NAME: Tirza Hardita NPM: A SIMULATION TOOLS TO AID THE DESIGN OF DWDM NETWORK
Background DWDM is multiplexing technology in fiber optic used occasionally for long distance data transmission. Needed simulation to find total losses that got in DWDM transmission. Needed simulation to make easy calculation amplifier in DWDM.
Scope of The Research The problems that be discussed is limited to design simulation power budget to calculate the total losses and number of amplifiers required by DWDM transmission using GUI MATLAB program.
Research Objectives To facilitate calculate total losses in transmission lines. To facilitate calculate number of amplifiers needed in transmission line. To prove the best parameter in DWDM transmission.
Methodology of The Research Study literature. Design simulation with program MATLAB based on GUI. Coding process to produce appropriate simulation with purpose. Final step is testing simulation that has made.
Flowchart
Display of Simulation Main Menu Menu Help
Simulation Power Budget Simulation Fiber with Amplifier
Simulation Power Budget Minimum Specification Details
Result and Analysis Simulation Power Budget Total Losses = (distance *attenuation) +connector loss + splice loss = (250 * 0.3) = 76.6 dB PRx = PTX - Total Losses + Safety Margin = 8 dBm dB + 3 dB = dBm LMax = FL + (PRx - Pmin / α ) = ( ) = km
Simulation Fiber Optic With Amplifier PRx = PTX + (Gain Amp – Gain ASE) - Total Losses + Safety Margin = 8 dBm + (25-3) dB dB+3dB = dBm Δ P = PRx - Pmin = (-25) = dBm N = Δ P / (GAmp-GASE) = -40.6/22 = | | = 2 amplifiers LMax = FL + (PRx - Pmin / α ) = :33 = km Options On Popup menuInput Type of Amplifier : EDFA Gain Amplifier : 25 dB Gain ASE : 3 dB Length of Fiber : 250 Km Power Transmitter : 8 dBm Power Minimum : -25 dBm Safety Margin : 3 dB Attenuation : 0.3 dB/Km Total Losses : 76.6 dB
Simulation Power Budget Minimum Total Losses TL1 = (jarak1 * 0.4) + conlos + splicelossA = (300 * 0.4) + (2* 0.5) + (1 * 0.1) = dB TL2 = (jarak1 * 0.4) + conlos + splicelossB = (300 * 0.4) + (2 * 0.5) + (1 * 0.5) = dB TL3 = (jarak1 * 0.3) + conlos + splicelossA = (300 * 0.3) + (2 * 0.5) + (1 * 0.1) = 91.1 dB TL4 = (jarak1 * 0.3) + conlos + splicelossB = (300 * 0.3) + (2 * 0.5) + (1 * 0.5) = 91.5 dB Power Receiver PRa = Ptrans - (TLA +30) + (sm +30) = 8 dBm - ( ) dBm + 33 dBm = DBm Maximum Length LM1 = flA + (PRa-30) - (PIN-30) / attA = ( ) - (-25-30) / 0.3 = km LM2 = flA + (PRa-30) - (APD-30) / attA = ( ) - (-34-30) / 0.3 = km
Simulation Specification Details
CONCLUSIONS This program simulation can be used to facilitate calculating the value of power budget that will be generated. Results of the simulation are same to the mathematics calculation. DWDM better use wavelength 1550nm and amplifier EDFA because has a small attenuation and gain of EDFA bigger than gain Raman amplifier. According to existing theory, transmission long haul APD better than PIN because has a great sensitivities and can accommodate the wider bandwidth.
Suggestion To generate a simulation that much more complete and accurate to the real condition, it would require a more comprehensive type of parameters and has a predetermined value by the IEEE or ITU-T.