Comparison of Different Dispersion Compensation Techniques at 100Gbps Over 120Km Using Single Mode Fiber
Ashwani Kumar1, Inder Singh2, Suman Bhattacharya3, Shalini Sharma4, R.P.Dwivedi5,  Hyoung In Lee6

1Ashwani Kumar, Includes Diploma (ECE), BE (ECE), M Tech (ECE) Currently, Assistant Professor in Shoolini University.
2Inder Singh, Assistant Professor, Department of Petroleum and Energy Studies, Dehradun.
3Suman Bhattacharya, Department of Electronics & Telecommunication (Spread Spectrum Communication).
4Shalini Sharma, Scholar pursuing, M.Tech from Shoolini University, Solan (H.P) India.
5RP Dwivedi, School of Electrical and Computer Science Engineering at Shoolini University, Solan, India.
6Dr. Hyoung In Lee, Researcher in optics in Seoul National University.

Manuscript received on 02 June 2019 | Revised Manuscript received on 10 June 2019 | Manuscript published on 30 June 2019 | PP: 3015-3021 | Volume-8 Issue-8, June 2019 | Retrieval Number: H7040068819/19©BEIESP
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Abstract: Dispersion Is One of the Principal Elements to Constrain the Advancement of The Fiber Optics to Higher Capacity and Long Transmission of Signals. This Paper Focuses on The Comparison of Dispersion Compensation Techniques (DCF, IDCFBG And UFBG) For 120Km-100Gbps System Using Single Mode Fibers. All The Results Have Been Analysed by Simulating These Techniques in Three Configurations of Pre, Post and Symmetrical Shapes. Experimentally We Have Proved That Post Compensation of DCF And Post Compensation of IDCFBG Has Exhibited the Highest Q-Factor and Least BER For the Input Powers Ranging From 1-10dbm. We Have Also Proved Post Compensation of UFBG To Be the Best When Compared with Others. Hence, In This Paper These Three Techniques Have Finally Been Compared to Demonstrate a Best Technique for Chromatic Dispersion Compensation Over a Long Distance Of 120Km With a Bit Rate Of 100Gbps.
Keyword: Bit Error Rate (Ber); Chromatic Dispersion (Cd); Dispersion; Electronic Dispersion Compensation (Edc).
Scope of the Article: Routing, Switching and Addressing Techniques.