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SEMESTER IV
(Applicable to the students admitted from the Academic year 2008–2009 onwards)
Code No.

Course Title

L
T
P
C
THEORY
MA 2261

Probability and Random Processes

3
1
0
4
EC 2251

Electronic Circuits II 

3
1
0
4
EC 2252

Communication Theory

3
1
0
4
EC 2253

Electromagnetic Fields

3
1
0
4
EC 2254

Linear Integrated Circuits

3
0
0
3
EC 2255

Control Systems

3
0
0
3
PRACTICAL
EC 2257

Electronics circuits II and simulation lab

0
0
3
2
EC 2258

Linear Integrated Circuit Lab

0
0
3
2
EC 2259

Electrical Engineering and Control System Lab

0
0
3
2


MA2261                       PROBABILITY AND RANDOM PROCESSES               3   1   0   4
                                    (Common to ECE & Bio Medical Engineering)
                                                                                                                          
AIM
This course aims at providing the necessary basic concepts in random processes.    Knowledge of fundamentals and applications of random phenomena will greatly help in the understanding of topics such as signals & systems, pattern recognition, voice and image processing and filtering theory.

OBJECTIVES
At the end of the course, the students would
·                 Have a fundamental knowledge of the basic probability concepts.
·                 Have a well-founded knowledge of standard distributions which can describe real    life phenomena.
·                 Acquire skills in handling situations involving more than one random variable and  functions of random variables.
·                 Understand and characterize phenomena which evolve with respect to time in  probabilistic manner.
·                 Be able to analyze the response of random inputs to linear time invariant systems.

UNIT I              RANDOM VARIABLES                                                                                    9 + 3
Discrete and continuous random variables – Moments - Moment generating functions and their properties. Binomial, Poisson ,Geometric, Uniform, Exponential, Gamma and normal  distributions – Function of Random Variable.

UNIT II               TWO DIMENSIONAL RANDOM VARIBLES                                               9 + 3

Joint distributions - Marginal and conditional distributions – Covariance - Correlation and Regression - Transformation of random variables - Central limit theorem (for iid random variables)

UNIT III    Classification of RANDOM PROCESSES                                                   9 + 3

Definition and examples - first order, second order, strictly stationary, wide-sense stationary and ergodic processes - Markov process - Binomial, Poisson and Normal processes - Sine wave process – Random telegraph process.
UNIT IV   Correlation and spectral densities                                         9 + 3
Auto correlation - Cross correlation - Properties – Power spectral density – Cross spectral density - Properties – Wiener-Khintchine relation – Relationship between cross power spectrum and cross correlation function
UNIT V    LINEAR SYSTEMS WITH RANDOM INPUTS                                           9 + 3
Linear time invariant system - System transfer function – Linear systems with random inputs – Auto correlation and cross correlation functions of input and output – white noise.

          LECTURES : 45        TUTORIAL : 15       TOTAL : 60 PERIODS 

TEXT BOOKS
  1. Oliver C. Ibe,  “Fundamentals of Applied probability and Random processes”, Elsevier, First Indian Reprint ( 2007)  (For units 1 and 2)

  1. Peebles Jr. P.Z., “Probability Random Variables and Random Signal Principles”, Tata McGraw-Hill Publishers, Fourth Edition, New Delhi, 2002. (For units 3, 4 and 5).

REFERENCES
1.      Miller,S.L and Childers, S.L, “Probability and Random Processes with applications to Signal Processing and Communications”, Elsevier Inc., First Indian Reprint 2007.

2.      H. Stark and J.W. Woods, “Probability and Random Processes with     Applications to Signal Processing”, Pearson Education (Asia), 3rd Edition, 2002.

3.      Hwei Hsu, “Schaum’s Outline of Theory and Problems of Probability, Random Variables and Random Processes”, Tata McGraw-Hill edition, New Delhi, 2004.
4.      Leon-Garcia,A, “Probability and Random Processes for Electrical Engineering”, Pearson Education Asia, Second Edition, 2007.
5.      Yates and D.J. Goodman, “Probability and   Stochastic Processes”, John Wiley and Sons, Second edition, 2005.




