Introduction To Dense Wave Division Multiplexing (DWDM)
Topic: Introduction to Dense Wave Division Multiplexing (DWDM)
Abstract
This paper covers the how the need for Wave Division Multiplexing (WDM) and Dense WDM became essential and the basic difference between WDM and DWDM. Alternatives to DWDM are explored including Time Division Multiplexing (TDM) and Optical TDM (OTDM). An example of the difference between TDM and WDM is shown in a detailed example. The major components of a WDM system are explored. A few vendor products providing DWDM, the major features of each product, and the product capacities are compared. This paper concludes with some potential deficiencies of a DWDM system.
Introduction
The Need For Fiber
The first generation optical networks, circa 1960, used single wavelength transmission and electrical-based switches for routing and processing. By using electrical switches, the optical signal must be converted to an equivalent electrical signal, processed by the electrical-based switches, and converted back to an optical signal. This significantly slowed down the otherwise optical network, as the transmission along a particular logical path is as fast as the slowest link.
If you think of a road between two points, imagine the road surface is made of different materials. At some points, the road
wavelength, optical, dwdm, wavelengths, fiber, signal, network, conversion, nm, converters, siemens, networks, gbps, figure, using, ols, different, capacity, amplifier, tbps, sycamore, sn10000, several, one, lucent, generation, data, c-band, transxpress, time, technology, same, range, products, optisphere
