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4. TRANSMISI DIGITAL

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Page 1: BAB 4 Transmisi Digital

4. TRANSMISI DIGITAL

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Transmisi Digital

• Karakteristik • Pola-pola penyandian kanal (Line

Coding Schemes)• Beberapa pola penyandian yang lain

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Penyandian kanal (Line coding)

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Sinyal versus aras data (data level)

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Komponen DC

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Contoh 1

• Suatu sinyal memiliki dua lever data dengan durasi 1 ms. Dapat dihitung laju pulsa (pulse rate) dan laju bit (bit rate) sebagai berikut:

• Penyelesaian:Pulse Rate = 1/ 10-3= 1000 pulses/sPulse Rate = 1/ 10-3= 1000 pulses/sBit Rate = Pulse Rate x log2 L = 1000 x log2 2 Bit Rate = Pulse Rate x log2 L = 1000 x log2 2

= 1000 bps= 1000 bps

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Contoh 2

• A signal has four data levels with a pulse duration of 1 ms. We calculate the pulse rate and bit rate as follows

• PenyelesaianPulse Rate = = 1000 pulses/sPulse Rate = = 1000 pulses/sBit Rate = PulseRate x log2 L = 1000 x log2 4 = Bit Rate = PulseRate x log2 L = 1000 x log2 4 =

2000 bps2000 bps

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Lack of synchronization

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Contoh 3

In a digital transmission, the receiver clock is 0.1 percent faster than the sender clock. How many extra bits per second does the receiver receive if the data rate is 1 Kbps? How many if the data rate is 1 Mbps?

• Penyelesaian:

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• At 1 Kbps:• 1000 bits sent 1001 bits received1

extra bps• At 1 Mbps: • 1,000,000 bits sent 1,001,000 bits

received1000 extra bps

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Line coding schemes

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Unipolar encoding uses only one voltage level.

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Unipolar encoding

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Polar encoding uses two voltage levels Polar encoding uses two voltage levels (positive and negative).(positive and negative).

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Types of polar encoding

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• In NRZ-L the level of the signal is dependent In NRZ-L the level of the signal is dependent upon the state of the bit.upon the state of the bit.

In NRZ-I the signal is inverted if a 1 is In NRZ-I the signal is inverted if a 1 is encountered.encountered.

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NRZ-L and NRZ-I encoding

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RZ encoding

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A good encoded digital signal must A good encoded digital signal must contain a provision for contain a provision for

synchronization.synchronization.

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In Manchester encoding, the transition at In Manchester encoding, the transition at the middle of the bit is used for both the middle of the bit is used for both

synchronization and bit representation.synchronization and bit representation.

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Differential Manchester encoding

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In differential Manchester encoding, the In differential Manchester encoding, the transition at the middle of the bit is transition at the middle of the bit is

used only for synchronization. used only for synchronization. The bit representation is defined by the The bit representation is defined by the

inversion or noninversion at the inversion or noninversion at the beginning of the bit.beginning of the bit.

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• In bipolar encoding, we use three In bipolar encoding, we use three levels: positive, zero, levels: positive, zero, and negative.and negative.

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Bipolar AMI encoding

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2B1Q

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MLT-3 signal

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5.2 Block Coding• Steps in Transformation

• Some Common Block Codes

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Block coding

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Substitution in block coding

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Table 5.1 4B/5B encodingTable 5.1 4B/5B encodingData Code Data Code

0000 1111011110 1000 1001010010

0001 0100101001 1001 1001110011

0010 1010010100 1010 10110101100011 1010110101 1011 10111101110100 0101001010 1100 11010110100101 0101101011 1101 11011110110110 0111001110 1110 11100111000111 0111101111 1111 1110111101

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Table 4.1 4B/5B encoding Table 4.1 4B/5B encoding (Continued)(Continued)

Data Code

Q (Quiet) 0000000000

I (Idle) 1111111111

H (Halt) 0010000100J (start delimiter) 1100011000K (start delimiter) 1000110001T (end delimiter) 0110101101S (Set) 1100111001R (Reset) 0011100111

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Example of 8B/6T encoding

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5.3 Sampling5.3 Sampling

• Pulse Amplitude Modulation• Pulse Code Modulation• Sampling Rate: Nyquist Theorem• How Many Bits per Sample?• Bit Rate

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PAM

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Pulse amplitude modulation has some Pulse amplitude modulation has some applications, but it is not used by itself applications, but it is not used by itself in data communication. However, it is in data communication. However, it is the first step in another very popular the first step in another very popular

conversion method called conversion method called pulse code modulation.pulse code modulation.

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Quantized PAM signal

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Quantizing by using sign and magnitude

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PCM

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Figure 4.22 From analog signal to PCM digital code

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According to the Nyquist theorem, the According to the Nyquist theorem, the sampling rate must be at least 2 times sampling rate must be at least 2 times

the highest frequency.the highest frequency.

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Figure 4.23 Nyquist theorem

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Contoh 5.4

What sampling rate is needed for a signal with a bandwidth of 10,000 Hz (1000 to 11,000 Hz)?

• Penyelesaian:The sampling rate must be twice the highest

frequency in the signal:Sampling rate = 2 x (11,000) = 22,000 Sampling rate = 2 x (11,000) = 22,000

samples/ssamples/s

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Contoh 5.5A signal is sampled. Each sample requires at least

12 levels of precision (+0 to +5 and -0 to -5). How many bits should be sent for each sample?

Penyelesaian:We need 4 bits; 1 bit for the sign and 3 bits for the

value. A 3-bit value can represent 23 = 8 levels (000 to 111), which is more than what we need. A 2-bit value is not enough since 22 = 4. A 4-bit value is too much because 24 = 16.

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Contoh 5.6We want to digitize the human voice. What is the

bit rate, assuming 8 bits per sample?

• Penyelesaian:• The human voice normally contains frequencies

from 0 to 4000 Hz. • Sampling rate = 4000 x 2 = 8000 samples/sSampling rate = 4000 x 2 = 8000 samples/s

• Bit rate = sampling rate x number of bits per Bit rate = sampling rate x number of bits per sample sample = 8000 x 8 = 64,000 bps = 64 Kbps= 8000 x 8 = 64,000 bps = 64 Kbps

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• Note that we can always change a Note that we can always change a band-pass signal to a low-pass signal band-pass signal to a low-pass signal before sampling. In this case, the before sampling. In this case, the sampling rate is twice the bandwidth.sampling rate is twice the bandwidth.

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Mode Transmisi

• Parallel Transmission

• Serial Transmission

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Figure 4.24 Data transmission

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Figure 4.25 Parallel transmission

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Figure 4.26 Serial transmission

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In asynchronous transmission, we send In asynchronous transmission, we send 1 start bit (0) at the beginning and 1 or 1 start bit (0) at the beginning and 1 or more stop bits (1s) at the end of each more stop bits (1s) at the end of each

byte. There may be a gap between each byte. There may be a gap between each byte.byte.

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Asynchronous here means Asynchronous here means “asynchronous at the byte level,” but “asynchronous at the byte level,” but the bits are still synchronized; their the bits are still synchronized; their

durations are the same.durations are the same.

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Figure 4.27 Asynchronous transmission

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In synchronous transmission, In synchronous transmission, we send bits one after another without we send bits one after another without

start/stop bits or gaps. start/stop bits or gaps. It is the responsibility of the receiver to It is the responsibility of the receiver to

group the bits.group the bits.

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Figure 4.28 Synchronous transmission