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Figure 3-22 A remote loop carrier terminal.
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trunk line between the remote terminal and the central office terminal go a long way toward solving this problem. There is still quite a ways to go, however. Typically, as long as a customer is within 12,000 feet from a central office, they will be given a dedicated connection to the network, as shown in Figure 3-23. If they are farther than 12,000 feet from the CO, however, they will normally be connected to a subscriber loop carrier system of one type or another.
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Figure 3-23 Carrier Serving Area (CSA) architecture.
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Telephony
3
Either way, the customer s local loop, whether as a standalone pair of wires or as a timeslot on a carrier system, makes its way over the physical infrastructure on its way to the network. It may be aerial, as shown in Figure 3-24, or underground, as shown in Figure 3-25. If it has to
Figure 3-24 Aerial plant. Telephony is the lowest set of facilities on the pole.
Figure 3-25 Installation of underground plant.
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Telephony
Telephony
travel a significant distance, it may encounter a load coil along the way, which is a device that tunes the local loop to the range of frequencies required for voice transport and extends the distance over which the signals can travel. A load pot, shown in Figure 3-26, comprises multiple load coils and performs loading for all the cable pairs in a cable that require it. It may also encounter a repeater if it is a digital loop carrier; the repeater receives the incoming signal, now weakened and noisy from the distance it has traveled, and reconstructs it, regenerating it before sending it on its way. A repeater, sometimes called a regenerator (and sometimes wrongly called an amplifier), is shown in Figure 3-27. In this photograph,
Figure 3-26 A load pot containing load coils.
Figure 3-27 Dick Pecor with regenerator housing.
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Telephony
3
Dick Pecor models the latest in regenerative repeater environmental cases. One last item of interest: in spite of the fact that we call them telephone poles, the wooden poles that support telephone cables are in fact shared among telephone, power, and cable providers, as shown in Figure 3-28. Telephony plant is the lowest, followed by cable. Power is the highest, high enough that a technician working on a phone or cable problem could not accidentally touch the open power conductors. Normally, the telephone company owns the pole and leases space on it to other utilities. As a cable approaches the central office, its pairs are often combined with those of other approaching cables in a splice case (see Figure 3-29) to create a larger cable. For example, four 250-pair cables may be combined to create a 1,200-pair cable, which in turn may be combined with others to create a 3,600-pair cable that enters the central office. Once inside the office, the cables are broken out for distribution. This is done in the cable
Figure 3-28 Shared pole for aerial plant.
Figure 3-29 Splice cases (two on left, one on right).
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Telephony
Telephony
Figure 3-30 In the cable vault, the large cables shown on the left are broken down into the smaller cables on the right for distribution throughout the office.
vault; an example is shown in Figure 3-30. The large cable on the left side of the splice case is broken down into the collection of smaller cables exiting on the right.
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