Data Transmission - Washington University in St. Louisjain/cse473-05/ftp/i_3phy.pdf · Title: Data...
Transcript of Data Transmission - Washington University in St. Louisjain/cse473-05/ftp/i_3phy.pdf · Title: Data...
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3-1©2005 Raj JainCSE473sWashington University in St. Louis
Data Data TransmissionTransmission
Raj JainProfessor of CSE
Washington University in Saint LouisSaint Louis, MO 63130
These slides are available on-line at:http://www.cse.wustl.edu/~jain/cse473-05/
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3-2©2005 Raj JainCSE473sWashington University in St. Louis
OverviewOverview
� Time Domain and Frequency Domain
� Decibels
� Data vs Signal
� Attenuation, Delay Distortion, Noise, Capacity
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3-3©2005 Raj JainCSE473sWashington University in St. Louis
Transmission TerminologyTransmission Terminology� Guided Media: Wire, Fiber , coax
Unguided Media: Air, Vacuum, sea water
� Direct Link
� Point to Point vs Point to Multipoint
T R
T RT
R1 R2 R3
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3-4©2005 Raj JainCSE473sWashington University in St. Louis
Line DuplexityLine Duplexity
� Simplex: Transmit or receive, e.g., Television
� Half-Duplex: Transmit and receive alternately, e.g., Police Radio
� Full Duplex: Transmit and receive simultaneously,e.g., Telephone
T R
T/R T/R
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3-5©2005 Raj JainCSE473sWashington University in St. Louis
Analog vs Digital SignalsAnalog vs Digital Signals
� Analog:
� Digital:
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3-6©2005 Raj JainCSE473sWashington University in St. Louis
Periodic vs AperiodicPeriodic vs Aperiodic
� Periodic: Signal pattern repeats over time
� Aperiodic: Not periodic
T
S(t+T) = s(t) for all tPeriod = T
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3-7©2005 Raj JainCSE473sWashington University in St. Louis
Examples of Periodic SignalsExamples of Periodic Signals
� Sine Wave:
� Square Wave:
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3-8©2005 Raj JainCSE473sWashington University in St. Louis
Frequency, Period, and PhaseFrequency, Period, and Phase� A Sin(2πft + θ), Period T=1/f, Frequency in Hertz
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3-9©2005 Raj JainCSE473sWashington University in St. Louis
Sine WaveSine Wave
� Peak Amplitude (A): Maximum strength of signal in volts
� Frequency (f): Hertz (Hz) or cycles per second� Period = time for one repetition (T)
T = 1/f� Phase (φ): Relative position in time
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3-10©2005 Raj JainCSE473sWashington University in St. Louis
WavelengthWavelength
� Distance occupied by one cycle� Distance between two points of corresponding phase in two
consecutive cycles� Wavelength = λ� Assuming signal velocity v
� λ = vT� λf = v� c = 3*108 m/s (speed of light in free space) = 300 m/µs
DistanceAmplitude
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3-11©2005 Raj JainCSE473sWashington University in St. Louis
Time and Frequency DomainsTime and Frequency Domains
Frequency
Amplitude
Frequency
Amplitude
Frequency
Amplitude
f
3f
A
A
f 3f
A/3
A/3
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3-12©2005 Raj JainCSE473sWashington University in St. Louis
Frequency Domain ConceptsFrequency Domain Concepts� Fundamental Frequency: All other frequency
components are multiple of fundamental frequency f� Period = 1/f� Spectrum: Range of frequencies� Absolute Bandwidth: Width of the spectrum
Absolute Bandwidth = 3f-f = 2f� Effective Bandwidth: Narrow band of frequencies
containing most of the energy� DC Component: Constant or zero frequency
A+B sin (2πft+θ)
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3-13©2005 Raj JainCSE473sWashington University in St. Louis
Signal with DC ComponentSignal with DC Component
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3-14©2005 Raj JainCSE473sWashington University in St. Louis
Frequency Components of Square WaveFrequency Components of Square Wave
Freq.