EC 2251                                 ELECTRONIC CIRCUITS II                                  3  1  0  4

QB CLICK HERE


AIM
The aim of this course is to familiarize the student with the analysis and design of feed back amplifiers, oscillators, tuned amplifiers, wave shaping circuits, multivibrators and blocking oscillators.

OBJECTIVES
On completion of this course the student will understand
·         The advantages and method of analysis of feedback amplifiers
·         Analysis and design of LC and RC oscillators, tuned amplifiers, wave shaping circuits, multivibrators, blocking oscillators and time base generators.

UNIT 1            FEEDBACK AMPLIFIERS                                                                        9

Block diagram, Loop gain, Gain with feedback, Effects of negative feedback – Sensitivity and desensitivity of gain, Cut-off frequencies, distortion, noise, input impedance and output impedance with feedback, Four types of negative feedback connections – voltage series feedback, voltage shunt feedback, current series feedback and current shunt feedback, Method of identifying feedback topology and feedback factor, Nyquist criterion for stability of feedback amplifiers.

UNIT II            OSCILLATORS                                                                                         9

Classification, Barkhausen Criterion - Mechanism for start of oscillation and stabilization of amplitude, General form of an Oscillator, Analysis of LC oscillators - Hartley, Colpitts, Clapp, Franklin, Armstrong, Tuned collector oscillators, RC oscillators - phase shift – Wienbridge - Twin-T Oscillators, Frequency range of RC and LC Oscillators, Quartz Crystal Construction, Electrical equivalent circuit of Crystal, Miller and Pierce Crystal oscillators, frequency stability of oscillators.

UNIT III           TUNED AMPLIFIERS                                                                                            9

Coil losses, unloaded and loaded Q of tank circuits, small signal tuned amplifiers -  Analysis of capacitor coupled single tuned amplifier – double tuned amplifier -  effect of cascading single tuned and double tuned amplifiers on bandwidth – Stagger tuned amplifiers – large signal tuned amplifiers – Class C tuned amplifier – Efficiency and applications of Class C tuned amplifier - Stability of tuned amplifiers – Neutralization - Hazeltine neutralization method.

UNIT IV           WAVE SHAPING AND MULTIVIBRATOR CIRCUITS                            9

RC & RL Integrator and Differentiator circuits – Storage, Delay and Calculation of Transistor Switching Times – Speed-up Capaitor - Diode clippers, Diode comparator - Clampers. Collector coupled and Emitter coupled Astable multivibrator - Monostable multivibrator - Bistable multivibrators - Triggering methods for Bistable multivibrators -  Schmitt trigger circuit.

UNIT V            BLOCKING OSCILLATORS AND TIMEBASE GENERATORS              9

UJT sawtooth waveform generator, Pulse transformers – equivalent circuit – response - applications, Blocking Oscillator – Free running blocking oscillator - Astable Blocking Oscillators with base timing – Push-pull Astable blocking oscillator with emitter timing, Frequency control using core saturation, Triggered blocking oscillator – Monostable blocking oscillator with base timing – Monostable blocking oscillator with emitter timing, Time base circuits - Voltage-Time base circuit, Current-Time base circuit - Linearization through adjustment of driving waveform.

       TUTORIAL= 15                                                                                       TOTAL = 60

TEXT BOOKS
1.            Sedra / Smith, Micro Electronic Circuits Oxford University Press, 2004.
2.            S. Salivahanan, N. Suresh Kumar and A. Vallavaraj, Electronic Devices and Circuits, 2nd Edition, TMH, 2007.

REFERENCES
1.                  Millman J. and Taub H., Pulse Digital and Switching Waveforms, TMH, 2000.
2.                  Schilling and Belove, Electronic Circuits, 3rd Edition, TMH, 2002.
3.                  Robert L. Boylestad and Louis Nasheresky, Electronic Devices and Circuit Theory, 9th Edition, Pearson Education / PHI, 2002.
4.                  David A. Bell, Solid State Pulse Circuits, Prentice Hall of India, 1992.
5.                  Millman and Halkias. C., Integrated Electronics, TMH, 1991.




