Komunikasi Data (TEU 611)

Digital Transmission

Dr. I Wayan Mustika, ST., M.Eng.

Jurusan  Teknik  Elektro  dan  Teknologi  Informasi    FT  UGM  

Outline

Ø Digital-to-Digital Conversion Ø Line Coding Ø Block Coding Ø Scrambling

Ø Analog-to-Digital Conversion Ø Pulse Code Modulation (PCM) Ø Delta Modulation (DM)

Ø Transmission Modes Ø Parallel Transmission Ø Serial Transmission

Line Coding and Decoding

§  Line coding converts a sequence of bits to a digital signal

Signal Element vs. Data Element

Example

§  A signal is carrying data in which one data element is encoded as one signal element (r = 1). If the bit rate is 100 kbps, what is the average value of the baud rate if c is between 0 and 1?

Solution We assume that the average value of c is 1/2. The baud rate is then

§  Baseline Wandering A long strings of 0s or 1s can cause a drift in a baseline and make it difficult for the receiver to decode correctly

§  DC Components When the voltage level in a digital signal is constant for a while, the frequency spectrum is around zero, called DC components

§  Self-synchronization If the receiver clock is faster or slower, the bit intervals are not matched and the receiver might misinterpret the signals

Effect of Lack of Synchronization

Line Coding Schemes

Unipolar NRZ

Polar NRZ-L and NRZ-I Schemes

§  Two levels of voltage amplitude are used

Summary of NRZ-L and NRZ-I Schemes

§  In NRZ-L the level of the voltage determines the value of the bit. In NRZ-I the inversion or the lack of inversion determines the value of the bit

§  NRZ-L and NRZ-I both have an average signal rate of N/2 Baud

§  NRZ-L and NRZ-I both have a DC component problem

Example

§  A system is using NRZ-I to transfer 10-Mbps data. What are the average signal rate and minimum bandwidth?

Solution The average signal rate is S = N/2 = 500 kbaud. The minimum bandwidth for this average baud rate is Bmin = S = 500 kHz.

Polar RZ Scheme

§  In RZ scheme, three values are used: positive, negative and zero.

Polar Biphase: Manchester and Differential Manchester Schemes

Summary of Manchester and Differential Manchester

§  In Manchester and differential Manchester encoding, the transition at the middle of the bit is used for synchronization

§  The minimum bandwidth of Manchester and differential Manchester is 2 times than that of NRZ

Bipolar Schemes: AMI and Pseudoternary

Multilevel Scheme (2B1Q)

Block Coding

Using Block Coding 4B/5B with NRZ-I Line Coding Scheme

Scrambling: AMI used with scrambling

§  Can be used for long-distance communication

Two Cases of B8ZS Scrambling Technique

Analog-to-Digital Conversion

Ø Pulse Code Modulation Ø Delta Modulation

Pulse Code Modulation

Sampling Methods for PCM

Nyquist Sampling Rate for Low-pass and Bandpass signals

§  According to the Nyquist theorem, the sampling rate must be at least 2 times the highest frequency contained in the signal

Recovery of a Sampled Sine Wave for Different Sampling Rates

Quantization and Encoding of a Sampled Signal

Example

§  We want to digitize the human voice. What is the bit rate, assuming 8 bits per sample?

Solution The human voice normally contains frequencies from 0 to 4000 Hz. So the sampling rate and bit rate are calculated as follows:

Components of a PCM decoder

The Process of Delta Modulation

Delta modulation and demodulation components

Transmission Modes

Parallel Transmission

Serial Transmission

Asynchronous Transmission

Synchronous Transmission

Assignment 2

1. What is the Nyquist sampling rate for each of the following signals? a. A low-pass signal with bandwidth of 200 KHz? b. A band-pass signal with bandwidth of 200 KHz if the lowest

frequency is 100 KHz? 2. We have sampled a low-pass signal with a bandwidth of

200 KHz using 1024 levels of quantization. a. Calculate the bit rate of the digitized signal. b. Calculate the SNRdB for this signal. c. Calculate the PCM bandwidth of this signal.