Bansilal Ramnath Agarwal Charitable Trust’s Vishwakarma … · 2018-07-04 · Bipolar Junction...
Transcript of Bansilal Ramnath Agarwal Charitable Trust’s Vishwakarma … · 2018-07-04 · Bipolar Junction...
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
1
Bansilal Ramnath Agarwal Charitable Trust’s
Vishwakarma Institute of Technology (An Autonomous Institute affiliated to University of Pune)
Structure & Syllabus of
B.E. (Electronics) and
B.E. (E & TC) Pattern ‘A11 & B11’
Effective from Academic Year 2011-12
Prepared by: - Board of Studies in Electronics Engineering
Approved by: - Academic Board,
Vishwakarma Institute of Technology, Pune
Signed by,
Chairman – BOS Chairman – Academic Board
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
2
Content
Sr. No. Title Page No.
Program Educational Objectives 5
Module III 6
Course Structure 7
Course Syllabi For Courses - Module III
Semiconductor Devices And Circuits 9
Semiconductor Devices And Circuits - Tutorial 11
Analog Communication 12
Analog Communication - Tutorial 14
Linear Algebra And Statistics 15
Signals And Systems 18
Practicals
Semiconductor Devices & Circuits* 20
Analog Communication 21
Department Specific Electives – SD3 22
Applied Electromechanics for Robotics 23
Electronics Measurement 24
MATLAB Fundamentals and Programming Technique 25
Module IV 26
Course Structure 27 Course Syllabi for courses - Module IV
Control Systems (MD) 29
Control Systems (MD) - Tutorial 31
Digital Electronics 32
Digital Electronics - Tutorial 34
Data Structures And Algorithm 35
Networks And Lines 37
Practicals
Digital Electronics 39
Data Structures And Algorithm 40
Department Specific Electives – SD4 42
Electronics Hardware Workshop 43
Electronic Software Workshop 44
C++ Programming 45
Open Electives 46
Applied Electronics (OE3) 47
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
3
Analog Electronics (OE3) 49
Linear Circuit Analysis(OE3) 51 Module V 53
Course Structure 54
Course Syllabi For Courses - Module V Microcontroller & Applications 56 Microcontroller & Applications - Tutorial 58 Digital Communication 59 Digital Communication - Tutprial 61 Digital Signal Processing 62 Mechatronics (MD) 64 Practicals Microcontroller & Mechatronics Lab 66 Signal Processing And Communication Lab. 67 Institute Level Elective – PD1 68 Optimization Techniques 69 Simulation Of Power Circuits 70 Configurable And Reconfigurable Computing 71 Linux Operating System 73 Module VI 74
Course Structure 75 Course Syllabi For Courses - Module VI Electromagnetic Engineering 77 Electromagnetic Engineering -Tutorial 79 Analog Circuits 80 Analog Circuits - Tutorial 82 Power Electronics 83 Digital Integrated Circuits 86 Practicals Analog Circuits 88 Power & Integrated Circuits Lab 89 Institute Level Elective – PD2 90 Fourier Theory 91 PIC Microcontroller 92 Digital Signal And Image Processing Using Matlab 93 LATEX 94 Project And Seminar
Project And Seminar
Project And Seminar
95 Seminar – SM1 96 Project Stage-I – PS1 97 Module VII 99
Course Structure 100 Course Syllabi For Courses - Module VII Electronic Circuit Design / Microwave Engineering 102 Electronic Circuit Design / Microwave Engineering - Tutorial 105 Coding & Data Compression 109
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
4
Elective I – Theory + Tutorial
111
Remote Sensing 112 Artificial Intelligence 115 Pattern Recognition 118 Elective II - Theory 121 Fibre Optic Communication 122 VLSI Design 124
Digital Image Processing 126 Practicals Coding & Data Compression 128 Elective II - Lab Fibre Optic Communication 129 VLSI Design 130 Digital Image Processing 131 Module VIII 132
Course Structure 133 Course Syllabi For Courses - Module VIII Computer Networks / Wireless Communication 135 Embedded Systems (MD) 141 Elective III - Theory + Tutorial 143 Microwave Engineering */ Computer Networks** 144 Electronic Automation 151 Artificial Neural Networks And Fuzzy Logic 154 Wireless Sensor Networks 157 Elective IV 160 Audio Video Engineering 161 Advanced Power Electronics 163 Biomedical Electronics 165 Practicals Embedded Systems 167 Audio Video Engineering 168 Advanced Power Electronics 169 Biomedical Electronics 170 Project Stage-III 172
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
5
Program Educational Objectives (PEO)
(Electronics Engineering)
PEO No. Description of the Objective
1 Apply knowledge in Mathematics , Science and Engineering to solve
Electronics Engineering problems.
2 Ability to analyze and interpret data out of experimental findings.
3 Ability to understand professional & ethical responsibilities and
preparation to be a part of multidisciplinary team.
4 Ability to communicate effectively.
5 Knowledge of contemporary issues.
6 Ability to use the techniques, skills and modern Engineering tools
necessary for Engineering practice.
7 Provide students with a solid foundation in Electronics Engineering,
preparing them for career and professional growth.
8 To provide Engineering design experience, enabling students to explore
relationship between theory and practices.
9 Challenge traditional thinking and invent new approaches to solve
technical problems.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
6
MO
DU
LE
- I
II
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
7
SE MODULE III
Subject
No.
Subject Name Subject Code Teaching Scheme (Hrs. per week) Credits
Lecture Tutorial Practical
S1 Semiconductor
Devices & Circuits
EC 20101 3 0 0 3
Semiconductor
Devices & Circuits
EC 20201 0 1 0 1
S2 Analog
Communication
EC 20102 3 0 0 3
Analog
Communication
EC 20202 0 1 0 1
S3 Linear Algebra &
Statistics
EC20103 3 0 0 3
S4 Signals and
Systems
EC20104 3 0 0 3
P1 Semiconductor
Devices &
Circuits*
EC20301 0 0 2 1
P2 Analog
Communication
EC20302 0 0 2 1
SD3 Department
Specific Elective
EC243XX 0 0 2 1
GP3 Elective Soft skills -- 0 0 2 1
C V V1 Semiconductor
Devices & Circuits
+
Analog
Communication
EC20401 Comprehensive Viva Voce 1
Total 12 2 8 19
OE3 Institute Elective EC261XX 2 0 0 2
Total 2 0 0 2
List of Skill Development Electives(SD3)
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
8
Subject
No.
Subject Name Subject Code Teaching Scheme (Hrs. per week) Credits
Lecture Tutorial Practical
SD3
Applied
Electromechanics
for Robotics
EC24301 0 0 2 1
SD3
Electronic
measurement
EC24302 0 0 2 1
SD3
Matlab
fundamentals and
programming
techniques
EC24303 0 0 2 1
List of Open Electives (OE3)
( Offered by Electronics Dept. for Computer students )
Subject
No.
Subject Name Subject Code Teaching Scheme (Hrs. per week) Credits
Lecture Tutorial Practical
OE3 Applied
Electronics
2 0 0 2
OE3 Analog Electronics 2 0 0 2
OE3 Linear Circuit
Analysis
2 0 0 2
List of Open Electives (OE3)
(To be offered for Electronics/ E and TC students by other Departments )
Subject
No.
Subject Name Subject Code Teaching Scheme (Hrs. per week) Credits
Lecture Tutorial Practical
OE3 Computer
Architecture &
Operating System
EC26101 2 0 0 2
OE3 Business
Organization and
Management
EC26102 2 0 0 2
OE3 Database
Management
System
EC26103 2 0 0 2
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
9
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Nil
Objectives:
To make the students aware of following facets of semiconductor devices
Operation
Characteristics
Biasing (DC analysis)
Amplifier parameters (AC) analysis
Unit I (9 Hrs)
Semiconductor Diode
A) Intrinsic and extrinsic semiconductors, Conduction mechanism in extrinsic
semiconductors, density of states, E distance, Fermi Dirac probability function, Carrier
concentrations, Excess carriers, Recombination process, Drift, diffusion, Continuity,
Conductivity, Mobility, Mass action law, Einstein relationship.
Potential across Graded semiconductor, Open circuited step graded junction, Energy
Band diagram of p-n junction, Metallurgical junctions and Ohmic contacts, Depletion
region, Barrier potential, Forward and reverse biased diode operation, V-I characteristic
equation of diode, Temperature dependence of V-I characteristics, Forward and reverse
dynamic resistance, Small signal and large signal diode models, junction capacitances.
B) Diode data sheet specifications. Application of Diode as rectifier, clipper, clamper
and multiplier.
Unit II (9 Hrs)
Field Effect Transistor
A) JFET construction, Symbol, Basic operation, V-I Characteristics, Transfer
Characteristics (Shockley's Equation), Cut-off & Pinch-off voltages, Transconductance,
Input resistance & Capacitance. Drain to Source resistance, small signal JFET model.
MIS structures, two terminal structure: MOS capacitor, concept of accumulation,
depletion and inversion; four terminal structure: MOSFET, its I-V characteristics, drain
current equation in terms of W/L, Channel length modulation, brief introduction to MOS
scaling and scaling issues viz. short channel effects
B) Non ideal characteristics of MOSFET such as sub threshold conduction, body bias,
effect of temp.
EC20101: SEMICONDUCTOR DEVICES AND CIRCUITS
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
10
Unit III (6 Hrs)
Bipolar Junction Transistor
A) BJT as a device, Construction, typical junction voltages for cutoff, active and
saturation regions, concept of amplification, BJT configurations(CE, CB, CC), Small
signal-low frequency h-parameter model, Variation of h-parameters with operating point,
small signal high frequency π model.
B) Small signal and DC data sheet specifications for BJT , Small signal ‘r’ model
Unit IV (8 Hrs)
DC analysis of Transistors
A) DC analysis of BJT circuits, Concept of DC load line, DC biasing of BJT, Fixed bias,
Voltage divider bias and its analysis for stability factors. DC analysis of MOSFET
circuits, DC biasing of FET/MOSFET, Voltage divider bias and Self bias.
