Download - Lecture 3 transmission media
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Transmission Media
Hemang KothariAssistant Professor
Computer Engineering Department MEFGI, Rajkot.
Email: [email protected]
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Media
• Basic function of media – carry flow of information in form of bits through a LAN• In a copper based network, bits will be electrical signals• In a fiber based network, bits will be light pulses• Media considered to be Layer 1 component of a LAN
• Physical path between transmitter and receiver• Wired and Wireless• Communication is in the form of electromagnetic waves• Characteristics and quality of data transmission are determined by
characteristics of medium and signal• In wired media, medium characteristics is more important, whereas in
wireless media, signal characteristics is more important
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Transmission media
Guided Unguided
Twisted-paircable
Coaxialcable
Fiber-opticcable
• Conducted or guided media• use a conductor such as a wire or a fiber optic cable to
move the signal from sender to receiver• Wireless or unguided media
• use radio waves of different frequencies and do not need a wire or cable conductor to transmit signals
Classes of Transmission Media
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Wire Conductors• Wire types: single conductor, twisted pair, & shielded
multiconductor bundles.• Large installed base.• Reasonable cost.• Relatively low bandwidth, however, recent LAN speeds
in the 100 Mbps range have been achieved.• Susceptible to external interference.• Shielding can reduce external interference.• Can transmit both analog and digital signals. Amplifier
required every 5 to 6 km for analog signals. For digital signals, repeaters required every 2 to 3 km.
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Wired - Twisted Pair• The oldest, least expensive, and most commonly used
media
• Pair of insulated wires twisted together to reduce susceptibility to interference : ex) capacitive coupling, crosstalk
• Up to 250 kHz analog and few Mbps digital signaling ( for long-distance point-to-point signaling)
• Need repeater every 2-3 km (digital), and amplifier every 5-6 km (analog)
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• Consists of two insulated copper wires arranged in a regular spiral pattern to minimize the electromagnetic interference between adjacent pairs
• Often used at customer facilities and also over distances to carry voice as well as data communications• Low frequency transmission medium• Telephone (subscriber loop: between house and local exchange)• High-speed (10 - 100 Mbps) LAN :
• token ring, fast - Ethernet
Twisted Pair
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Types of Twisted Pair
• STP (shielded twisted pair)• the pair is wrapped with metallic foil or braid to insulate
the pair from electromagnetic interference
• UTP (unshielded twisted pair)• each wire is insulated with plastic wrap, but the pair is
encased in an outer covering
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Ratings of Twisted Pair• Category 3
• UTP cables and associated connecting hardware whose transmission characteristics are specified up to 16 MHZ.
• data rates of up to 16mbps are achievable• Category 4
• UTP cables and associated connecting hardware whose transmission characteristics are specified up to 20 MHz.
• Category 5• UTP cables and associated connecting hardware whose transmission characteristics are
specified up to 100 MHz.• data rates of up to 100mbps are achievable• more tightly twisted than Category 3 cables• more expensive, but better performance
• Category 5 enhanced, Cat 6, cat 7• Fast and giga-ethernet
• STP• More expensive, harder to work with
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Twisted Pair Advantages
• Advantages• Inexpensive and readily available
• Flexible and light weight
• Easy to work with and install
• Disvantages • Susceptibility to interference and noise
• Attenuation problem• For analog, repeaters needed every 5-6km
• For digital, repeaters needed every 2-3km
• Relatively low bandwidth (MHz)
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Twisted-Pair Cable
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Effect of Noise on Parallel Lines
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Noise on Twisted-Pair Lines
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Unshielded Twisted-Pair Cable
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Shielded Twisted-Pair Cable
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Wired Transmission Media
• Coaxial Cable • Most versatile medium => LANs, Cable TV, Long-distance telephones, VCR-to-TV
connections • Noise immunity is good• Very high channel capacity => few 100 MHz / few 100 Mbps • Need repeater/amplifier every few kilometer or so (about the same as
with twisted pair)• Has an inner conductor surrounded by a braided mesh• Both conductors share a common center axial, hence the term “co-
axial”
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Coaxial cable• Signal and ground wire
• Solid center conductor running coaxially inside a solid (usually braided) outer circular conductor.
