Analysis of lightwave system using negative dispersion fiber and high speed optical telemetry

Abstract

High bandwidth and fast packet processing is the need for this fast-moving communication environment. Users are in consistent need of higher data transfer with minimum delay. This research paper focuses on the simulative analysis of high data rates using optical telemetry implemented using low negative dispersion optical fiber. Low powered optical signal will be analyzed for longer transmission channels having adequate frequency magnitudes. Subsequent high-efficiency network will be realized and will be compared using similar telemetry on the lightwave system. Simple light signals will be transmitted with the help of continuous wave laser generator and then these originated signals will be merged with pulse and sequence generators for fancy output. This combined signal will be transmitted through MetroCor optical fiber and an EDFA will be present at the receiver side to provide the gain for proper analysis of the received signals. To avoid any loss in the light signal, MetroCor optical fiber will be implemented which itself is a low negative dispersion optical fiber. This fiber will replace the SMF-28 in the optical network and as a result, the need for DCB’s will be eliminated. Results based on 65 Gbps data rate having transmitting power of 0 dBm will be analyzed for high-speed communication networks.