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As we indicated in the introduction, Kirchhoff s current law, which we will refer to from now on as KCL, is a consequence of the conservation of charge. This fundamental principle of physics tells us that, in a volume of space, charge cannot be created or destroyed. If charges are owing through the region of interest, another way to express this principle is to say that the amount of charge entering the region is equal to the amount of charge leaving the region. A node is a single point at which we can apply the conservation of charge. Charge cannot accumulate or be destroyed at a node in a circuit. Said another way, the amount of charge entering a node must be equal to the amount of charge leaving the node. We can express this fact mathematically by saying that the sum of all currents at a node must vanish. That is, i(t) = 0 (2.1)
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i(t) < 0 Positive charges are owing in direction opposite to the arrow
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The prevalence of network-centric computing has resulted in networking capabilities being included with virtually every computer and being built in to virtually every computer operating system. Almost without exception, computer operating systems include the ability for the computer to connect with networks based on the TCP/IP suite of protocols, enabling the computer to communicate on a home network, enterprise business network, or the global Internet. Data communications is discussed in greater detail later in this chapter.
With the rapid growth of communication networks in recent years and with service devices being created using the big pipe concept, operating at the granularity of the individual wavelength loses appeal. Many wavelengths in the core of the network have the same origination and termination nodes. Therefore, it is not necessary to treat the individual wavelengths independently. Instead, groups of wavelengths or, more accurately, pieces of optical spectrum can be treated as a single entity. Several benefits can be realized when transmission systems operate with the big pipe architecture. The transmission span budget is improved because a series of filters do not have to be in place at every network node to demultiplex the wavelengths. Instead, all signals are demultiplexed to the optical band granularity, and only those being added or dropped are demultiplexed to the wavelength granularity. As with many aspects of the big pipe concept, network management of the transmission system is simplified. Instead of managing each wavelength in the network, the optical bands are managed, greatly reducing the scale of the problem. With the capacity of each WDM system reaching several Tb/s, and with many routes in the network relying on WDM, the increase in granularity is appropriate. A major obstacle to the deployment of optical cross connects is the requirement of having very large port counts. The optical-band concept virtually eliminates this issue. An all-optical cross connect with a modest number of ports can provide a tremendous amount of throughput by operating at the level of the optical band. The optical bands described fit neatly into the big pipe concept. In light of the rapid growth occurring in carrier networks, the scalability of the big pipe concept has great appeal. Carriers can continue to increase capacity while maintaining a manageable network. The increasing amount of information carried over core networks is forcing service providers to continually upgrade their networks. The deployment of WDM equipment is providing the capacity, and service providers are searching for a means to manage the large number of wavelengths that will operate in the near future. Considering that the amount of information carried on each wavelength is relatively constant, however, deploying the hottest optical or electrical-switching technology in the form of wavelength-based optical cross-connects loses its appeal in the long term. The scalable long-term solution for the network core has not changed. Signals in the core of the network must continue to be aggregated to produce high-speed connections. In today s long-haul networks, this means aggregating wavelengths. The number of wavelengths will continue to grow, but management complexity will not, as the focus shifts from managing wavelengths to managing large segments of capacity. The circuit-bonding-based big pipe concept is ideally suited to the requirements of rapidly growing packet networks and high-capacity transmission. The ability to flexibly provide new service and capacity lies in the devices that provide the aggregation.
Figure 3-1
An RFIC design consideration. For some portable wireless devices, the receiv-
Collective nouns are treated as singular when the group represented by the collective noun acts as one unit.
Communications System Design
Figure 1.13 The characteristic curves of a silicon diode.
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