). The SOA amplifiers overcome the attenuation effects of transmitted signal in optical communication systems. To overcome attenuation effects, pre-, post (booster) and In-line SOAs techniques are modeled, analyzed and compared for investigating the performance of DWDM system. The proposed system is designed for 10Gbps network using non-return-tozero (NRZ) modulation format with dispersion compensation fiber (DCF) of length 14kms and a single mode fiber (SMF) of length 70kms using Optisystem7.0 simulator. Performance of designed system is explored and compared in terms of eye shape (eye-diagram), Q-factor and bit error rate (BER) by varying the input power (mw) parameter of CW laser source. It is observed that the In-line SOA amplifier provides the best performance as attenuation compensator for proposed optical transmission systems.

Keywords


Bit Error Rate, Dense Wavelength Division Multiplexing, Dispersion Compensation Fiber, In-Line Amplifier, Semiconductor Optical Amplifier.

References