B) Biasing of BJT collector to base bias. Biasing of JFET - Biasing against device
variation, biasing for zero current drift
Unit V (8 Hrs)
AC analysis of Transistors
A) Analysis of CE, CC configuration for performance parameters in terms of h
parameters, Comparison of performance parameters with CE,CC and CB configurations.
Analysis of CS, CD, amplifiers using small signal JFET model.
B) Analysis of CB amplifier using small signal BJT model, analysis of CG amplifier
using small signal JFET model
Text Books
1. Integrated Electronics, Millman Halkias, Tata McGraw Hill
2. Electronic Devices, Thomas L. Floyd, Pearson Education
Reference Books
1. Solid State Electronic Devices, B.G. Streetman, PHI, New Delhi.
2.Electronic Devices, Thomas L. Floyd, Pearson Education
3. Electronic Devices & Circuit Theory, R. L. Boylestad, L. Nashelsky, PHI, New Delhi.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
11
FF No. : 654
EC20201: SEMICONDUCTOR DEVICES AND CIRCUITS
Credits: 01 Teaching Scheme: - - Tutorial 1 Hr/Week
Prerequisites: : Nil
Objectives:
To make the students aware of following facets of semiconductor devices
Operation
Characteristics
Biasing (DC analysis)
Amplifier parameters (AC) analysis
List of Contents
1. Drift current, diffusion current, Continuity, Conductivity, Mobility
2. Drift current, diffusion current, Continuity, Conductivity, Mobility
3. Mass action law, Einstein relationship.
4. MOSFET
5. BJT DC Analysis
6. BJT DC analysis
7. MOSFET DC Analysis
8. MOSFET DC Analysis
9. BJT AC analysis
10. BJT AC Analysis
11. MOSFET AC Analysis
12. MOSFET AC Analysis
Text Books
1. Integrated Electronics, Millman Halkias, Tata McGraw Hill
2. Electronic Devices, Thomas L. Floyd, Pearson Education
Reference Books
1. Solid State Electronic Devices, B.G. Streetman, PHI, New Delhi.
2.Electronic Devices, Thomas L. Floyd, Pearson Education
3. Electronic Devices & Circuit Theory, R. L. Boylestad, L. Nashelsky, PHI, New Delhi.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
12
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Nil
Objectives:
To carry out mathematical analysis of analog modulation techniques
To evaluate performance of receiver characteristics, radiation pattern of
antenna
To learn problems in communication link and remedies available
To learn basics which is mandatory to understand advanced subjects
To learn design of useful circuits required in communication system
Unit I ( 8+1Hrs)
Introduction To Communication System
A) Analog Communication & Digital Communication basics; Communication System
Overview; The Electromagnetic & Optical Spectrum and its usage; Types of
Electronic Communication; Base band Communication – Merits, demerits,
applications; Communication Channels; Modulation- Need, Types
B) Spectrum Allocation & Management; Applications of Electronic Communication
Unit II (8+1Hrs)
Amplitude Modulation
A) AM Concepts; Mathematical Treatment for an AM signal; Spectral Analysis;
Modulation Index; Efficiency; Power Relations; DSB-SC and SSB-SC Modulation
Techniques – Generation Methods, BW requirements, merits, demerits & applications
B) Low level and high level AM Modulator; Frequency Division Multiplexing & its
applications
Unit III (8+1Hrs
Angle Modulation
EC 20102 :: ANALOG COMMUNICATION
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
13
A) Basic principles of FM and PM; Mathematical Representation; Modulation Index and
Sidebands; Spectral Analysis; Noise Suppression Effects of FM; FM Generation Methods
and Demodulators; pre-emphasis and de-emphasis
B) NBFM and WBFM; Comparison – AM, FM, PM
Unit IV (8+1Hrs)
Communication Receivers
A) Basic Principles of Signal Reproduction; TRF Receivers; Super Heterodyne
Receivers; Intermediate Frequency and Image Frequency; Diode Detectors; DSB-SC and
SSB-SC Detectors; Expressing Noise Levels, Noise in Cascaded Stages
B) Dual Conversion Receivers; Noise Classification
Unit V (8+1Hrs)
Antennas and Wave Propagation
A) Antenna Fundamentals –Radio waves, Antenna operation, Antenna Reciprocity,
Basic Antenna; Common Antenna Types; Propagation Mechanisms - Ground Wave,
Sky Wave, Line of Sight; Calculating Received Power; Fading Mechanism
B) Common Propagation Problems – Multipath Fading, Shadow Fading, Rayleigh
Fading, remedies on these problems
Text Books
1. “Principles of Electronic Communication Systems”, Louis E Frenzel, Tata McGraw
Hill Publications, Third Edition
2. “Electronic Communication”, Kennedy & Devis, Tata McGraw Hill Publications
Reference Books
1. “Electronic Communication”, Dennis Roddy & Coolen, Tata McGraw Hill
Publications
2. “Electronic Communication Systems”, Wayne Tomasi, Fourth Edition
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
14
FF No. : 654
EC20202:: ANALOG COMMUNICATION
Credits: 01 Teaching Scheme: - - Tutorial 1 Hr/Week
Prerequisites: : Nil
Objectives:
To identify various communication channels
● To understand bandwidth requirement, power, modulation index of AM and FM
signals
● To realize performance of transmitters and receivers
● To know radiation & receiving pattern of an antenna
● To understand noise calculations in receiver circuits
List of Contents
1. Fourier Analysis of signals such as sine wave, triangular wave and square wave
2. Study of various communication channels (microwave, fiber optic cable etc)
3. To measure the attenuation of transmission line
4. Study of series and parallel resonant circuits
5. Comparison of Class A, B, AB, C amplifiers
6. Study of AM Transmitter
7. PAM Generation
8. FM modulation using reactance modulator
9. Design of pre-emphasis and de-emphasis circuit for a FM modulator. Plot the
necessary graphs.
10. Estimating the range of image frequency that can be interfered with commercial AM
broadcasting channel.
11. Calculating overall noise factor of a three stage cascaded amplifier system.
12. To study various Antenna types
13. Receiving pattern of an Antenna using field strength meter
Text Books
1. “Principles of Electronic Communication Systems”, Louis E Frenzel, Tata
McGraw Hill Publications, Third Edition
2. “Electronic Communication”, Kennedy & Devis, Tata McGraw Hill Publications
Reference Books
1. “Electronic Communication”, Dennis Roddy & Coolen, Tata McGraw Hill
Publications
2. “Electronic Communication Systems”, Wayne Tomasi, Fourth Edition
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
15
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Engineering Mathematics I, Engineering Mathematics II.
Objectives:
To study basic concept of linear algebra.
To study basic concept of random process.
Unit I
(6+1 Hrs)
Vector Spaces
A) Vector spaces, Subspaces, Four Fundamental subspaces, Inner product, Inner
products , Cauchy – Schwarz inequality, Norms, Orthogonality, Gram – Schmidt,
Orthonormalization, Orthonormal basis, Expansion in terms of orthonormal basis –
Orthogonal complement, Eigen value – Eigenvector pairs Distinct real Eigen values,
Repeated Eigen values, Complex Eigen values
B) Fourier series, Decomposition of a vector with respect to a subspace and its
orthogonal complement – Pythagoras Theorem, Strategy for choosing the basis for the
four fundamental subspaces.
Unit II (6 +1 Hrs)
General Matrices
A) Real symmetric, Positive and Negative Definite and Semi definite matrix, Hermitian
Matrix and its properties, matrices TAA and AAT
,Pseudo inverse and Optimal solution
of a linear system of equations, Geometry of Pseudo inverse, Singular Values, Singular
Value Decomposition.
B) Properties of Eigen values and eigenvectors, Unitary/Orthogonal, Diagonalizbility of
Complex Matrix, Rank, Nullity, Range and Null Space of TAA and AAT
.
Unit III (9 +1 Hrs)
EC20103:LINEAR ALGEBRA AND STATISTICS
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
16
Elements of Calculus and Vector Calculus
A) Sequences and Limits, Differentiabilty, The Derivative Matrix, Differentiation Rules,
Level sets and Gradients, Jacobian and Hessian Matrix.Vector function, Motion on a
curve, Curvature and Components of Acceleration, Partial Derivatives, Directional
Derivatives, Tangent Planes and Normal Planes, Divergence and Curl Line integrals,
independence of path, Double Integrals, Green’s Theorem, Surface Theorem, Stokes
Theorem, Triple integrals, Divergence Theorem.
B) Zeros and Poles, Residues and Residue Theorem, Evaluation of Real integrals.
Unit IV (9 +1 Hrs)
Probability and Random Variable
A) Relative frequency interpretation of probability; Axiomatic definition of probability
measure and its properties; Conditional probability; Theorem of total probability; Baye’s
theorem, Independence of events; Sequences of events and their limits; Continuity of
probability measures. Definition of random variables, continuous and discrete random
variables, cumulative distribution function (cdf) for discrete and continuous random
variables; probability mass function (pmf); probability density functions (pdf) and
properties, The Central Limit Theorem,distributions of the sample mean and the sample
variance for a normal population. Jointly distributed random variables, conditional and
joint density and distribution functions, independence; Bayes’ rule for continuous and
mixed random variables, Function of random a variable, pdf of the function of a random
variable; Function of two random variables; Sum of two independent random variables,
Expectation: mean, variance and moments of a random variable, Joint moments,
conditional expectation; covariance and correlation; independent, uncorrelated and
orthogonal random variables, Random vector: mean vector, covariance matrix and
properties Some special distributions: Uniform, Gaussian and Ray. leigh distributions;
Binomial, and Poisson distributions; Multivariate Gaussian distribution.
