Rohan Educational Solutions has come up with a solution to all the graduate and undergraduate student to have a Telecom Industrial exposure at the academics, with the present boom in the field of Telecom Domain with the advancement of 4G and 5G Technologies it is an mandate for every student to understand the working and importance of fiber Optic Communication
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Basic Fiber Optic Communication Trainer provides a foundation for the field of fiber optic technology. Basic Fiber Optic Communication Trainer covers the basic and advance concept in the field of Fiber Optic Communication,
Single Mode DFB Laser      Wavelenght:1550nm,      Operating Temperature: -20°to +70°      Reverse Voltage: 2V      Output Power: 0.1 to 3 mW (Variable)      Spectral Width: 0.5-1 nm      SMSR: 40dB InGaAs Photo-detector      Saturation Input Power: 10 mw      Forward Current: 10 mA      Reverse Bias: 30 V      Frequency Bandwidth: 3GHz Optical Isolator      Optical Isolator 1550nm      Insertion loss of 0.4dB      Isolation Rate of >30dB 3dB Coupler      Operating Wavelength: 1260nm – 1620nm      Coupling ratio : 50:50      Insertion loss of <1dB at each Port 3 Port Circulator      Operating Wavelength: 1260nm – 1620nm       Isolation of 15 dB       Insertion loss : 0.5-1dB Fiber Bragg Grating      Operating Wavelength: 1260nm – 1620nm      Central Frequency: 1550nm      Wavelength Deviation : +-3nm      Reflectivity: >90% 1×4 PLC splitter      Operating Wavelength: 1260nm – 1620nm      Return Loss: >50dB
List of Experiments
Numerical Aperture
Visualization of Modes in Optical Fiber
Optical Fiber Transmission loss Property and Measurement
Calculate the Bending
Loss in Optical Fiber
Measure the insertion loss of an Optical Isolator
Measure the isolation rate of an Optical Isolator
Calculate the insertion loss of Fiber Optic Coupler
Characteristics of an Optical Coupler and Splitter
Characteristics of Fiber Bragg Gratings and Circulator