EC 2252                      COMMUNICATION  THEORY                                          3  1  0  4


AIM
To study the various analog communication fundamentals viz., Amplitude modulation and demodulation, angle modulation and demodulation. Noise performance of various receivers and information theory with source coding theorem are also dealt.

OBJECTIVE

  • To provide various Amplitude modulation and demodulation systems.
  • To provide various Angle modulation and demodulation systems.
  • To provide some depth analysis in noise performance of various receiver.
  • To study some basic information theory with some channel coding theorem.


1.                  AMPLITUDE MODULATION SYSTEMS                                                            10
Review of Spectral Characteristics of Periodic and Non-periodic signals; Generation and Demodulation of AM, DSBSC, SSB and VSB Signals; Comparison of Amplitude Modulation Systems; Frequency Translation; FDM; Non – Linear Distortion.

2.                  ANGLE MODULATION SYSTEMS                                                                      8
Phase and Frequency Modulation; Single tone, Narrow Band and Wideband FM; Transmission Bandwidth; Generation and Demodulation of FM Signal.

3.                  NOISE THEORY                                                                                                    8
Review of Probability, Random Variables and Random Process; Guassian Process; Noise – Shot noise, Thermal noise and white noise; Narrow band noise, Noise temperature; Noise Figure.

4.         PERFORMANCE OF CW MODULATION SYSTEMS                                       10                                           
Superheterodyne Radio receiver and its characteristic; SNR; Noise in DSBSC systems using coherent detection; Noise in AM system using envelope detection and its FM system; FM threshold effect; Pre-emphasis and De-emphasis in FM; Comparison of performances.

5.         INFORMATION THEORY                                                                                     9

Discrete Messages and Information Content, Concept of Amount of Information, Average information, Entropy, Information rate, Source coding to increase average information per bit, Shannon-Fano coding, Huffman coding, Lempel-Ziv (LZ) coding, Shannon’s Theorem, Channel Capacity, Bandwidth- S/N trade-off, Mutual information and channel capacity, rate  distortion theory,  Lossy Source coding.      


TUTORIAL     15                                                            TOTAL : 60



TEXT BOOKS

  1. Dennis Roddy & John Coolen - Electronic Communication (IV Ed.), Prentice Hall of       India.
  2. Herbert Taub & Donald L Schilling – Principles of Communication Systems ( 3rd Edition ) – Tata McGraw    Hill, 2008.

REFERENCE:

  1. Simon Haykin, Communication Systems,  John Wiley & sons, NY, 4th Edition, 2001.
  2. Bruce Carlson - Communication Systems. (III Ed.),  Mc Graw Hill.
  3. B.P.Lathi, Modern Digital and Analog Communication Systems, Third Edition, Oxfod Press,2007.
  4. R.P Singh and S.D.Sapre, “Communication Systems – Analog and Digital”, Tata McGraw Hill, 2nd Edition, 2007.
  5. John G. Proakis, Masoud Salehi, Fundamentals of Communication Systems, Pearson Education, 2006.






EC 2253                      ELECTROMAGNETIC FIELDS                                            3 1 0 4

AIM
To familiarize the student to the concepts, calculations and pertaining to electric, magnetic and electromagnetic fields so that an in depth understanding of antennas, electronic devices, Waveguides is possible.

OBJECTIVES
  • To analyze fields a potentials due to static changes
  • To evaluate static magnetic fields
  • To understand how materials affect electric and magnetic fields
  • To understand the relation between the fields under time varying situations
  • To understand principles of propagation of uniform plane waves.


UNIT I              STATIC ELECTRIC FIELDS                                                                       9

Introduction to Co-ordinate System – Rectangular – Cylindrical and Spherical Co-ordinate System – Introduction to line, Surface and Volume Integrals – Definition of Curl, Divergence and Gradient – Meaning of Stokes theorem and Divergence theorem 
Coulomb’s Law in Vector Form – Definition of Electric Field Intensity – Principle of Superposition – Electric Field due to discrete charges – Electric field due to continuous charge distribution - Electric Field due to charges distributed uniformly on an infinite and finite line – Electric Field on the axis of a uniformly charged circular disc – Electric Field due to an infinite uniformly charged sheet.
Electric Scalar Potential – Relationship between potential and electric field - Potential due to infinite uniformly charged line – Potential due to electrical dipole - Electric Flux Density – Gauss Law – Proof of Gauss Law – Applications.