B) Chi-Square, Vector-space representation of random variables, linear independence,
inner product, Schwarz Inequality, Elements of estimation theory: linear minimum
mean-square error and orthogonality principle in estimation; Moment-moment generating
and characteristic functions and their applications, Bounds and approximations:
Chebysev inequality and Chernoff Bound
Unit V
(10 +1 Hrs)
Random process
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
17
A) Random process: realizations, sample paths, discrete and continuous time processes,
Probabilistic structure of a random process; mean, autocorrelation and autocovariance
functions. Stationarity: strict-sense stationary (SSS) and wide-sense stationary (WSS)
processes Autocorrelation function of a real WSS process and its properties, cross-
correlation function, Ergodicity and its importance, Spectral representation of a real
WSS process: power spectral density, properties of power spectral density ; cross-power
spectral density and properties; auto-correlation function and power spectral density of a
WSS random sequence, linear shift-invariant discrete-time system with a WSS sequence
as input , Examples of random processes: white noise process and white noise sequence;
Gaussian process; Poisson process, Markov Process. Monte CarloTechnique.
B) Linear time-invariant system with a WSS process as an input: sationarity of the
output, auto-correlation and power-spectral density of the output; (examples with white-
noise as input);
Text Books
1. Erwin Kreyszig, ‘Advanced Engineering Mathematics’, John Wiley and sons, Inc.,
10th
Edition,Dec. 2010.(c)2011.
2. David C. Lay, ‘Linear Algebra and its applications’, Pearson Education, Inc.
(Indian Edition) (c) 2004.
3. Papoulis, A., ‘Probability, Random Variables and Stochastic Processes’,
McGraw Hill (3Prd P edition), 1991.
Reference Books
1. Dennis G. Zill, Michael Cullen, ‘ Advanced Engineering Mathematics’, Narosa
Publication.
2. Wozencraft, J. M. and Jacobs, I. J., ‘Principles of Communication
Engineering’, John Wiley, 1965.
3. M. Hays: Statistical Digital Signal Processing and Modelling, John Willey and
Sons, 1996.
4. Simon Haykin: Adaptive Filter Theory, Prentice Hall, 1996.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
18
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Calculus and Complex numbers.
Objectives
● Continuous-time and discrete-time concepts in an unified way
● Significance of LTI systems and its analysis
● Fourier series representation of different signals and its applications
● Solving differential equations using Laplace Transform
● Concept of correlation , ESD and PSD
Unit I (8+1Hrs)
Unit Name : Introduction To Signals And Systems
A) .Introduction, History, Application of embedded systems, Hardware and software
architecture ,Processor selection for Embedded System, Memory Architecture and IO
devices , Interrupt Service Mechanism ,Context switching, Device Drivers
B. Definition and classification of standard signals , Signal operations – Operations
performed on dependent and independent variables, Definition and classification of
systems
Unit II (8 +1Hrs)
Unit Name : Time domain representation of Linear Time-Invariant Systems
A.Introduction , Convolution : Impulse response of LTI systems ( Continuous and
discrete) properties of impulse response representation for LTI systems
B.Practice problems
Unit III (8 +1Hrs)
Unit Name : Fourier Analysis of Signals
EC20104:: SIGNALS AND SYSTEMS
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
19
A. Continuous Time Fourier Series(CTFS), Symmetry properties of CTFS, Continuous
Time Fourier Transform (CTFT) , CTFT properties , Frequency response of LTI
systems, Ideal low pass filter, Sampling Theorem
B.Fourier transform of periodic signals
Unit IV (8 +1Hrs)
Unit Name : Correlation, Energy Spectral Density And Power Spectral Density
A.Energy Spectral density, Autocorrelation and Cross correlation of energy signals –
Properties and Applications, Power Spectral Density, Autocorrelation and Cross
correlation of power signals – Properties and Applications
B.Spectral characteristics of random signals and noise
Unit V (8 +1Hrs)
Unit Name : Laplace Transform
A.Unilateral and Bi-lateral Laplace Transform, The Region of convergence, Inverse
Laplace Transform using partial fraction expansion , Analysis of LTI systems.
B.Properties of the Laplace Transform
Text Books
1 Haykin Simon & Veen Barry Van, ‘Signals And Systems’ New York. John Wiley &
Sons, Inc,
2.Ramesh babu & Anand Natarajan , ‘Signals and Systems’, Scitech Publication
Reference Books
1. Oppenheim Alan V, Willsky Alan S & Nawab Hamid: Signals And Systems. (2) New
Delhi. Prentice Hall Of India, 2004
2. Roberts Michael J, ‘Signals and Systems’ New Delhi. Tata McGraw Hill Publishing
Company Limited, 2003.
3. Haykin Simon ,’An Introduction to analog and digital communications’ John
Wiley & Sons, Inc.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
20
FF No. : 654
EC20301:: SEMICONDUCTOR DEVICES AND CIRCUITS
Credits: 01 Teaching Scheme: - Laboratory 2 Hrs/Week
Prerequisites: Nil
Objectives:
Students should learn to verify experimentally
Transfer characteristics of device under study
Biasing of the device
Build and test amplifier circuit
Simulate amplifier circuit
List of Practical
1. BJT Characteristics
2. BJT Biasing
3. BJT as a switch
4. BJT CE Amplifier
5. BJT CC Amplifier
6. JFET characteristics
7. MOSFET characteristics
8. MOSFET as a switch
9. MINIPROJECT.
Text Books
1. Integrated Electronics, Millman Halkias, Tata McGraw Hill
2. Electronic Devices, Thomas L. Floyd, Pearson Education
Reference Books
1. Solid State Electronic Devices, B.G. Streetman, PHI, New Delhi.
2.Electronic Devices, Thomas L. Floyd, Pearson Education
3. Electronic Devices & Circuit Theory, R. L. Boylestad, L. Nashelsky, PHI, New Delhi.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
21
FF No. : 654
EC 20302:: ANALOG COMMUNICATION
Credits: 01 Teaching Scheme: - Laboratory 2 Hrs/Week
Prerequisites: Nil
Objectives:
● To analyze different modulated signals in time domain and frequency domain ● To understand bandwidth requirement, power, modulation index of AM and FM signals ● To realize measurement of performance parameters of super heterodyne receiver ● To know radiation pattern of yagi antenna To simulate the performance of analog communication system in presence of noise in
MATLAB environment
List of Practical
1. Fourier Analysis of signals such as sine wave, triangular wave, square wave using
Digital Storage Oscilloscope (DSO)
2. Generation and detection of DSB-FC (AM) signal
3. Generation and detection of DSB-SC signal
4. Generation and detection of SSB-SC signal
5. FM Generation & demodulation
6. Measurement of Receiver Characteristics
7. Measurement of radiation pattern for an Antenna
8. Design and implementation of analog communication system in presence of noise in
MATLAB environment
a. Use any one modulation technique from DSF-FC, DSB-SC, SSB, FM.
b. For addition of noise Random noise, Gaussian noise, Rayleigh fading noise can be
considered
9. Mini-Project
Text Books
1. “Principles of Electronic Communication Systems”, Louis E Frenzel, Tata
McGraw Hill Publications, Third Edition
2. “Electronic Communication”, Kennedy & Devis, Tata McGraw Hill Publications
Reference Books
1. “Electronic Communication”, Dennis Roddy & Coolen, Tata McGraw Hill
Publications
2. “Electronic Communication Systems”, Wayne Tomasi, Fourth Edition
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
22
List of Skill Development Electives(SD3)
Sr. No. Subject Name Subject Code
01 Applied Electromechanics for Robotics EC24301
02 Electronic measurement EC24302
03 Matlab fundamentals and programming techniques EC24303
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
23
FF No. : 654
Prerequisites: NIL
Credits: 01 Teaching Scheme: - Laboratory 2 Hrs/Week
Objectives:
To study basic electronic components in robotics, it’s assembly and testing
List of Practicals
1. Introduction to basic components- identification and selection
( IR sensors, Diodes, LEDs, Potentiometer, Controller, Driver)
2. In circuit operation of above components
3. Introduction to electromechanical devices- Relays, Position switches
DC Motors etc.
4. Introduction to power supplies- Rectifier module, filter, regulator
5. Speed control and direction reversal of motor
6. PCB soldering technique and PCB assembly
7. PCB soldering technique and PCB assembly
8. Algorithm for Robot maneuvering
9. Mechanical assembly and Testing
10. Mechanical assembly and Testing
EC24301:: APPLIED ELECTROMECHANICS FOR ROBOTICS
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
24
FF No. : 654
Credits: 01 Teaching Scheme: - Laboratory 2 Hrs/Week
Prerequisites: Nil Objectives:
● To identify, test the various electronic components & instruments.
● To analyze different signals in time domain and frequency domain.
● To understand specifications of various electronics instruments
● To realize measurement on CRO,DSO,Spectrum analyzer LCR-Q meter,DFM
● To develop the skills for various parameter measurements.
List of practicals
1. Voltage, current and resistance measurement using multimeters, component testing
using multimeters.
2. Observe & measure voltage by voltage source and waveforms by function generator
on CRO.
3. High frequency measurement using DSO, storing and retrieving of results, different
modes , mathematical operations on DSO.
4. LCR-Q meter a) Measure L , C & R b) Measure Q, Power factor of given component.
5. Measurement of THD using distortion factor meter.
6. Measurement by higher and lower range DMMs and compare accuracy.
7. Measurement on Frequency Counter. Principle of frequency counter, study of its different modes of measurement such as
Time, frequency ,ratio. 8. Observe & measure spectrum of sine, square and triangular waveform using
spectrum analyzer.
9. Filter & HF amplifier response analysis using spectrum analyzer.
EC 24302 :: ELECTRONIC MEASUREMENT
Text Books
1. H.S. Kalsi, “Digital Instrumentation”, Tata McGraw Hill “Electronic
Communication”, Kennedy & Devis, Tata McGraw Hill Publications
2. Cooper Helfric, “Electric Instrumentation & Measurement Techniques”, Prentice
Hall
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
25
FF No. : 654
Credits: 01 Teaching Scheme: - Laboratory 2 Hrs/Week
Prerequisites: Nil
Objectives:
Students should be acquainted with basic MATLAB Programming concepts
List of Practicals
1. Basic commands of Matlab
2. Various data types, storage & retrieval
3. Matrix manipulation
4. Matrices Generation
5. Basic Plotting
6. Various waveform Generators
7. String Handling
8. Control statements
9. Reading & storing Image Files
10. Operations on Images
11. GUI
12. GUI
Reference Books
1. Getting Started with MATLAB: Version 7 by Rudra Pratap
EC24303:: MATLAB FUNDAMENTALS AND PROGRAMMING
TECHNIQUES
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
26
MO
DU
LE
- I
V
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
27
SE MODULE IV
Subject
No.