Amplitude
Amplitude
Frequency
f
A
3f 5f
A/3A/5
Freq.f 3f
A/3
5f
A/5
7f
A/7
Σκ=1,3,5,� A/k sin (2πkft)
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3-15©2005 Raj JainCSE473sWashington University in St. Louis
Data vs SignalData vs Signal
Telephone
Modem
CODEC
Digital Transceiver
Analog
Digital
Data SignalAnalog
Digital
Analog
Analog
Digital
Digital
Data SignalMedium
Data
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3-16©2005 Raj JainCSE473sWashington University in St. Louis
Analog Data Example: Speech and MusicAnalog Data Example: Speech and Music
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3-17©2005 Raj JainCSE473sWashington University in St. Louis
Analog Data Example 2: TelevisionAnalog Data Example 2: Television
30 Screens/secInterlacing: Odd lines every 1/60 sand even lines every 1/60 s483 lines/screen
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3-18©2005 Raj JainCSE473sWashington University in St. Louis
Video SignalVideo Signal� USA - 483 lines scanned per frame at 30 frames per second
� 525 lines but 42 lost during vertical retrace� So 525 lines x 30 scans = 15750 lines per second
� 63.5µs per line� 11µs for retrace, so 52.5 µs per video line
� Max frequency if line alternates black and white� Horizontal resolution is about 450 lines giving 225 cycles of
wave in 52.5 µs� Max frequency of 4.2MHz
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3-19©2005 Raj JainCSE473sWashington University in St. Louis
Attenuation Attenuation and Dispersion (Delay Distortion)and Dispersion (Delay Distortion)
Distance
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3-20©2005 Raj JainCSE473sWashington University in St. Louis
Digital TransmissionDigital Transmission� Repeaters are used to regenerate digital signal� Signal attenuation is overcome� Noise is not amplified� Low cost LSI/VLSI technology� Longer distances over lower quality lines� Capacity utilization
� High bandwidth links economical� High degree of multiplexing easier with digital
techniques� Security & Privacy: Encryption
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3-21©2005 Raj JainCSE473sWashington University in St. Louis
DecibelsDecibels
� Attenuation = Log10 Pin
Pout
� Example 1: Pin = 10 mW, Pout=5 mWAttenuation = 10 log 10 (10/5) = 10 log 10 2 = 3 dB
� Example 2: Pin = 100mW, Pout=1 mWAttenuation = 10 log 10 (100/1) = 10 log 10 100 = 20 dB
Bel
PinPout
decibel� Attenuation = 10 Log10
VinVout
decibel� Attenuation = 20 Log10
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3-22©2005 Raj JainCSE473sWashington University in St. Louis
Noise Noise
� Additional signals inserted between transmitter and receiver
� Thermal Noise:� Due to thermal agitation of electrons� Uniformly distributed� White noise
� Intermodulation Noise:� Signals that are the sum and difference of original
frequencies sharing a medium
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3-23©2005 Raj JainCSE473sWashington University in St. Louis
Noise (Cont)Noise (Cont)
� Crosstalk Noise: A signal from one line is picked up by another
� Impulse Noise: � Irregular pulses or spikes
e.g., External electromagnetic interference� Short duration� High amplitude
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3-24©2005 Raj JainCSE473sWashington University in St. Louis
Channel CapacityChannel Capacity
� Capacity = Maximum data rate for a channel� Nyquist Theorem: Bandwidth = B
Data rate < 2 B� Bi-level Encoding: Data rate = 2 × Bandwidth
0
5V
� Multilevel: Data rate = 2 × Bandwidth × log 2 M
Example: M=4, Capacity = 4 × Bandwidth
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3-25©2005 Raj JainCSE473sWashington University in St. Louis
Shannon's TheoremShannon's Theorem
� Bandwidth = B HzSignal-to-noise ratio = S/N
� Maximum number of bits/sec = B log2 (1+S/N)� Example: Phone wire bandwidth = 3100 Hz
S/N = 30 dB 10 Log 10 S/N = 30
Log 10 S/N = 3S/N = 103 = 1000
Capacity = 3100 log 2 (1+1000)= 30,894 bps
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3-26©2005 Raj JainCSE473sWashington University in St. Louis
Thermal NoiseThermal Noise� Thermal Noise per Hertz = kT W/Hz� k = Boltzman’s constant = 1.38 x 10-23 Joules/Kelvin� T = Absolute Temperature (in Kelvins)� Example: 10MHz receiver at 21ºC
� Thermal Noise per Hertz = 1.38x10-23 x (21+273.15)� Thermal Noise N = 1.38x10-23 x (294.15) x 10 x 106
� Thermal Noise in dBW = 10 log10 N= 10log10(1.38x10-23)+10log10(294.15) +10 log10 (107)= -228.6 + 24.7 + 70 = -133.9 dBW
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3-27©2005 Raj JainCSE473sWashington University in St. Louis
SummarySummary
� Guided Media vs unguided media� Analog vs digital signal� 3 Important characteristics of sinusoidal signal� Relationship between Wavelength and Frequency� Attenuation vs delay distortion� Key factors affecting channel capacity
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3-28©2005 Raj JainCSE473sWashington University in St. Louis
Reading AssignmentReading Assignment
� Read Chapter 3 and Appendix 3A of Stallings 7th edition.
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3-29©2005 Raj JainCSE473sWashington University in St. Louis
HomeworkHomework
� Submit answer to exercises 3.15 (Teleprinter channel) and 3.16 (digital signaling system) of 7th edition by Stallings.