DWDM

Chapter 4.9.4 - Access DWDM Systems and First/Last Mile

4.9.4 Access DWDM Systems and First/Last Mile

DWDM systems are also applicable to access networks (FTTx), as described in Chapter 3. In this case, the DWDM access system is connected to a small or medium access Metro OADM (Fig. 4.55). In this case, the access system receives the drop,

04_09_DWDM-10.jpg

Figure 4.54 A minimal DWDM 2-fiber OADM Metro node.

04_09_DWDM-11.jpg

Figure 4.55 An access DWDM OADM node.

and it demultiplexes the signal of the drop to lower bit rates, which are then fed into multimode fibers to feed FTTx plants. Thus, if the drop is 2.5 Gb/s and the rate at each wavelength in the multimode fiber is DS3, the number of wavelengths is about 40 plus some additional for maintenance; similarly, if OC-3 rates are used, then the number of wavelengths is about 20 plus maintenance channels. Multimode fiber on the access site

04_09_DWDM-12.jpg

Figure 4.56 A minimal DWDM OADM Metro node.

is preferred because the access fiber length is short. In addition, transmitters (lasers) and receivers are inexpensive and coarse; dispersion and polarization compensation is not required (because of fiber short lengths); and optical amplification, if needed, is achieved with low-cost SOAs. Moreover, optical components made with special plastics, polymers, and glasses are applicable for cost-reduction purposes.

If we assume that one wavelength at 2.5 Gb/s is dropped off at an access node and that each home site requires 288 Kb/s (i.e., equivalent to two ISDN lines), then more than 8,600 homes can be serviced at the same time. For an average of 3 persons per home, a 2.5 Gb/s drop can service a community of more than 25,000 people. Similarly, if the access is in an enterprise environment, then a 2.5 Gb/s drop can service more than 17,000 equivalent ISDN lines, or two 1 GbE.

These calculations are conservative because not every home requires 288 Kb/s and not every desk has an ISDN line. However, it demonstrates two key points: first, 2.5 Gb/s in access is plenty of bandwidth to satisfy the home of the present and of the future; second, access nodes must satisfy a multiplicity of needs simultaneously, such as access to the home and small enterprises, and thus they demultiplex the 2.5 Gb/s to smaller rates, from DS1 to OC-12, and to 1 GbE (Fig. 4.56).

Table 4.9 lists the desired characteristics of long-haul, Metro, and access networks.

04_10_DWDM-1.jpg

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