MULTIPLEXED COMMUNICATION

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MULTIPLEXING OUTSIDE THE SWITCH

As signals propagate away from the switch, they can be multiplexed onto increasingly higher-capacity facilities. As the capacity of facilities increases, the transmission medium can also change — for example, from metallic to fiber to microwave and back again.

To understand multiplexing outside the switch, it may be helpful to study the process in the following stages.

1.Multiplexing onto T1 trunks

2.Compressing the signal

3.Altering channel assignments on T1 trunks

4.Getting the signal ready for the central office

5.Changing the transmission medium from metallic to fiber-optic

6.Multiplexing with microwave

Each stage represents a multiplexing point, a transmission medium change point, or both. The sequence in which the stages are shown approximates the order in which transformation or multiplexing can occur, although this may vary among installations. (See figures 1-9and 1-10for some possible multiplexing configurations.)

Regardless of the type of multiplexing and transmission media you choose to implement, however, when you route transmissions through the network, always remember to maintain compatibility between both ends of the connection. The options chosen on the originating DS1 port must agree with those set on the destination port. In turn, the options chosen on intermediate multiplexers must generally agree with the options chosen for the DS1 ports. One exception to this rule is the set of framing conventions for intermediate multiplexers. With framing, the framing convention used at the origin and destination must agree, but the framing used at intermediate multiplexers may differ from these endpoints. For example, if bit multiplexing is used at the beginning of connection, bit demultiplexing must be used at the end of the connection. If you select D4 framing for a trunk, you must set the receiving end for D4 framing, although you may choose ESF framing for intermediate multiplexers (D4 to ESF to ESF to D4).

Multiplexing onto T1 Trunks

This stage in multiplexing occurs at the DS1 port on the System 75, System 85, and DEFINITY Generic 1 and Generic 2 communications systems. Depending upon how the DS1 port is administered, framing over the T1 trunk may be D4 or ESF; signaling may be robbed-bit or 24th-channel; and the line coding may be ZCS or B8ZS.

Multiplexing onto T1 trunks occurs at a D4 channel bank for the DIMENSION or for analog trunks on a digital switch. Through byte interleaving, the D4 channel bank can multiplex signals for up to 48 analog trunks onto two T1 trunks. T1 trunks originating at D4 channel banks have D4 framing with robbed-bit signaling and ZCS line coding. Therefore, unless office channel unit (OCU) data-port cards are available on the D4 unit, T1 lines originating at D4 channel banks are used to carry voice or voice-grade data only.

OCU data-port cards allow you to access AT&T’s DATAPHONE Digital Service (DDS) from a T1 trunk originating at a D4 channel bank. With this capability, terminal devices, cluster controllers, and hosts

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AT&T 7100 series, 7500 series, 2500 series, 7200 series manual Multiplexing Outside the Switch, Multiplexing onto T1 Trunks