Subject Name Subject Code Teaching Scheme (Hrs. per week) Credits
Lecture Tutorial Practical
S5 Control Systems
(MD)
EC21101 3 0 0 3
Control Systems
(MD)
EC21201 0 1 0 1
S6 Digital Electronics EC20105 3 0 0 3
Digital Electronics EC20203 0 1 0 1
S7 Data Structure &
Algorithms
EC20106 3 0 0 3
S8 Networks and
Lines
EC20107 3 0 0 3
P3 Digital Electronics EC20303 0 0 2 1
P4 Data Structure &
Algorithms
EC20304 0 0 2 1
SD4 Department
Specific Elective
EC243XX 0 0 2 1
GP4 Elective-Hobby/
Health
-- 0 0 2 1
C V V2 Digital Electronics
+
Data Structure &
Algorithms
EC20402 Comprehensive Viva Voce 1
Total 12 2 8 19
OE3 Institute Elective EC261XX 2 0 0 2
Total 2 0 0 2
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
28
List of Skill Development Electives(SD4)
Subject
No.
Subject Name Subject Code Teaching Scheme (Hrs. per week) Credits
Lecture Tutorial Practical
SD4 Electronic
Hardware
Workshop
EC24304 0 0 2 1
SD4 Electronic
Software
Workshop
EC24305 0 0 2 1
SD4 C++
Programming
EC24306 0 0 2 1
List of Open Electives (OE3)
( Offered by Electronics Dept. for Computer students )
Subject
No.
Subject Name Subject Code Teaching Scheme (Hrs. per week) Credits
Lecture Tutorial Practical
OE3 Applied
Electronics
EC26101 2 0 0 2
OE3 Analog Electronics EC26102 2 0 0 2
OE3 Linear Circuit
Analysis
EC26103 2 0 0 2
List of Open Electives (OE3)
( To be offered for Electronics/ E and TC students by other Departments )
Subject
No.
Subject Name Subject Code Teaching Scheme (Hrs. per week) Credits
Lecture Tutorial Practical
OE3 Computer
Architecture &
Operating System
CS26104 2 0 0 2
OE3 Business
Organization and
Management
IP26101 2 0 0 2
OE3 Database
Management
System
CS26104 2 0 0 2
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
29
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Nil
Objectives:
To understand open loop and closed loop (feedback) systems.
To study of time domain and frequency domain analysis of control systems for
stability analysis.
To study compensation technique that can be used to stabilize control systems.
To understand concept of state, state variables and state model.
Unit I (8+1 Hrs)
Introduction
A) Definition of control system, Open loop, closed loop, Feedback and Feed-Forward
control, Mathematical modeling of a physical system, Laplace transforms, Differential
equations of a physical system and concept of transfer function. Block Diagram
Algebra, Signal flow graph – Mason’s Gain formula.
B) Study of different control system.
Unit II (8+1 Hrs)
Time Domain Analysis and Design
A) Standard test inputs, Time response of first order and second order systems,
Steady state analysis: steady state error and error constants, transient response
specifications. Introduction, Pole-Zero Plots, Hurwitz Criteria, Routh Array.
B) Effect of addition of Ploes and Zeros on Stability.
Unit III (8+1 Hrs)
Root Locus and Stability Analysis
A) Introduction, Root Locus: Definition and Properties, Rules for Constructing Root
Locus, stability Analysis, effect of adding poles and zeros on Root loci. Design of
compensators using Root Locus. Inverse Root Locus Technique.
B) Analysis of systems with Dead-time
EC21101:: CONTROL SYSTEMS
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
30
Unit IV 9+1 Hrs)
Frequency Domain Analysis
A) Concept of frequency response, frequency domain specifications, Bode plots
gain margin, phase margin, design of lead/lag compensators using Bode plots.
Introduction to Polar Plots and Nyquist plots.
B) Correlation between time and frequency response, comparison of time domain and
frequency domain specifications.
Unit V (8+1 Hrs)
State Variable Analysis and Design
A) Concept of state, state variables and state model, State models for continuous time
systems(SISO, MIMO) – derivation of transfer function from state models and vice
versa, Solution of state equations – state transition matrix .
B) Controllability and Observability, State feedback controller using pole placement,
Observers
Text Books
“Control Systems Engineering”, Nagrath I. J. and M. Gopal, 5th
Edition New Age
International
“Modern Control Engineering”, Ogata Katsuhiko, 4th Edition, PHI
Reference Books
“Control System Engineering”, Norman S. Nise, 5th Edition, Wiley.
“Control System”, Les Frnical, CENGAGE Learning, India.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
31
FF No. : 654
EC21201: CONTROL SYSTEMS
Credits: 01 Teaching Scheme: - - Tutorial 1 Hr/Week
Prerequisites: : Nil
Objectives:
To understand open loop and closed loop (feedback) systems.
To study of time domain and frequency domain analysis of control systems for
stability analysis.
To study compensation technique that can be used to stabilize control systems.
To understand concept of state, state variables and state model.
List of Contents
1. System representation
2. Block diagram reduction
3. Signal flow graph
4. Transient response
5. Hurwitz Criteria and Routh Array
6. Root locus
7. Root locus
8. Bode plot
9. Bode plot
10. Polar plot
11. Nyquist plot
12. State variable
Text Books
1. “Control Systems Engineering”, Nagrath I. J. and M. Gopal, 5th
Edition New Age
International
2. “Modern Control Engineering”, Ogata Katsuhiko, 4th Edition, PHI
Reference Books
1. “Control System Engineering”, Norman S. Nise, 5th Edition, Wiley.
2. “Control System”, Les Frnical, CENGAGE Learning, India.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
32
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Binary Logic, Number System
Objectives:
To introduce
Basics of digital circuits using building blocks such as logic gates and flip-flops.
Design of different combinational and sequential circuits and their applications.
Understanding basics of programmable logic devices.
Unit : I (8+1 Hrs)
BINARY ARITHMETIC & LOGIC SIMPLIFICATION
A) Binary, Hexadecimal number systems, Inter conversions, 1’s complement, 2’s
complement arithmetic, Binary Coded Decimal codes, Excess-3 Code, Gray code,
Standard logic gates, Universal logic gates, Derived gates, Simplification of logic
function using Boolean algebra, De Morgan’s Theorem, Sum-of-Products and Product-
of-Sums forms of Boolean function, NAND and NOR implementation, Canonical and
Standard forms, Karnaugh map up to 4 variables.
B) EBCDIC Code, ASCII code, problems on k-map
Unit II (8+1 Hrs)
COMBINATIONAL LOGIC DESIGN
A) Design procedure for combinational logic circuits, Code conversion, Half Adder,
Full Adder, IC-7483, Look Ahead Carry, BCD Adder, BCD Subtractor, Parity generator,
Parity checker, Digital Comparator, Multiplexer and Demultiplexer, their use in
combinational logic designs, multiplexer and demultiplexer trees, Encoder and Decoder,
Priority Encoder, Synthesis of combinational logic circuits.
B) Code conversion, Comparator IC-7485.
Unit III (8+1 Hrs)
SEQUENTIAL LOGIC DESIGN
A) Latches and Flip-flops: SR, D, JK, Master-Slave JK, and T, use of preset and clear
terminals, schematic symbol, truth table and excitation table, conversion of flip flops,
EC 20105: DIGITAL ELECTRONICS
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
33
design and analysis of asynchronous and synchronous counters, up/down counters,
modulo counters, concept of propagation delay, set up time, hold time, Johnson and Ring
counters, application of counters, lock out condition, clock skew, clock jitter, sequence
generators, shift registers: SISO, SIPO, PISO, PIPO, bi-directional shift registers, Pseudo
Random Binary Sequence (PRBS) generator.
B) Counter IC7490, IC 7493, IC 74191, Shift Register IC 7495.
Unit IV (8+1 Hrs)
FINITE STATE MACHINES
A) Introduction to state machine, Basic Design steps for these sequential circuits using
state diagram, State Table, State assignment, finite state machine, Mealy machine and
Moore machine representation and implementation, sequence detector, Designing state
machine using state diagram.
B) Design problems based on finite state machine.
Unit V (8+1 Hrs)
PLD AND SEMICONDUCTOR MEMORIES
A) Programmable logic devices: architecture, Study of PAL, PLA, Designing
combinational circuits using PLDs, Introduction to CPLD and FPGA.
B) Classification and characteristics of memories RAM, SRAM and DRAM, ROM,
PROM, EPROM, EEPROM.
Text Books
1. Donald P Leach, Albert P Malvino, ‘Digital Principles and Applications’ (TMGH), 6th
Edition
2. M. Morris Mano, Digial Design - 3rd
Edition (Pearson)
Reference Books
1. Digital Systems :Principles and Applications – Ronald J Tocci, Neal S Widmer, 8th
Edition ( PHI- EEE)
2. Stephen Brown, “Fundamentals of digital logic design with VHDL” 1st edition, TMH
Publication
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
34
FF No. : 654
Credits: 01 Teaching Scheme: - Tutorial 1 Hr/Week
Prerequisites: Binary Logic, Number System
Objectives:
To design combinational logic circuits & sequential logic circuits
List of Tutorials
1. Binary Arithmetic
2. Simplification and implementation of a Boolean function using canonical and
standard forms
3. Simplification and implementation of a Boolean functions using k-map
4. Multiplexer and Demultiplexer.
5. Encoder and decoder
6. Flip-flop conversion
7. Up/Down Counters
8. Pulse Train Generator
9. Mealy Machine
10. Mealy Machine
11. Moore Machine
12. Moore Machine
Text Books
1. Donald P Leach, Albert P Malvino, ‘Digital Principles and Applications’ (TMGH), 6th
Edition
2. M. Morris Mano, Digial Design - 3rd
Edition (Pearson)
Reference Books
1. Digital Systems :Principles and Applications – Ronald J Tocci, Neal S Widmer, 8th
Edition ( PHI- EEE)
2. Stephen Brown, “Fundamentals of digital logic design with VHDL” 1st edition, TMH
Publication
EC 20203 :: DIGITAL ELECTRONICS
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
35
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Basics of ‘ C’ Programming Language
Objectives:
To study efficient algorithms for a number of fundamental problems
To study techniques for designing algorithms using appropriate data structures,
To understand the correctness of an algorithms
To design an algorithm
To calculate the time complexity and space complexity of an algorithm
To optimize the algorithms
To apply the algorithm to find the solution of given problem..