UNIT II  STATIC MAGNETIC FIELD                                                                                      9

The Biot-Savart Law in vector form – Magnetic Field intensity due to a finite and infinite wire carrying a current I – Magnetic field intensity on the axis of a circular and rectangular loop carrying a current I – Ampere’s circuital law and simple applications.
Magnetic flux density – The Lorentz force equation for a moving charge and applications – Force on a wire carrying a current I placed in a magnetic field – Torque on a loop carrying a current I – Magnetic moment – Magnetic Vector Potential.

UNIT III             ELECTRIC AND MAGNETIC FIELDS IN MATERIALS                                9

Poisson’s and Laplace’s equation – Electric Polarization-Nature of dielectric materials- Definition of Capacitance – Capacitance of various geometries using Laplace’s equation – Electrostatic energy and energy density – Boundary conditions for electric fields – Electric current – Current density – point form of ohm’s law – continuity equation for current.
Definition of Inductance – Inductance of loops and solenoids – Definition of mutual inductance – simple examples. Energy density in magnetic fields – Nature of magnetic materials – magnetization and permeability - magnetic boundary conditions.

UNIT IV            TIME VARYING ELECTRIC AND MAGNETIC FIELDS                               9

Faraday’s law – Maxwell’s Second Equation in integral form from Faraday’s Law – Equation expressed in point form.
Displacement current – Ampere’s circuital law in integral form – Modified form of Ampere’s circuital law as Maxwell’s first equation in integral form – Equation expressed in point form. Maxwell’s four equations in integral form and differential form.
Poynting Vector and the flow of power – Power flow in a co-axial cable – Instantaneous Average and Complex Poynting Vector.

UNIT V ELECTROMAGNETIC WAVES                                                                   9

Derivation of Wave Equation – Uniform Plane Waves – Maxwell’s equation in Phasor form – Wave equation in Phasor form – Plane waves in free space and in a homogenous material.
Wave equation for a conducting medium – Plane waves in lossy dielectrics – Propagation in good conductors – Skin effect.
Linear, Elliptical and circular polarization – Reflection of Plane Wave from a conductor – normal incidence – Reflection of Plane Waves by a perfect dielectric – normal and oblique incidence. Dependence on Polarization.  Brewster angle.

TUTORIAL     15                                                                                                TOTAL : 60

TEXTBOOKS

  1. W H.Hayt & J A Buck : “Engineering Electromagnetics” TATA McGraw-Hill, 7th Edition 2007 (Unit I,II,III ).
  2. E.C. Jordan & K.G. Balmain  “Electromagnetic Waves and Radiating Systems.” Pearson Education/PHI 4nd edition 2006. (Unit IV, V).

REFERENCES

1.         Matthew N.O.Sadiku: “Elements of Engineering Electromagnetics” Oxford University Press, 4th edition, 2007
2.           Narayana Rao, N : “Elements of Engineering Electromagnetics” 6th edition, Pearson Education, New Delhi, 2006.
3.         Ramo, Whinnery and Van Duzer: “Fields and Waves in Communications Electronics” John Wiley & Sons ,3rd edition 2003.
4.         David K.Cheng: “Field and Wave Electromagnetics - Second Edition-Pearson Edition, 2004.
5.         G.S.N. Raju, Electromagnetic Field Theory & Transmission Lines, Pearson Education, 2006








EC 2254                         LINEAR INTEGRATED CIRCUITS                                3  0  0  3


AIM:

To teach the basic concepts in the design of electronic circuits using linear integrated circuits and their applications in the processing of analog signals.

