ITS323/CSS331 Media Media and Transmission Media

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

WirelessTransmission

Antennas

Propagation

Wireless Examples

Transmission Media

ITS323: Introduction to Data CommunicationsCSS331: Fundamentals of Data Communications

Sirindhorn International Institute of TechnologyThammasat University

Prepared by Steven Gordon on 3 August 2015ITS323Y15S1L03, Steve/Courses/2015/s1/its323/lectures/transmission-media.tex, r3920

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Contents

Transmission Media and Spectrum

Guided Media

Wireless Transmission

Antennas and Antenna Gain

Propagation and Path Loss

Wireless Examples

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Transmission Media

“the thing between the transmitter and receiver”

I Signal propagates from transmitter to receiver via somemedium

I Which medium should be used?I Maximise data rateI Maximise distanceI Minimise bandwidthI Minimise transmission impairmentsI Minimize cost

I Guided (wired) vs unguided (wireless)

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Signals and Spectrum

I Communication signals contain components withdifferent frequencies, spectrum of signal

I Often refer to center frequency and bandwidth of signal

bandwidth

centrelow highcutoffcutoff

I Electromagnetic spectrum is used by many applicationsI International and national authorities regulate usage of

spectrumI Aim: minimize interference between applications/users,

while allowing many applications/users

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Electromagnetic Spectrum for Communications

Twisted Pair

FM 3GSatellite

TVCoaxial Cable

Remote

Optical

100 10−3 10−8 10−11105 10−4

THz InfraredRadio Microwave X−ray GammaUltraviolet

Visible109 1012 1015 1018106103 1021100

300MHz 30PHz 30EHz300GHz 3THz3kHz

Wavelength [m]

Frequency [Hz]

ITU and IEEE bands:

2 84 12 18 271 40GHzL S C X K K K

ITU30kHz 300kHz3kHz 3MHz 30MHz 300MHz 300GHz 3THz30GHz3GHz

VLF LF HFMF UHF VHF SHF EHF THF

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Contents

Guided Media

Wireless Examples

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Electrical Cables

I Transmit electrical signals on a conductor, e.g. copperI Cable carrying electrical current radiates energy, and

can pick-up energy from other sourcesI Can cause interference on other cablesI Other sources can cause interference on the cableI Interference results in poor quality signals being received

I To minimise interference:I Keep the cable lengths shortI Keep the cables away from other sourcesI Design the cables to minimise radiation and pick-up

I Use materials to shield from interferenceI Organise multiple wires so they dont interfere with

each other

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Twisted Pair

I Two insulated copper wires arranged in spiral patternI Most commonly used and least expensive medium

I Used in telephone networks and in-buildingcommunications

I Telephone networks designed for analog signalling (butsupporting digital data)

I Also used for digital signalling

I Two varieties of twisted pair: shielded (STP) andunshielded (UTP); also multiple categories (CAT5)

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Coaxial Cable

I Two conductors, one inside the otherI Provide much more shielding from interference than

twisted pair: Higher data rates; More devices on ashared line; Longer distances

I Widely used for cable TV, as well as other audio/videocabling

I Used in long-distance telecommunications, althoughoptical fibre is more relevant now

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Optical Fibre

I Light (optical rays) is guided within glass or plasticfibres

I Used in long-distance telecommunications, as well astelephone systems, LANs, and city-wide networks

I Advantages of optical fibre over electrical cables:1. Lower loss: can transfer larger distances2. Higher bandwidth: a single fibre is equivalent to 10’s or

100’s of electrical cables3. Small size, light weight: lowers cost of installation4. Electromagnetic isolation

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Comparison of Guided Media

Electrical Cables

I Moderate data rates: 1Gb/s

I Maximum distance: 2km (twisted pair); 10km (coaxial)

I Cheapest for low data rates

I UTP: easy to install, susceptible to interference

I STP, Coaxial Cable: rigid, protection againstinterference

Optical Cables

I Very high data rates: 100Gb/s+

I Maximum distance: 40km

I Expensive equipment, but cost effective for high datarates

I Difficult to install

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Contents

Guided Media

Wireless Examples

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Wireless Transmission Model

Common wireless systems for communications include:

I Terrestrial microwave, e.g. television transmission

I Satellite microwave, e.g. IPstar

I Broadcast radio, e.g. IEEE 802.11 WiFi (wireless LAN)

I Infrared, e.g. in-home communications

Transmitter Receiver

Antenna AntennaReceiveTransmit

Signal

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Wireless Transmission Model

I Transmit electrical signal with power Pt

I Tx antenna converts to electromagentic wave;introduces a gain Gt

I Signal loses strength as it propagates; loss L

I Rx antenna converts back to electrical signal, gain Gr

I Receive signal with power Pr

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Wireless Transmission Issues

I What is the role of an antenna?

