17EC44 Principles of Communication Systems syllabus for TE



A d v e r t i s e m e n t

Module-1 AMPLITUDE MODULATION 10 hours

AMPLITUDE MODULATION:

Introduction, Amplitude Modulation: Time & Frequency – Domain description, Switching modulator, Envelop detector.

 

DOUBLE SIDE BAND-SUPPRESSED CARRIER MODULATION:

Time and Frequency – Domain description, Ring modulator, Coherent detection, Costas Receiver, Quadrature Carrier Multiplexing.

 

SINGLE SIDE–BAND AND VESTIGIAL SIDEBAND METHODS OF MODULATION:

SSB Modulation, VSB Modulation, Frequency Translation, Frequency- Division Multiplexing, Theme Example: VSB Transmission of Analog and Digital Television. (Chapter 3 of Text).

Module-2 ANGLE MODULATION 10 hours

ANGLE MODULATION:

Basic definitions, Frequency Modulation: Narrow Band FM, Wide Band FM, Transmission bandwidth of FM Signals, Generation of FM Signals, Demodulation of FM Signals, FM Stereo Multiplexing, Phase–Locked Loop: Nonlinear model of PLL, Linear model of PLL, Nonlinear Effects in FM Systems. The Superheterodyne Receiver (refer Chapter 4 of Text).

Module-3 RANDOM VARIABLES & PROCESS 10 hours

RANDOM VARIABLES & PROCESS:

Introduction, Probability, Conditional Probability, Random variables, Several Random Variables. Statistical Averages: Function of a random variable, Moments, Random Processes, Mean, Correlation and Covariance function: Properties of autocorrelation function, Cross–correlation functions (refer Chapter 5 of Text).

 

NOISE:

Shot Noise, Thermal noise, White Noise, Noise Equivalent Bandwidth (refer Chapter 5 of Text), Noise Figure (refer Section 6.7 of Text).

Module-4 NOISE IN ANALOG MODULATION 10 hours

NOISE IN ANALOG MODULATION:

Introduction, Receiver Model, Noise in DSB-SC receivers, Noise in AM receivers, Threshold effect, Noise in FM receivers, Capture effect, FM threshold effect, FM threshold reduction, Pre-emphasis and De-emphasis in FM (refer Chapter 6 of Text).

Module-5 DIGITAL REPRESENTATION OF ANALOG SIGNALS 10 hours

DIGITAL REPRESENTATION OF ANALOG SIGNALS:

Introduction, Why Digitize Analog Sources?, The Sampling process, Pulse Amplitude Modulation, Time Division Multiplexing, Pulse-Position Modulation, Generation of PPM Waves, Detection of PPM Waves, The Quantization Process, Quantization Noise, Pulse–Code Modulation: Sampling, Quantization, Encoding, Regeneration, Decoding, Filtering, Multiplexing (refer Chapter 7 of Text), Application to Vocoder (refer Section 6.8 of Reference Book 1).

Course Outcomes: At the end of the course, students will be able to:

  • Determine the performance of analog modulation schemes in time and frequency domains.
  • Determine the performance of systems for generation and detection of modulated analog signals.
  • Characterize analog signals in time domain as random processes and in frequency domain using Fourier transforms.
  • Characterize the influence of channel on analog modulated signals
  • Determine the performance of analog communication systems.
  • Understand the characteristics of pulse amplitude modulation, pulse position modulation and pulse code modulation systems.

 

Text Book:

Communication Systems, Simon Haykins & Moher, 5th Edition, John Willey, India Pvt. Ltd, 2010, ISBN 978 – 81 – 265 – 2151 – 7.

 

Reference Books:

1. Modern Digital and Analog Communication Systems, B. P. Lathi, Oxford University Press., 4th edition.

2. An Introduction to Analog and Digital Communication, Simon Haykins, John Wiley India Pvt. Ltd., 2008, ISBN 978–81–265–3653–5.

3. Principles of Communication Systems, H.Taub & D.L.Schilling, TMH, 2011.

4. Communication Systems, Harold P.E, Stern Samy and A.Mahmond, Pearson Edition, 2004.

5. Communication Systems: Analog and Digital, R.P.Singh and S.Sapre: TMH 2nd edition, 2007.

Last Updated: Tuesday, January 24, 2023