To create data structures depending on the application.
Unit I
(8 +1 Hrs)
Analysis of Algorithms and Fundamentals of Data Structures
A) Analysis of algorithm, Performance Consideration, Time and Space Complexity,
Asymptotic notation, Data Type, Data Object and Data Structure, Abstract Data
Type (ADT). Types of Data Structures, Searching and Sorting Techniques:
merge, quick, radix, selection, heap. Hashing, concept of collision and analysis of
collision resolution techniques.
B) Analysis of all Sorting and searching methods.
Unit II (8 + 1 Hrs)
Linear Data Structures
A) Concept of sequential organization and Ordered List, Linear Data Structured using\
Linked organization: Dynamic Memory Management, Types of Linked List
Concept of stack, stack as ADT , Representation of Stack using Array and Linked List
Concept of queue, Queue as ADT, Representation of Queue using Array and Linked List
B) Dictionaries: skip-lists
EC20106: DATA STRUCTURES AND ALGORITHMS
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
36
Unit III (6 + 1 Hrs)
Applications of Linear Data Structures
A) Generalized Linked List, Polynomial Manipulations, Infix to Postfix Conversion
and Evaluation, Validity of Parenthesis, Types of queue - Circular Queue,
B) Priority Queue
Unit IV (10 + 1 Hrs)
NonLinear Data Structures – Trees
A) Basic Terminology of Trees, Concept of Binary Tree, Concept of Binary Search Tree
,Construction and Traversal of BT, operations on BT, Threaded Binary Tree,
Hauffman tree. Priority Queue and Heap, heap sort.
B) Trees and red-black trees
Unit V (8 + 1 Hrs)
Graphs
A) Basic Terminology of Graphs, Types of Graphs, Graph Representation, Elementary
Graph Operation and Graph Traversal, Directed acyclic graphs: topological sort and
longest path, OBST, Spanning Tree – Kruskal’s and Prim’s Algorithm Shortest path
algorithm. – Dijksta’s Shortest Path Algorithm,
A)
B) Shortest and longest paths in directed acyclic graphs.
Text Books
1. Tenenbaum A M & Langsam Y: Data Structure Using C. Prentice Hall Of India
New Del
2. Horowits E & Sahni S: Fundamentals of Data Structures. Gurgaon. Galgotia
Book Source New Delhi.
Reference Books
1. Kruse R L, Leung B P & Tondo C L: Data Structure And Programming Design In C.
Prentice Hall Of
India Pvt.ltd.
2. Kakde O G & Deshpande ,” Data Structures And Algorithms”. Indian Society For
Technical E
3. Sahni S: Data Structures, Algorithms,& Applications In C++. Mcgraw Hill Boston.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
37
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Nil
Objectives:
To study various Networks Theorems.
To study Network topology and graph.
To study Two-port Networks, its functions and parameters with performance
To study system behavior using Pole zero plot.
To understand and implement filters.
To study variety of impedances and attenuators.
To study the concept of resonance.
To study concept transmission line.
Unit I (8+1 Hrs)
Networks Theorems and Network Topology
A) Network Theorems: Superposition, Thevenin’s, Norton’s and Maximum Power
transfer Theorems. Concept of Network Topology, Terms used in Topology,
Relation between Twigs and Links Properties of a Tree in a Graph, Formation
of Incidence Matrix [Ai], number of tree in Graph.
B) Cut –Set Matrix, Network Equilibrium Equation.
Unit II (8+1 Hrs)
Two Port Network Parameters and Functions
A. Terminal characteristics of network: Z, Y, h, ABCD Parameters; Reciprocity and
Symmetry conditions, Interrelation of Parameters, interconnection of parameters.
Network functions for one port and two port networks.
B. Pole-zeros of network functions and network stability.
Unit III (9+1 Hrs)
EC20107:: NETWORKS AND LINES
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
38
Filters and Attenuators
C) Classifications: Symmetrical and Asymmetrical networks. Properties of two port
Network: Symmetrical Networks (T and Π only). Z0 and γ in terms of circuit
components, open and short circuit parameters. Filter fundamentals, Constant K-
LPF, HPF, BPF and BSF, m derived LPF and HPF. Introduction to Neper and
Decibel, Relation between Neper and Decibel, Symmetrical T and Π type
attenuators, Lattice attenuator, Bridge T-attenuator.
D) NBFM and WBFM; Comparison – AM, FM, PM
attenuators, Lattice attenuator, Bridge T-attenuator.
B. Asymmetrical Networks: Image Impedance and Iterative Impedance (L-Section
only). Terminating half sections. Asymmetrical L- type.
Unit IV (8+1 Hrs)
Resonance
C) Significance of Quality factor. Series Resonance: Impedance, Phase angle variations
with frequency, Voltage and current variation with frequency, Bandwidth, Selectivity
Resonant frequency and admittance variation with frequency, Bandwidth and
selectivity.
D) Series Resonance: Effect of Rg on BW & Selectivity. Magnification factor. Parallel
resonance: General case: Resistance present in both branches.
Unit V (7+1 Hrs)
Transmission Line Theory
A. Types of Transmission lines, Transmission Line Equation, Equivalent circuits,
Primary and Secondary line constants, Terminations of transmission lines.
B. VSWR and Reflection Coefficient.
Text Books
3. “Circuit Theory (Analysis and Synthesis )”,Chakrabarti, Dhanpat Rai and Co. 4th
Revised Edition
4. “Network Lines and Fields” John D.Ryder, PHI, 2nd
Edition
Reference Books
3. “Network Analysis”, Van Valkenberg, PHI
4. ”Electrical Networks “, Ravish R Singh, Tata Mc-Graw Hill
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
39
FF No. : 654
Credits: 01 Teaching Scheme: - Laboratory 2 Hrs/Week
Prerequisites: Binary Logic, Number System
Objectives:
To design and implement combinational logic circuits & sequential logic circuits
List of Practicals
1. Code Conversion using logic gates
2. Design & implement comparator using IC 7485
3. Design & implement BCD Adder using IC 7483
4. Design & implement combinational logic circuit using multiplexer & de-multiplexer
5. Design & implement 3 bit up-down ripple counter using flip-flop
6. Verification of mod-n counters using IC 7490, IC 7493 & IC 74191
7. Design & implement pulse train generator using IC 7495
8. Design & implement sequence detector using finite state machine.
9. Mini Project based on syllabus.
Text Books
1. Donald P Leach, Albert P Malvino, ‘Digital Principles and Applications’ (TMGH), 6th
Edition
2. M. Morris Mano, Digial Design - 3rd
Edition (Pearson)
Reference Books
1. Digital Systems :Principles and Applications – Ronald J Tocci, Neal S Widmer, 8th
Edition ( PHI- EEE)
2. Stephen Brown, “Fundamentals of digital logic design with VHDL” 1st edition, TMH
Publication
EC 20303 :: DIGITAL ELECTRONICS
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
40
FF No. : 654
Credits: 01 Teaching Scheme: - Laboratory 2 Hrs/Week
Prerequisites: Basics of ‘ C’ Programming Language
Objectives: Learn techniques for implementing algorithms using appropriate data
structures.
List of Practicals
1. Implement the following searching algorithms
i. Binary Search
ii. Linear search
2. Implement the following sorting algorithms
i. Bubble Sort
ii. Insertion Sort
iii. Quick Sort
iv. Merge Sort.
3. Create and manipulate database using structures.
4. Create and manipulate database using Singly Linked List
5. Implement
i. Doubly Linked List
ii. Circular Linked List
6. Implement Stack
i. using array and
ii. linked list
7. Implement Queue
i. using array and
ii. linked list
8. Write a program to add two polynomials
9. Write a program to convert expression in infix form to postfix form
10. Write a program to create binary tree and perform operations on it.
11. Write a program to create graph using adjacency list/matrix
12. Write a program to find shortest path using Dijkstra’s Algorithm
EC20304::DATA STRUCTURES AND ALGORITHMS
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
41
Text Books
1. Tenenbaum A M & Langsam Y: Data Structure Using C. Prentice Hall Of India
New Del
2. Horowits E & Sahni S: Fundamentals of Data Structures. Gurgaon. Galgotia
Book Source New Delhi.
Reference Books
Kruse R L, Leung B P & Tondo C L: Data Structure And Programming Design In C.
Prentice Hall Of
India Pvt.ltd.
Kakde O G & Deshpande ,” Data Structures And Algorithms”. Indian Society For
Technical E
Sahni S: Data Structures, Algorithms,& Applications In C++. Mcgraw Hill
Boston.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
42
List of Skill Development Electives ( SD4)
Subject
No.