OBJECTIVES

·         To introduce the basic building blocks of linear integrated circuits.
·         To teach the linear and non-linear applications of operational amplifiers.
·         To introduce the theory and applications of analog multipliers and PLL.
·         To teach the theory of ADC and DAC
·         To introduce the concepts of waveform generation and introduce some special function ICs.

UNIT - I           IC FABRICATION AND CIRCUIT CONFIGURATION FOR LINEAR ICs
                                                                                             9
Advantages of Ics over discrete components – Manufacturing process of monolithic Ics – Construction of monolithic bipolar transistor – Monolithic diodes – Integrated Resistors – Monolithic Capacitors – Inductors. Current mirror and current sources, Current sources as active loads, Voltage sources, Voltage References, BJT Differential amplifier with active loads, General operational amplifier stages -and internal circuit diagrams of IC 741, DC and AC performance characteristics, slew rate, Open and closed loop configurations.

UNIT - II          APPLICATIONS OF OPERATIONAL AMPLIFIERS                                 9

Sign Changer, Scale Changer, Phase Shift Circuits, Voltage Follower, V-to-I and I-to-V converters, adder, subtractor, Instrumentation amplifier, Integrator, Differentiator, Logarithmic amplifier, Antilogarithmic amplifier, Comparators, Schmitt trigger, Precision rectifier, peak detector, clipper and clamper, Low-pass, high-pass and band-pass Butterworth filters.

UNIT - III         ANALOG MULTIPLIER AND PLL                                                             9

Analog Multiplier using Emitter Coupled Transistor Pair - Gilbert Multiplier cell -  Variable transconductance technique, analog multiplier ICs and their applications, Operation of the basic PLL, Closed loop analysis, Voltage controlled oscillator, Monolithic PLL IC 565, application of PLL for AM detection, FM detection, FSK modulation and demodulation and Frequency synthesizing.

UNIT - IV         ANALOG TO DIGITAL AND DIGITAL TO ANALOG CONVERTERS     8

Analog and Digital Data Conversions, D/A converter – specifications - weighted resistor type, R-2R Ladder type, Voltage Mode and Current-Mode  Ladder types -  switches for D/A converters, high speed sample-and-hold circuits, A/D Converters – specifications - Flash type - Successive Approximation type - Single Slope type - Dual Slope type - A/D Converter using Voltage-to-Time Conversion - Over-sampling A/D Converters.

UNIT - V          WAVEFORM GENERATORS AND SPECIAL FUNCTION ICs               9

Sine-wave generators, Multivibrators and Triangular wave generator, Saw-tooth wave generator, ICL8038 function generator, Timer IC 555, IC Voltage regulators - Three terminal fixed and adjustable voltage regulators - IC 723 general purpose regulator -  Monolithic switching regulator, Switched capacitor filter IC MF10, Frequency to Voltage and Voltage to Frequency converters, Audio Power amplifier, Video Amplifier, Isolation Amplifier, Opto-couplers and fibre optic IC.
                                                                                                              
         TOTAL : 45  PERIODS

TEXT BOOKS:
1.      Sergio Franco, Design with operational amplifiers and analog integrated circuits, 3rd Edition, Tata McGraw-Hill, 2007.
2.      D.Roy Choudhry, Shail Jain,  Linear Integrated Circuits, New Age International Pvt. Ltd., 2000.

REFERENCES:
1.      B.S.Sonde, System design using Integrated Circuits , New Age Pub, 2nd  Edition, 2001
2.      Gray and Meyer, Analysis and Design of Analog Integrated Circuits, Wiley International, 2005.
3.      Ramakant A.Gayakwad, OP-AMP and Linear ICs, Prentice Hall / Pearson Education, 4th Edition, 2001.
4.      J.Michael Jacob, Applications and Design with Analog Integrated Circuits, Prentice Hall of India, 1996.
5.      William D.Stanley, Operational Amplifiers with Linear Integrated Circuits, Pearson Education, 2004.
6.      K Lal Kishore, Operational Amplifier and Linear Integrated Circuits, Pearson Education, 2006.
  1. S.Salivahanan & V.S. Kanchana Bhaskaran,  Linear Integrated Circuits, TMH,  2008.