• Center conductor is shielded from external interference signals.
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Properties of coaxial cable• Better shielding allows for longer cables and higher transfer rates.• 100 m cables
• 1 to 2 Gbps feasible (modulation used)• 10 Mbps typical
• Higher bandwidth• 400 to 600Mhz• up to 10,800 voice conversations
• Can be tapped easily: stations easily added (pros and cons)• Much less susceptible to interference than twisted pair• Used for long haul routes by Phone Co.
• Mostly replaced now by optical fiber.• High attenuation rate makes it expensive over long distance• Bulky
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Wired Transmission Media
• Optical Fiber• Flexible, thin (few to few hundred m), very pure
glass/plastic fiber capable of conducting optical rays • Extremely high bandwidth : capable of 2 Gbps • Very high noise immunity, resistant to electromagnetic
interference • Does not radiate energy/cause interference• Very light• Need repeaters only 10’s or 100 km apart• Very difficult to tap : Better security but multipoint not easy• Require a light source with injection laser diode (ILD) or
light-emitting diodes (LED)
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Wired Transmission Media
• Optical Fiber (Cont’d)• Need optical-electrical interface (more expensive than
electrical interface)
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Fiber Optic
Advantages• greater capacity (bandwidth Gbps)• smaller size and lighter weight• lower attenuation• immunity to environmental interference• highly secure due to tap difficulty and lack of signal radiationDisvantages• expensive over short distance• requires highly skilled installers• adding additional nodes is difficult
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Wireless (Unguided Media) Transmission
• transmission and reception are achieved by means of an antenna
• directional• transmitting antenna puts out focused beam
• transmitter and receiver must be aligned
• omnidirectional• signal spreads out in all directions
• can be received by many antennas
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Atmospheric Transmission Media
• Infrared Transmission • Infrared networks use infrared light signals to transmit
data
• Direct infrared transmission depends on transmitter and receiver remaining within line of sight
• In indirect infrared transmission, signals can bounce off of walls, ceilings, and any other objects in their path
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Atmospheric Transmission Media
• RF Transmission• Radio frequency (RF) transmission relies on
signals broadcast over specific frequencies• Narrowband concentrates significant RF energy at
a single frequency• Spread spectrum uses lower-level signals
distributed over several frequencies simultaneously
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Infrared
• For short-range communication
• Remote controls for TVs, VCRs and stereos
• IRD port
• Indoor wireless LANs
• Do not pass through solid walls
• Better security and no interference (with a similar system in adjacent rooms)
• No government license is needed
• Fairly low bandwidth (4 Mbps)
Wireless Transmission
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Radio Transmission
• Radio waves• Easy to generate, travel long distances, and penetrate buildings
easily.• Omnidirectional.• Low frequencies
• Pass through obstacles well,
• High frequencies• Travel in straight lines and bounce off obstacles.• Absorbed by rain.
• Subject to electrical interference
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Microwave transmission
• Microwave waves• Travel in straight lines and thus can be narrowly focused.
• Easy to avoid interference with other microwaves.
• Parabolic antenna is used to concentrate the energy (improves SNR).
• More popular before fiber.
• Waves do not pass through buildings.
• Multiple towers used as repeaters.
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Satellite Microwave• Satellite is relay station• Satellite receives on one frequency, amplifies or repeats
signal and transmits on another frequency• Requires geo-stationary orbit
• Height of 35,784km• Optimum transmission in 1 - 10 GHz range; • Bandwidth of 100’s MHz• Significant propagation delay (270 ms)• Application: Television, long distance telephone, Private
business networks
Wireless Transmission
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dish dish
uplink station downlink station
satellitetransponder
22,300 miles
Satellite Transmission Process
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Satellite Transmission Applications
• television distribution• a network provides programming from a central location
• direct broadcast satellite (DBS)
• long-distance telephone transmission• high-usage international trunks
• private business networks