Subject Name Subject Code
01 Electronic Hardware Workshop EC24304
02 Electronic Software Workshop EC24305
03 C++ Programming EC24306
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
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43
FF No. : 654
EC24304:: ELECTRONICS HARDWARE WORKSHOP
Credits: 01 Teaching Scheme: - Laboratory 2 Hrs/Week
Prerequisites: Nil
Objectives: To make the students aware of
Different components
Different instruments
PCB manufacturing
List of Practical
1 Study of Passive and Active components
2 Study of Dual trace oscilloscope, Signal generator, power supply and
Digital multimeter
3 Soldering of circuit on general purpose PCB.
4 Artwork design for analog circuit
5 Preparation of PCB 1
6 Preparation of PCB 2
7 Drilling of PCB
8 Soldering of PCB
9 Mini Project
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
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44
FF No. : 654
Credits: 01 Teaching Scheme: - Laboratory 2 Hrs/Week
Prerequisites: Basic electronics
Objectives:
To study design ,capture, simulation and verification of electronic circuits
List of practicals:
1. Design capture-electronic circuit 1
2. Functional simulation of electronic circuit 1
3. Functional verification of electronic circuit 1
4. Design capture-electronic circuit 2
5. Functional simulation of electronic circuit 2
6. Functional verification of electronic circuit 2
7. Design capture of electronic circuit 3
8. Simulation and verification of electronic circuit 3
9. Project
References
1) Mentor graphics higher education program manual
EC24305:: ELECTRONIC SOFTWARE WORKSHOP
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
45
FF No. : 654
Credits: 01 Teaching Scheme: - Laboratory 2 Hrs/Week
Prerequisites:
Objectives:
To study design ,capture, simulation and verification of electronic circuits
List of practicals:
References
1)
EC24306:: C ++ Programming
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
46
List of Open Electives (OE3)
(Offered by Electronics Dept. for Computer students )
Sr. No. Subject Name Subject Code
01 Applied Electronics EC26101
02 Analog Electronics EC26102
03 Linear Circuit Analysis EC26103
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
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47
FF No. : 654
Credits: 02 Teaching Scheme: - Theory 2 Hrs/Week
Prerequisites: Nil
Objectives:
To study the basic components like diode, BJT, Op-Amps and their applications.
To Study the basic working of active components and their implementation in
electronic circuits.
Unit I (8+1 Hrs)
Diodes
A. Overview of semiconductor theory: Intrinsic, Extrinsic, doping. Formation of P-N
Junction, working Principle, characteristics, Zener Diode working Principle,
characteristics, Application as a voltage regulator. Rectifier: - Half wave rectifier, analyze
these rectifiers w. r. t. ripple factor, efficiency, clipper and clamper circuits. Introduction
to BJT, BJT configuration, Characteristics of CE, Overview of Biasing, Fixed Bias,
Collector Base Bias, Self Bias, Transistor as a switch and amplifier
B. Full wave rectifier, Bridge rectifier and analyze these rectifiers w. r. t ripple factor,
efficiency.
Unit II (8+1 Hrs)
Operational Amplifiers
A. Block Diagram of an OP-Amp, Direct Coupled Differential Amplifier Circuit, Level
Shifter and the Output Stage. Op-Amp Parameters: Bias, Offset current; Bias, offset
voltage; CMRR, slew rate, PSRR Definitions, Significance. Op-Amp Applications –
Adder, Precision Rectifier, Zero Crossing Detector, Schmitt Trigger, Waveform
Generator (triangular), Integrator, Instrumentation Amplifier, Current to Voltage
Circuits.
B. Typical parameter values of Op-Amp (IC-μA741) Op-Amp Applications – Subtractor,
Differentiator, and Voltage to Current Circuits.
Unit III (8+1 Hrs)
Power Devices and Power Supplies
EC26101 :: APPLIED ELECTRONICS
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
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A. Power Devices: - Characteristics and Principle of Operation of SCR, Applications:
Half-wave and Full-wave Controlled rectifiers, Fan Regulator, UJT as relaxation
oscillator. Power supplies: - Introduction to SMPS, types of SMPS: Buck, Boost, Buck-
Boost SMPS, online UPS, off line UPS, Line interactive UPS
B. SCR Applications: Half-wave wave Controlled rectifiers, Introduction to DIAC and
TRIAC.
Unit IV (3 Hrs)
Comprises of part B of all above unit.
Text Books
1. “Integrated Electronics Analog and Digital Circuits and Systems”, J. Millman, C.
Halkias, McGraw Hill, 1988, ISBN 0 – 07 – Y85493 –9, 2nd
Edition.
2. “Op-Amp and Linear Integrated Circuits”, R. Gaikwad, Prentice Hall of India, 2002,
ISBN 81 – 203 – 2058 – 1, 4th
Edition.
Reference Books
1. “Electronic Devices”, Floyd, Pearson Education, 2001, ISBN 81– 7808–355-8, 5th
Edition.
2. “Electronic Devices and Circuit Theory”, R. Boylstad, L. Nashelsky, Pearson
Education, ISBN 81 – 7808 – 590 – 9, 2002, 8th Edition.
Additional Reading
1. “Microwave Devices and Circuits”, Liao, Prentice Hall of India, ISBN 81 – 203 –
0699 – 6, 3rd
Edition.
2. “Integrated Circuits and Semiconductor Devices”, G. Deboo, C. Burrous, Theory and
Applications”, McGraw Hill, 1987, ISBN 0 – 07 – 016246 – 8, 2nd
Edition.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
49
FF No. : 654
Credits: 02 Teaching Scheme: - Theory 2 Hrs/Week
Prerequisites: Nil
Objectives:
To study the basic components like diode, BJT, FET, and their applications.
To study the basic working of active components and their implementation in
electronic circuits.
Unit I (8+1 Hrs)
Diodes
A. Overview of semiconductor theory: Intrinsic, Extrinsic, doping. Formation of P-N
Junction, working Principle, characteristics, Zener Diode working Principle,
characteristics, Application as a voltage regulator. Rectifier: - Half wave rectifier, analyze
these rectifiers w. r. t. ripple factor, efficiency, clipper and clamper circuits. Introduction
to BJT, BJT configuration, Characteristics of CE, Overview of Biasing, Fixed Bias,
Collector Base Bias, Self Bias.
B. Full wave rectifier, Bridge rectifier and analyze these rectifiers w. r. t. ripple factor,
efficiency.
Unit II (8+1 Hrs)
Transistor Biasing Circuits:
A. Definition and derivation for Stability Factors S, numerical for Self Bias Circuit only,
Comparison of the bias circuits, Need of and techniques for bias compensation, Thermal
run away, Derivation for Thermal Stability. Application of BJT: BJT as an amplifier,
Introduction to hybrid parameters, Approximate hybrid model of CE amplifier, Working,
Input output impendence concept, and current and voltage gain of an amplifier, BJT as a
switch. FET: Symbol, Operation, Construction, Drain and Transfer Characteristics and
Parameters
B. Numerical based on Approximate model of CE amplifier with Re and without Re.
Unit III (8+1 Hrs)
Power Devices and Power Supplies
EC26102: ANALOG ELECTRONICS
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
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A. Power Devices: - Characteristics and Principle of Operation of SCR, Applications:
Half-wave and Full-wave Controlled rectifiers, Fan Regulator, UJT as relaxation
oscillator.
Power supplies: - Introduction to SMPS, types of SMPS: Buck, Boost, Buck-Boost
SMPS, online UPS, off line UPS, Line interactive UPS.
B. SCR Applications: Half-wave wave Controlled rectifiers, Introduction to DIAC and
TRIAC.
Unit IV (3 Hrs)
Comprises of part B of all above unit.
Text Books
1. “Electronic Devices”, T. Floyd, Pearson Education, 2001, ISBN 81– 7808–355-8, 5th
Edition.
2. “Electronic Devices and Circuit Theory”, R. Boylstad, L. Nashelsky, Pearson
Education, ISBN 81 – 7808 – 590 – 9, 2002, 8th
Edition.
Reference Books
1. “Integrated Electronics Analog and Digital Circuits and Systems”, J. Millman, C.
Halkias, McGraw Hill, 1988, ISBN 0 – 07 – Y85493 –9, 2nd
Edition.
2. “Power Electronics, converters, applications and design”, N. Mohan, T. Undeland, W.
Robbins, John Wiley, 1995, ISBN 9971 – 51 – 177 – 0, 2nd
Edition.
Additional Reading
1. “Microwave Devices and Circuits”, Liao, Prentice Hall of India, ISBN 81 – 203 –
0699 – 6, 3rd
Edition.
2. “Integrated Circuits and Semiconductor Devices”, G. Deboo, C. Burrous, Theory and
Applications”, McGraw Hill, 1987, ISBN 0 – 07 – 016246 – 8, 2nd
Edition.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
51
FF No. : 654
Credits: 02 Teaching Scheme: - Theory 2 Hrs/Week
Objectives:
To understand the fundamentals of electrical networks and its analysis
To study various network theorem and their applications
To understand Two port networks, its functions and
Unit I (8+1 Hrs)
Second Law of Thermodynamics
A. Basic Definitions: Passive Network, Active Network, Linear Element, non-linear
elements, Unilateral, bilateral, lumped & distributed elements. Representation of voltage
& current sources.(Ideal & practical) , source transformation, series ¶llel connection
of passive elements(R,L,C), graph of network & its parts, loops & trees, linear graphs &
incidence matrix, cut sets, planner & non-planner graph loop matrix., reduction of
networks: Mesh analysis, Node analysis.
B. Star- Delta transformation and their numerical
nificance of First Law of Thermodynamics (Self Study Part of Individual Unit)
Unit II (8+1 Hrs)
Network Theorems
A. Superposition Theorem, Millman’s Theorem, Norton’s Theorem, Thevenin’s Theorem,
Maximum Power Transfer Theorem, Problems on theorem.
B. Reciprocity Theorem, Problems on above theorems
Unit III (8+1 Hrs)
Two port Network & Network Functions
A. Two port network: Open circuit impedance ( Z ) parameters, Short circuit admittance
( Y ) parameters , Hybrid ( H ) parameter, Transmission parameters(ABCD),Interrelation
of different parameters, Interconnections of two port network (Series, Parallel, Cascaded,
Series-Parallel) T & π representation.
Network Functions : Network functions for one port & two port networks, Driving point
impedance and admittance of one port network
B. Transfer function of two port networks (Z, Y, G & C parameters).
EC26103::LINEAR CIRCUITS ANALYSIS
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
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Text Books:
1. “Circuit and Networks: Analysis & Synthesis” A. Sudhakar, Shyammohan S.Palli
Tata McGraw Hill Publication, ISBN- 9780073404585, 3rd edition.
2. “Networks & Systems”, D. Roy Choudhury, New Age International Publisher,
ISBN-978-81-224-2767-7, 2nd
edition.
Reference Books :
1. “Network Analysis”, M.E.Van Valkenburg, Pearson Education, ISBN- ISBN:
0136110959 3rd
Editions.
