network operations & administration cs 4592 lecture 9
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Network Operations & administration CS 4592 Lecture 9. Instructor: Ibrahim Tariq. TRANSMISSION MODES. - PowerPoint PPT PresentationTRANSCRIPT
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Network Operations & administration CS 4592
Lecture 9
Instructor: Ibrahim Tariq
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4.2
TRANSMISSION MODES
The transmission of binary data across a link can be accomplished in either parallel or serial mode. In parallel mode, multiple bits are sent with each clock tick. In serial mode, 1 bit is sent with each clock tick. While there is only one way to send parallel data, there are three subclasses of serial transmission: asynchronous, synchronous, and isochronous.
Parallel TransmissionSerial Transmission
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Data Communication & Networks, Summer 2009
3
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4.4
Parallel transmission
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4.5
Serial transmission
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4.6
In asynchronous transmission, we send 1 start bit (0) at the beginning and 1 or more stop bits (1s) at the end of each
byte. There may be a gap between each byte.
Note
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4.7
Asynchronous here means “asynchronous at the byte level,”
but the bits are still synchronized; their durations are the same.
Note
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4.8
Asynchronous transmission
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4.9
In synchronous transmission, we send bits one after another without start or
stop bits or gaps. It is the responsibility of the receiver to group the bits.
Note
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4.10
Synchronous transmission
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4.11
ANALOG-TO-DIGITAL CONVERSION
Digital signal is superior to an analog signal. The tendency today is to change an analog signal to digital data. pulse code modulation
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4.12
Components of PCM encoder
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4.13
Figure 4.22 Three different sampling methods for PCM
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4.14
According to the Nyquist theorem, the sampling rate must be
at least 2 times the highest frequency contained in the signal.
Note
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4.15
Figure 4.24 Recovery of a sampled sine wave for different sampling rates
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4.16
Figure 4.26 Quantization and encoding of a sampled signal
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5.17
DIGITAL-TO-ANALOG CONVERSION
Digital-to-analog conversion is the process of changing one of the characteristics of an analog signal based on the information in digital data.
Aspects of Digital-to-Analog ConversionAmplitude Shift KeyingFrequency Shift KeyingPhase Shift KeyingQuadrature Amplitude Modulation
Topics discussed in this section:
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5.18
Digital-to-analog conversion
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5.19
Types of digital-to-analog conversion
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20
Bit rate is the number of bits per second. Baud rate is the number of signal
elements per second.
In the analog transmission of digital data, the baud rate is less than
or equal to the bit rate.
Note
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5.21
An analog signal carries 4 bits per signal element. If 1000 signal elements are sent per second, find the bit rate.
SolutionIn this case, r = 4, S = 1000, and N is unknown. We can find the value of N from
Example 5.1
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22
Binary Amplitude Shift Keying
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5.23
Binary amplitude shift keying --On Off Keying (OOK)
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5.24
Implementation of binary ASK
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Binary Frequency Shift Keying
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5.26
Binary frequency shift keying
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5.27
Figure 5.7 Bandwidth of MFSK used in Example 5.6
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5.28
Binary phase shift keying
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Binary Phase Shift Keying
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5.30
Implementation of BASK
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5.31
Figure 5.11 QPSK and its implementation
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5.32
Concept of a constellation diagram
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5.33
Show the constellation diagrams for an ASK (OOK), BPSK, and QPSK signals.
SolutionFigure 5.13 shows the three constellation diagrams.
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5.34
Figure 5.13 Three constellation diagrams
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5.35
Quadrature amplitude modulation is a combination of ASK and PSK.
Note
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5.36
Figure 5.14 Constellation diagrams for some QAMs