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Chapter Four Networking Media
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Chapter Objectives Explain concepts related to data transmission and noise Describe the physical characteristics of coaxial cable, STP, UTP, and fiber-optic media Explain the benefits and limitations of different networking media
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Chapter Objectives Identify the best practices for cabling buildings and work areas Describe the methods of transmitting data through the atmosphere Identify the network media best suited to specific LAN environments
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Data Transmission Information can be transmitted via one of two methods –Analog –Digital Amplitude –A measure of a signal’s strength
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Analog Signal Uses variable voltage to create continuous waves, resulting in an inexact transmission FIGURE 4-1 Example of an analog signal
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Digital Signal Digital pulses can have a value of 1 or 0 FIGURE 4-2 Example of a digital signal
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Data Transmission Binary system encodes using 1s and 0s Bits can only have a value of either 1 or 0 Eight bits together form a byte
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Data Transmission Frequency –Number of times a signal’s amplitude changes over a period of time –Expressed in Hertz (Hz) Noise –Interference from sources near network cabling
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Data Transmission Attenuate –Loss of signal strength as transmission travels away from source FIGURE 4-3 Analog signal distorted by noise and then amplified
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Data Transmission Regeneration –Process of retransmitting a digital signal Repeater –Device used to regenerate a signal Figure 4-4 Digital signal distorted by noise and then repeated
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Data Transmission Modem –Name reflects function as mod ulator/ dem odulator –Modulates analog signals into digital sounds at the transmitting end for transmission over telephone lines –Demodulates digital signals into analog signals at the receiving end
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Media Characteristics Throughput and bandwidth Cost Size and scalability Connectors Noise immunity
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Throughput and Bandwidth Throughput is the amount of data the medium can transmit during a given period of time –Also called capacity Bandwidth measures the difference between the highest and lowest frequencies a media can transmit –Range of frequencies is directly related to throughput
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Throughput and Bandwidth FIGURE 4-5 A comparison of two digital frequencies
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Cost Cost of installation Cost of new infrastructure versus reusing existing infrastructure Cost of maintenance and support Cost of a lower transmission rate affecting productivity Cost of obsolescence
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Size and Scalability Specifications determining size and scalability –Maximum nodes per segment (dependent on attenuation ) –Maximum segment length –Maximum network length Latency is the delay between the transmission of a signal and its receipt
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Connectors and Noise Immunity Connector –Connects wire to network device Noise Immunity –Electromagnetic Interference (EMI) –Radio Frequency Interference (RFI) –Conduits can protect cabling
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Network Cabling Baseband and Broadband Transmission –In baseband transmission, digital signals are sent through direct current (DC) pulses applied to the wire –In broadband transmission, signals are modulated as radio frequency (RF) analog pulses that use different frequency ranges
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Network Cabling Coaxial Cable –Central copper core surrounded by an insulator –Braiding insulates coaxial cable –Sheath is the outer cover of a cable –Foundation for Ethernet network in the 1980s FIGURE 4-6 Coaxial cable
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Network Cabling TABLE 4-1 Types of coaxial cable
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Network Cabling Thicknet (10Base5) –Thicknet Also called thickwire Ethernet Rigid coaxial cable used for original Ethernet networks –IEEE designates Thicknet as 10Base5 Ethernet
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Network Cabling Thicknet (10Base5) –Throughput –Cost –Connector –Noise immunity –Size and scalability FIGURE 4-7 Thicknet cable transceiver with detail of a vampire tap piercing the core
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Network Cabling Thinnet (10Base2) Also known as thin Ethernet, was most popular medium for Ethernet LANs in the 1980s –Throughput –Cost –Size and scalability –Connector –Noise Immunity FIGURE 4-8 Thinnet BNC connectors
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Network Cabling Signal Bounce –Caused by improper termination –Travels endlessly between two ends of network –Prevents new signals from getting through FIGURE 4-9 Typical coaxial network using a bus topology
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Network Cabling Twisted-Pair (TP) Cable –Similar to telephone wiring –Consists of color-coded pairs of insulated copper wires twisted around each other and encased in plastic coating –Twists help reduce effects of crosstalk, interference caused by signals traveling on nearby wire pairs infringing on another pair’s signals –Alien Crosstalk occurs when signals from adjacent cables interfere with another cable’s transmission
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Network Cabling Twist Ratio –Number of twists per meter or foot in a twisted-pair cable FIGURE 4-10 Twisted-pair cable
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Network Cabling Shielded Twisted-Pair (STP) –Twisted wire pairs are individually insulated and surrounded by shielding FIGURE 4-11 STP cable
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Network Cabling Unshielded Twisted-Pair –Consists of one or more insulated wire pairs encased in a plastic sheath –Does not contain additional shielding FIGURE 4-12 UTP cable
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Network Cabling To manage network cabling, it’s necessary to be familiar with standards used on modern networks, particularly Category 3 (CAT3) and Category 5 (CAT5) Figure 4-13 CAT5 UTP cable
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Network Cabling STP and UTP –Throughput –Cost –Connector –Noise immunity –Size and scalability FIGURE 4-14 RJ-45 connector, used by both STP and UTP
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Network Cabling Fiber-Optic Cable –Contains one or several glass fibers at its core –Cladding is the glass shield around the core FIGURE 4-15 Fiber-optic cable
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Network Cabling Single-Mode Fiber –Carries single frequency of light to transmit data Multimode Fiber –Carries many frequencies of light over a single or many fibers FIGURE 4-16 Single-mode and multimode fiber-optic cables
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Network Cabling Fiber-Optic Cable –Throughput –Cost –Connector –Noise immunity –Size and scalability FIGURE 4-17 SMA fiber connector
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