I What is antenna gain?

I How does the signal propagate in differentenvironments?

I How much power is lost when it propagates?

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Contents

Guided Media

Wireless Examples

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Antennas

I Antenna converts between electrical current andelectromagnetic waves

I Waves are within the Radio and Microwave bands of 3kHz to 300 GHz

I Antenna characteristics are same for sending or receiving

I Direction and propagation of a wave depends onantenna shape

I Isotropic antenna: power propagates in all directionsequally (spherical pattern, ideal)

I Omni-directional antenna: power propagates in alldirections on one plane (donut)

I Directional antenna: power concentrated in particulardirection

I Power output in particular direction compared to powerproduced by isotropic antenna is antenna gain [dBi]

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Example: Isotropic Antenna (2D)

I Transmit with power Pt

I Measure received power 1m away to be Pr

I Received power is same at any point equidistant fromtransmitter (black circle)

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Example: Directional Antenna (2D)

Gain = Px

I Transmit with same power Pt

I Blue shape: at each point, received power is Pr

I Measure received power 1m away to be Px

I Gain of antenna (compared to isotropic) is Px/Pr

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Antenna Patterns

Isotropic Dipole Horn

Dipole Sector

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Antenna Examples

See pictures and specifications at:www.cisco.com/c/en/us/products/collateral/

wireless/aironet-antennas-accessories/product_

data_sheet09186a008008883b.html

anden.wikipedia.org/wiki/Antenna_%28radio%29

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Antenna Gain Mathematical Model

I Relationship between effective area of antenna and itsgain:

G =4πAe

where λ is signal carrier wavelength

I Effective area is related to physical size, but differsamong antenna designs

I E.g. parabolic antenna may have effective area of 0.5×physical area where physical area is approx πr2

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Contents

Guided Media

Wireless Examples

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Wireless Propagation

I Frequency of signals affect how signal propagatesI Different frequencies impacted by water, atmospheric

noise, cosmic noise, temperature

Ground Wave signal follows contour of Earth, e.g. AM radio

Sky Wave signal reflected between ionosphere and Earth,e.g. amateur radio, international radio stations

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Wireless Propagation

Line-of-Sight signal not reflected of earth/atmosphere;antennas must be in effective line-of-sight;used for most communications

I Increased frequency, increased attenuation

I Obstacles affect signals differently

I Signals may reflect off obstacles, multiple copies of samesource signal received at different times (multipath)

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Transmission and Path Loss Model

I General model:

Pr =PtGtGr

or in dB form:

PrdB = PtdB + GtdB + GrdB − LdB

I Use mathematical or experimental models to calculate L

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Free Space Path Loss

I Ideal case assuming no obstacles, operating in vacuumand perfect antennas

I Free space path loss:

I Combined with general model (Friis transmissionequation):

Pr =PtGtGrλ

(4πd)2

I Other models: Okumura-Hata (urban, suburban);Longley-Rice (TV broadcast); Log-distance (indoor)

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Example of Path Loss

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Contents

Guided Media

Wireless Examples

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Satellite Communications

I Applications: TV broadcast, remote/marinecommunications, positioning, private data networks,Internet

I Configuration: point-to-multipoint; point-to-point

I Orbits: geostationary (GEO, 36000km), low earth(LEO, 100’s km), . . .

I Antennas: parabolic (dish), metre to 10’s of metres

I Frequency bands: C, Ka, Ku bands

I See example of IPStar

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Terrestrial Wireless

I Applications: long distance links, TV broadcast,AM/FM, Internet

I Configuration: point-to-point; point-to-multipointI Example: IEEE 802.16 (WiMax)

I 11 GHz, 10-20 Mb/s, 10-20 km line of sight

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Mobile Phones

I Applications: personal communications, Internet,monitoring

I Frequency bands: 2.1 GHz, 1.8/1.9 GHz, 850/900MHz; licensed

I Bandwidth: 5 MHz for 3G

I Distance: 100’s of metres to kms

I Data Rates: 100’s kb/s to 10’s Mb/s

ITS323/CSS331

TransmissionMedia

Media andSpectrum

Guided Media

Antennas

Propagation

Wireless Examples

Local Networks

I Applications: local area network, connect portabledevices

I Standards: IEEE 802.11 (WiFi) a/b/g/n/ac/. . . ;Bluetooth

I Frequency bands: 2.4 GHz and 5.2–5.7 GHz; unlicensed

I Bandwidth: 20 MHz channels (increased for optionalhigher data rates)

I Distance: metres to 10’s of metres

I Data Rates: 10’s Mb/s to 100’s Mb/s

ITS323/CSS331 Media Media and Transmission Media

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