2. “Electrical Circuit Analysis”, Soni Gupta, Dhanpat Rai & Co, ISBN-10:
8177582623, 2nd
edition.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
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2/4/2011
53
MO
DU
LE
- V
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
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54
TE MODULE V
Subject
No.
Subject Name Subject Code Teaching Scheme (Hrs. per week) Credits
Lecture Tutorial Practical
S1 Microcontroller &
Applications
EC30101 3 0 0 3
Microcontroller &
Applications
EC30201 0 1 0 1
S2 Digital
Communication
EC30102 3 0 0 3
Digital
Communication
EC30202 0 1 0 1
S3 Digital Signal
Processing
EC30103 3 0 0 3
S4 Mechatronics
(MD)
EC31101 3 0 0 3
P1 Microcontroller &
Mechatronics Lab.
EC30301 0 0 2 1
P2 Signal Processing
and
Communication
Lab.
EC30302 0 0 2 1
PD1 Institute Level
Elective
EC333XX 0 0 2 1
C V V3 Digital Signal
Processing
+
Microcontroller &
Applications
EC30401 Comprehensive Viva Voce 1
Total 12 2 8 18
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
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55
List of Professional Development Electives (PD1)
Subject
No.
Subject Name Subject Code Teaching Scheme (Hrs. per week) Credits
Lecture Tutorial Practical
PD1
Optimization
Techniques
EC33301 0 0 2 1
PD1
Simulation of
Power Circuits
EC33302 0 0 2 1
PD1 Configurable and
reconfigurable
computing
EC33303 0 0 2 1
PD1 Linux Operating
System
EC33304 0 0 2 1
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
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FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Concepts of digital electronics, C language programming
Objectives:
To study
Architecture of 80C51microcontroller
Interfacing of peripherals to microcontroller
Assembly language and embedded C language programming.
Serial communication protocols.
RISC microcontrollers.
Unit I
(8+1 Hrs)
INTRODUCTION TO MICROCONTROLLER
A. Microprocessor and microcontroller, Features and architecture of 80C51
microcontroller, Addressing modes , Instruction set
B. Features and architecture of 89V51RD2 microcontroller
Unit II (8+1 Hrs)
ONCHIP PERIPHERALS OF 80C51
A. Port structure, Timers and counters, Serial port, Interrupt structure and simple
assembly language program
B. On chip peripherals of 89V51RD2( PCA with PWM, Timers and counters, Interrupts
etc)
Unit III (9+1 Hrs)
SERIAL AND PARALLEL PORT INTERFACING
A. Interfacing of display devices like LED, Seven segment, 2 x 16 character LCD (8bit
mode),serial communication protocols-RS232, RS485, Buses-I2C and its implementation
, SPI
B. Interfacing of 2 x 16 character LCD (4bit mode)
EC30101:: MICROCONTROLLER AND APPLICATIONS
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
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57
Unit IV (8+1 Hrs)
INTERFACING AND PROGRAMMING USING EMBEDDED C
A. 4 X 4 matrix keypad, DAC( Binary weighted and R2R ladder), ADC(Dual slope and
Successive approximation type), Stepper motor( Unipolar, permanent magnet)
B. Interfacing of relay and DC motor
Unit V (7+1 Hrs)
RISC MICROCONTROLLERS
A. Memory interfacing, Features and Architecture of PIC 16F877A and AVR Atmega32,
Theoretical minimum system design.
B.Instruction set of PIC 16F877A
.
Outcomes
After studying the syllabus, students will be able to
1) Write Assembly and C language Program for 8051
2) Interface various peripheral devices to 8051
Text Books
1. ‘8051 and Embedded C programming’- Mazidi and Mazidi, Second edition, Pearson
education
2. ‘8051 microcontroller Architecture, programming and Applications- Kenath Ayala,
third edition, Peneram publication
References 1. Datasheets of 89C51RD2, ADC 0809,DAC 0808, PIC 16F877A, AVR Atmega32,
PCF 8591
2. ‘Serial port complete’- Jan Axelson, Peneram publication
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
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FF No. : 654
Credits: 1 Tutorials - 1 Hr/Week
List of Tutorials
1. Assembly language program for unsigned arithmetic operations.
2. Assembly language program for multibyte addition.
3. Assembly language program for block transfer.
4. Assembly language program to find Largest/smallest number from a given array
5. Implementation of Boolean expression
6. Interfacing switches and LEDs and its Assembly language program
7. PWM generation
8. Assembly language program using interrupts
9. Seven segment display interfacing and its programming in assembly language
10. 4 X 4 matrix keypad interfacing and its programming in embedded C language
11. Implementation of I2C protocol.
12. Stepper motor interfacing and its program in embedded C language
Text Books
3. ‘8051 and Embedded C programming’- Mazidi and Mazidi, Second edition, Pearson
education
4. ‘8051 microcontroller Architecture, programming and Applications- Kenath Ayala,
third edition, Peneram publication
References 3. Datasheets of 89C51RD2, ADC 0809,DAC 0808, PIC 16F877A, AVR Atmega32,
PCF 8591
4. ‘Serial port complete’- Jan Axelson, Peneram publication
EC 30201: MICROCONTROLLER AND APPLICATIONS
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
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FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Fourier series, Fourier transform, probability theory, Analog
communication
Objectives:
To study-
The basics of Sampling Theorem & Aliasing Effect
Digital Communication Techniques
Spread Spectrum Techniques
Unit I
(8+1 Hrs)
Sampling & Waveform Coding
A Introduction to digital communication, Sampling, reconstruction, ideal sampling, Flat
top & Natural Sampling Aliasing, Aperture effect. Pulse code modulation &
reconstruction, Quantization noise, Companded PCM, Delta modulation, Adaptive delta
modulation, Differential PCM, ISI and eye diagram.
B. LPC and Line Coding, equalizers.
Unit II (8+1 Hrs)
Digital modulation techniques
A. Digital modulation techniques such as Binary Phase Shift Keying, Quadrature Phase
Shift Keying, M-Ary PSK , Quadrature Amplitude Shift Keying, Binary Frequency Shift
Keying, M-Ary Frequency Shift Keying, Minimum Shift Keying
B. Differential Phase Shift Keying, Differentially encoded PSK , Gaussian Minimum
Shift Keying.
Unit III (8+1 Hrs)
EC30102 :: DIGITAL COMMUNICATION
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
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Detection & Performance Analysis Of Digital Signal
A.Base Band signal receiver ,Derivation for Error prob of int. & dump Filter, Optimum
Filter, white noise matched filter, probability error of match filter, correlation, FSK, PSK,
non- coherent detection of FSK, DPSK, QPSK, Calculation of error probability for BPSK &
BFSK , Signal Space to calculate Probability of error.
B Correlator receiver.
Unit IV
(8+1 Hrs)
Spread Spectrum
A. Pusedo-random Sequence, Direct Sequence Spread Spectrum Phase Shift Keying
block details & mathematical treatment , Power Spectrum Density curves, Jamming
margin and processing gain, Probability of error, Frequency Hop Spread Spectrum.
B. applications of DSSSPSK and FHSS
B. Geostationary satellites
Text Books
1. Taub Schilling, ‘Principles of communication system’, Tata McGraw Hill, 2nd
Edition
2 . B.Sklar , ‘Digital Communication’, Pearson, 2nd
edition …..
Reference Books
1. Simon Haykin , ‘Digital Communications’, Wiley Publications, 4th
edition
2. Carlson , ‘Communication System’, McGrawHill, 4th
edition
Unit V (8+1 Hrs)
Introduction to Link Design and Link Budget Analysis
A. CDMA,TDMA,FDMA, Kepler’s Laws, Satellite orbits, Satellite system link models,
models,
satellite system parameters , link equations and link Budget
Satellite system link models, satellite system parameters , link equations and link Budget
Satellite system parameters and link budget.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
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FF No. : 654
Credits: 01 Tutorials - 1 Hr/Week
Prerequisites: Fourier series, Fourier transform, probability theory, Analog
communication
Objectives:
To study
The basics of Sampling Theorem & Aliasing Effect
Digital Communication Techniques
Spread Spectrum Techniques
List of Tutorials
1. PAM- TDM
2. Code Modulation.
3. Pulse Code Modulation Companding.
4. Differential PCM
5. Adaptive Delta Modulation
6. Study of data formats.
7. To Study BPSK
8. To Study QAM.
9. PN Sequence Generator
10. Study of FHSS
11. Study of Satellite Receiver.
12. GMSK
Text Books
1. Taub Schilling, ‘Principles of communication system’, Tata McGraw Hill, 2nd
Edition
2 . B.Sklar , ‘Digital Communication’, Pearson, 2nd
edition …..
Reference Books
3. Simon Haykin , ‘Digital Communications’, Wiley Publications, 4th
edition
4. Carlson , ‘Communication System’, McGrawHill, 4th
edition
EC30202 :: DIGITAL COMMUNICATION
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
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FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Knowledge of signals and systems, Fourier Theory
Objectives:
To learn properties of discrete time signals and systems
To learn processing of signals in frequency domain using mathematical
transforms
To learn filter design based on approximations
To learn filter design based on truncation of impulse response
Unit I : Z Transform (10+1 Hrs.)
A. Discrete time signals & Systems, Z- transform and its properties, Inverse Z-transform,
analysis of LTI systems in Z domain, Unilateral Z-transform.
B. Sampling process, Convolution and Correlation
Unit II : Discrete Fourier Transform (12+ 1Hrs.)
A. Discrete time Fourier transform(DTFT), Discrete Fourier transform(DFT), Relation of
DFT to other transforms, Properties of DFT, Overlap_add and overlap_save methods,
FFT algorithms- Decimation in Time and Decimation in frequency
B. Goertzel algorithm, applications of DFT and FFT
Unit III : FIR Filters (6+1Hrs.)
A. FIR filter structures - Direct form structure, cascade form structure, Design of linear
phase FIR filters using windows , Design of linear phase FIR filters using frequency
sampling method.
