Andere Kunden interessierten sich auch für
![All-Optical Logic Gates using Semiconductor Optical Amplifier]( "All-Optical Logic Gates using Semiconductor Optical Amplifier")
All-Optical Logic Gates using Semiconductor Optical Amplifier32,99 €![Power Supplies Of Magnetrons: Modeling, Simulation And Optimization]( "Power Supplies Of Magnetrons: Modeling, Simulation And Optimization")
Power Supplies Of Magnetrons: Modeling, Simulation And Optimization26,99 €![Study and Analysis of 2.4 GHz Low Noise Amplifier]( "Study and Analysis of 2.4 GHz Low Noise Amplifier")
Study and Analysis of 2.4 GHz Low Noise Amplifier26,99 €![Analog Design]( "Analog Design")
Analog Design32,99 €![A Detailed Notes on Basics of Operational Amplifier]( "A Detailed Notes on Basics of Operational Amplifier")
A Detailed Notes on Basics of Operational Amplifier26,99 €![Class G Headphones Amplifier]( "Class G Headphones Amplifier")
Class G Headphones Amplifier38,99 €![Current Differencing Transconductance Amplifier and their Applications]( "Current Differencing Transconductance Amplifier and their Applications")
Current Differencing Transconductance Amplifier and their Applications32,99 €
Mathematical model are required to aid in design of Semiconductor Optical Amplifier (SOA) and to predict their operational characteristics. SOAs is used to amplify signals at different wavelengths need a wideband SOA model. SOA models require accurate values for parameters such as material loss and recombination coefficients need parameter extraction using model predictions and experimental results. Mathematical model for Polarization dependent gain, noise, second and third order harmonic distortion, four waves mixing are simulated. This work is useful to the researchers who are working in research and development of optical network and Fiber Optic Communication Engineering.