S. Semmalar scite author profile

S. Semmalar

4Publications

10Citation Statements Received

10Citation Statements Given

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Sri Chandrasekharendra Saraswathi Viswa Mahavidyalaya

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Output Signal Power Analysis in Erbium-Doped Fiber Amplifier with Pump Power and Length Variation Using Various Pumping Techniques

Semmalar

Malarkkan²

2013

ISRN Electronics

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The scope of this paper is to analyze the output signal power with pump power and length variation in cascaded EDFA simulation model performance. This paper describes the simulation model of Erbium-Doped Fiber Amplifier (EDFA) of variable lengths (10 m, 50 m, and 120 m) with dual pumping techniques (dual forward pumping with two 980 nm wavelengths, dual forward and backward pumping with two 980 nm wavelengths) and Tri-pumping techniques. The simulation models consist of input source and pump power coupled by WDM coupler which gives optimized signal power in the above-mentioned simulation model. The simulation model consists of source with multiple wavelengths (1520 nm–1618 nm), pumping source with the wavelength 980 nm, isolator, and filter. The resulting models accurately represent EDFA optimized output signal power. Simulation results show that choosing careful fiber length 120 m and pump power 1 W in dual pumping provided 0.07 W optimized output signal power compared to other pumping techniques.

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Optimized gain EDFA of different lengths with an influence of pump power

Semmalar¹,

Poonkuzhali²,

Devi³

2011

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Edfa and Eycdfa Power Booster for Secured, High Speed and Multiple Wavelength Services in Optical Communication Systems Using WDM and Quad-Single Forward and Tri Backward Pumping Technique

Semmalar¹,

Malarkkan²

2021

IJEAST

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Proposed the EDFA and EYCDFA power booster (Erbium Doped Fiber Amplifier- Erbium ytterbium co doped fiber amplifier) with quad pumping for high speed and multi wavelength services in an optical communication. The proposed EDFA and EYCDFA power booster with WDM(Wavelength division multiplexing) simulated by dual forward and Backward pumping, Dual-backward pumping, Tri-single forward and dual backward pumping and Quadsingle forward and tri-backward pumping with respect to Pump power and fiber Length. The parameters Input Optical power, Output Optical power, Forward Signal power, Backward Signal power measured and determined the speed of transmission in all types of pumping methods. From that the proposed EDFA- ans EYCDFA power booster with WDM quad pumping is the best suitable for secured high speed optical telecommunication systems. The results shown in Quad pumping Output optical power is maximum 25.2dB and optimum spectral forward Signal power is 30.5dBm and very less spectral optical backward signal power of -25.4dBm with Length 5m

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Analysis of ASE NOISE Using the Simulation Model EDFA - Cascaded with EYCDFA

Semmalar

Malarkkan²

2021

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S. Semmalar

Output Signal Power Analysis in Erbium-Doped Fiber Amplifier with Pump Power and Length Variation Using Various Pumping Techniques

Optimized gain EDFA of different lengths with an influence of pump power

Edfa and Eycdfa Power Booster for Secured, High Speed and Multiple Wavelength Services in Optical Communication Systems Using WDM and Quad-Single Forward and Tri Backward Pumping Technique

Analysis of ASE NOISE Using the Simulation Model EDFA - Cascaded with EYCDFA

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