EC 2255                                  CONTROL SYSTEMS                                           3  0  0  3
EC 2255 QUESTION BANK CLICK HERE
AIM
To familiarize the students with concepts related to the operation analysis and stabilization of control systems

OBJECTIVES
  • To understand the open loop and closed loop (feedback ) systems
  • To understand time domain and frequency domain analysis of control systems required for stability analysis.
  • To understand the compensation technique that can be used to stabilize control systems

1.         CONTROL SYSTEM MODELING                                                                       9
Basic Elements of Control System – Open loop and Closed loop systems - Differential equation - Transfer function, Modeling of Electric systems, Translational and rotational mechanical systems - Block diagram reduction Techniques - Signal flow graph

2.         TIME RESPONSE ANALYSIS                                                                              9 
Time response analysis - First Order Systems - Impulse and Step Response analysis of second order systems - Steady state errors – P, PI, PD and PID Compensation, Analysis using MATLAB

3. FREQUENCY RESPONSE ANALYSIS                                                                      9
Frequency Response - Bode Plot, Polar Plot, Nyquist Plot - Frequency Domain specifications from the plots - Constant M and N Circles - Nichol’s Chart - Use of Nichol’s Chart in Control System Analysis. Series, Parallel, series-parallel Compensators - Lead, Lag, and Lead Lag Compensators, Analysis using MATLAB.
               
4. STABILITY ANALYSIS                                                                                                  9
Stability, Routh-Hurwitz Criterion, Root Locus Technique, Construction of Root Locus, Stability, Dominant Poles, Application of Root Locus Diagram - Nyquist Stability Criterion - Relative Stability, Analysis using MATLAB

5. STATE VARIABLE ANALYSIS & DIGITAL CONTROL SYSTEMS                          9
State space representation of Continuous Time systems – State equations – Transfer function from State Variable Representation – Solutions of the state equations - Concepts of Controllability and Observability – State space representation  for Discrete time systems. Sampled Data control systems – Sampling Theorem – Sample & Hold – Open loop & Closed loop sampled data systems.
                                                                                                         TOTAL : 45  PERIODS



TEXTBOOK:

1.                  J.Nagrath and M.Gopal,” Control System Engineering”, New Age International Publishers, 5th Edition, 2007.
2.                  M.Gopal, “Control System – Principles and Design”, Tata McGraw Hill, 2nd Edition, 2002.

REFERENCES:

1.         Benjamin.C.Kuo, “Automatic control systems”, Prentice Hall of India, 7th Edition,1995.
2.         M.Gopal, Digital Control and State Variable Methods, 2nd Edition, TMH, 2007.
3.         Schaum’s Outline Series,’Feedback and Control Systems’ Tata McGraw-
Hill, 2007.
4.         John J.D’azzo & Constantine H.Houpis, ’Linear control system analysis and design’, Tata McGrow-Hill, Inc., 1995.
5.         Richard C. Dorf & Robert H. Bishop, “ Modern Control Systems”, Addidon – Wesley, 1999.



EC 2257          ELECTRONICS CIRCUITS II AND SIMULATION LAB           0  0  3  2
 
Design of following circuits
1.      Series and Shunt feedback amplifiers:
      Frequency response, Input and output impedance calculation
2.      RC Phase shift oscillator, Wien Bridge Oscillator
3.      Hartley Oscillator, Colpitts Oscillator
4.      Tuned Class C Amplifier
5.      Integrators, Differentiators, Clippers and Clampers
6.      Astable, Monostable and Bistable multivibrators

SIMULATION USING PSPICE:
1.      Differential amplifier
2.      Active filters : Butterworth 2nd order LPF, HPF (Magnitude & Phase Response)
3.      Astable, Monostable and Bistable multivibrator - Transistor bias
4.      D/A and A/D converters (Successive approximation)
5.      Analog multiplier
6.      CMOS Inverter, NAND and NOR














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15 comments:

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  4. in the syllabus what does ltpc means

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  10. Thankz for updating this.It seems to be very useful for us and can i get full syllabus of ECE for all the semesters with elective subjects pls

    ReplyDelete

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