Temperature Effect on Uncooled Semiconductor Laser Diode to the Network Performance System

Abstract

Problem statement: The characteristics of a laser diode are highly dependent on the temperature of the laser chip. Thus, the effect of temperature on the network performance of uncooled semiconductor laser diode are studied by simulating its equivalent electrical circuit, developed from the rate equations that governing optical components directly into an electrical simulation framework. Approach: The simulations are carried out using circuit analysis program named OptiSPICE and OptiSystem. In this simulation study, the analysis is done based on four parameters in order to determine the quality of received signal which are; bit error rate, eye height, maximum Q factor and jitter. Results: As the temperature variance is fed to the laser diode through an external thermal noise, the result will shows that the ambient temperature of laser diode is varied with time. In this case, the performance of laser diode will decreases as the operating temperature increases or, conversely the performance increases as the operating temperature decreases. The circuit design must be simulated using a SPICE engine that incorporates both electrical and optical models, which is OptiSPICE software. It cannot be simulated using traditional software packages because they do not provide sufficient coupling between electrical and optical devices. Conclusion: We successfully analyze the effect of the temperature on laser source to the performance of optical network system.