B. Lattice Structure, Design of FIR filters using Fourier series method, applications of
FIR filters
EC 30103 :: DIGITAL SIGNAL PROCESSING
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
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Unit IV : IIR Filters (6+1 Hrs.)
A. IIR filter structures - Direct form, Parallel form, cascade structure.
IIR Filter design methods - Bilinear transformation, Impulse invariance
B. IIR Filter design by Approximation of Derivatives.
Unit V : Finite Word Length Effects (6+1 Hrs.)
A. Rounding and Truncation errors, Coefficient Quantization effects in FIR and IIR
filters,Limit Cycle Oscillations, Product Quantization
B. Quantization Errors in DFT Computaions and FFT algorithms.
Text Books
1. Sanjit Mitra, ‘Digital Signal Processing’, TMH, 3rd
edition
2. John Proakis, Dimitri Manolakis, ‘Digital Signal Processing – Principles,
Algorithms & Applications’, PHI
Reference Books
1. Ramesh Babu, ‘Digital Signal Processing’ , Scitech publications, 2001
2. Shalivahanan, Vallavraj, Gnanapriya C., ‘Digital Signal Processing’, TMH, 2001
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
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FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Basics of Op-Amp, Network theory, Control system
Objectives:
Understand the synergistic integration of multidisciplinary engineering.
Understand the key elements of measurement system.
Be able to design mechatronics system.
Unit I (8+1 Hrs)
Unit Name: Introduction to Mechatronics
A. Scope & importance of Mechatronics with respect to interdisciplinary approach Roll
of Electronics in Mechatronics, Mathematical Modeling of Physical Systems: -
Mechanical, Electrical, Thermal, and Fluid.
B. Study of automated systems- Industrial robots, Automatic weighing machine.
Unit II
(8+1 Hrs)
Unit Name: Sensors and Transducers
A. Static & dynamic Characteristics of Sensors and Systems, Performance Terminology
of sensors (Selection criteria of sensors), Study of Temperature, pressure and force,
motion, proximity, displacement, flow sensors.
B. Vibration, Range Sensors
Unit III (8+1 Hrs)
Unit Name: Signal Conditioning
A. Importance of signal conditioning, Use of AC and DC bridges, filters, Operational
Amplifier circuits, Overview of ADC and DAC, and its selection criteria.
B. Types of ADC & DAC
Unit IV (8+1 Hrs)
Unit Name: Actuators
A. Introduction to Pneumatic and Hydraulic systems, Linear and Rotary actuators,
Control valves, Electrical actuators – relay, solenoid, and stepper motor, servomotor.
EC31101:: MECHATRONICS
BRACT’S
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Department of Electronics Engineering
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B. Mechanical Actuating Systems
Unit V (8+1 Hrs)
Unit Name: Data Acquisition and PLC
A. Elements of Data Acquisition, Types and selection criteria of key components in DAS.
Introduction to PLC-Basic Architecture, I/O Processing, Ladder Programming,
Interfacing of sensors and actuators to PLC.
B. Specification and selection of PLC, Microcontroller Interfacing, Development Tools.
Outcomes:
Upon completion of this course, students will be able to:
Design signal conditioning circuit.
Design Data Acquisition System.
Design Mechatronics system.
Text Books
1. W. Boltan, ‘Mechatronics’. Pearson education, 3rd
edition.
2. Devdas Shetty, ‘Mechatronics Systems Design’ Thomson publication.
Reference Books
1. Rangan,Mani,Sarma, ‘Instrumentation Devices & Systems’, Tata Mcgraw Hill,
2nd
edition.
2. A.K Sawhney, ‘Electrical and Electronic Measurement and Instrumentation’,
Dhanapat Rai and Co., 7th
edition.
3. K.P.Ramchandran, ‘Mechatronics- Integrated Mechanical Electronic Systems’,
Wiley India.
4. N.P. Mahalik, ‘Mechatronics Principles, Concepts & Applications’, Tata Mcgraw
Hill, 2nd
Edition
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
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66
FF No. : 654
Credits: 1 Teaching Scheme: - Laboratory 2 Hrs/Week
Part A :: MICROCONTROLLER AND APPLICATIONS
Objectives:
To interface various peripherals and develop its assembly language and embedded
language program. To implement serial communication protocol
To study sensors and its characteristics.
To design signal conditioning circuits for sensors.
To study PLC and its applications.
List of practicals:
1. Arithmetic operations on signed numbers
2. 2 X 16 character LCD interfacing
3. Serial communication interfacing
4. DAC/ADC interfacing
5. Study of sensors – Temperature, LVDT, Encoder
6. Study pneumatic actuators.
7. Study of PLC – implementation of Ladder programming.
8. Study of Applications of PLC. / Simulation of Physical Systems.
9. Mini Project: - Signal conditioning of Sensors, Interfacing of Pneumatic
Components to PLC/ other semester – Sensor and Actuators interfacing to 8051
Microcontroller.
Text Books
1. ‘8051 and Embedded C programming’- Mazidi and Mazidi, Second
edition, Pearson education
2. ‘8051 microcontroller Architecture, programming and Applications-
Kenath Ayala, third edition, Peneram publication
3. W. Boltan, ‘Mechatronics’. Pearson education, 3rd
edition.
4. Devdas Shetty, ‘Mechatronics Systems Design’ Thomson publication.
EC 30301: MICROCONTROLLER & MECHATRONICS LAB
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
67
FF No. : 654
Credits: 01 Teaching Scheme: - Practical 2 Hrs/Week
Prerequisites: Knowledge of programming language such as MATLAB, Fourier series,
Fourier transform, probability theory, Analog communication
Objectives:
Implementation of Decimation in Time/ Decimation in frequency FFT
To design FIR and IIR filters
Real time application on DSP Processor
List of Practicals
1. Magnitude and phase spectrum plot.
2. Decimation in Time/ Decimation in frequency FFT.
3. FIR/IIR Filter Design
4. Study of finite word length effects in FIR, IIR digital filters.
5. Verification of Sampling Theorem (PAM)
6. To Study PCM (Tr & Rx )
7. To Study DM (Tr & Rx )
8. To Study QPSK
9. To Study BFSK
10. To Study DS-SS PSK
11. Mini Project
Text Books
1. Sanjit Mitra, ‘Digital Signal Processing’, TMH, 3rd
edition
2. John Proakis, Dimitri Manolakis, ‘Digital Signal Processing – Principles,
Algorithms & Applications’, PHI
3. Taub Schilling, ‘Principles of communication system’, Tata McGraw Hill
4. B.Sklar , ‘Digital Communication’, Pearson, 2nd
edition …..
EC 30302 :: SIGNAL PROCESSING AND COMMUNICATION LAB
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
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68
List of Professional Development Electives (PD1)
Subject
No.
Subject Name Subject Code
01 Optimization Techniques EC33301
02 Simulation of Power Circuits EC33302
03 Configurable and reconfigurable computing EC33303
04 Linux Operating System EC33304
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
69
FF No. : 654
Credits: 01 Teaching Scheme: - Laboratory 2 Hrs/Week
Experiment List:
1. To implement algorithm to find the Eigen number and Eigen vector.
2. To implement data fitting algorithm.
3. Implement Polynomial interpolation methods.
4. To implement gradient and conjugate gradient type algorithm.
5. To implement Newton’s Method Type Algorithm.
6. To implement Golden section Rule.
7. To implement the iterative method.
8. To implement Fourier series( Orthogonality ).
EC33301:: Optimization Technique
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
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FF No. : 654
Credits: 01 Teaching Scheme: - PD Lab 2 Hrs/Week
EC33302:: MATLAB SIMULINK AND SIMULATION
TOOLS Credits: 01 Teaching Scheme: - Laboratory 2 Hrs/Week
Hrs/Week
Prerequisites: Knowledge of basic mathematics.
Objectives: To study basic building blocks of system simulation
To study system modeling and simulation.
Lab 1
Overview of MATLAB environment, Arrays and matrices
Lab 2
Graphics: Plots and appearances :Plots and subplots, multiple graphs.
Lab 3
Programming: Conditional control, program flow control ,loops ,
Lab 4
Data analysis and modeling, FFT, Ordinary differential equations, curve fitting. Symbolic
math toolbox.
Lab 5
Commonly used blocks in Simulink and CASPOC. Math blocks, Sink, sources, control
blocks.
Lab 6
Introduction to freeware SCILAB. Equivalent operations in SCILAB
Lab 7
To build small systems using commonly used blocks and components. Communicating
with workspace. Block parameters, symbolic math toolbox.
Lab 8
To build small systems with measurement and feedback blocks.
Mini Project:
Simulation of one complete system. Student will simulate a system for given problem
statement.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
71
FF No. : 654
Credits: 01 Teaching Scheme: - Laboratory 2 Hrs/Week
Prerequisites: Knowledge of basic digital logic.
Objectives: To study hardware description language as EDA Tool
To write VHDL code for combinational and sequential circuits.
To appreciate concept of reconfigurable computing
Lab 1
General purpose computing with VLSI Technology
Comparison of ASIC and General purpose processors.
Architecture of FPGA and CPLD
Lab 2
Hardware Description language: VHDL basic Constructs.
Lab 3
Simulation of Combinational circuits using simple constructs
Lab 4
Modeling styles in VHDL. Combinational circuits simulation and verification
Lab 5
Implementation of Sequential circuits in VHDL
Lab 6
Implementation of state diagram. Based Sequential circuits in VHDL
Lab 7
Reconfigurable Techniques: reconfiguration architectures, Reconfiguration Architecture
comparisons, Time-Switched Field Programmable Gate Array (TSFPGA), Dynamically
Programmable Gate Arrays, rDPA.
Lab 8
Comparison of configuration: Temporal Spatial, Performance- Flexibility and Design
effort
EC33303 : VHDL AND RECONFIGURABLE COMPUTING
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
72
Mini Project:
Case study1 : Cellular phone supporting multiple communication and data protocols, with
automatically reconfigured hardware.
Case study2 : Reconfigurability for thermal management
3. Text Books A VHDL Primer Pearson,2000,J Bhaskar.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
73
FF No. : 654
Credits: 01 Teaching Scheme: - Laboratory 2 Hrs/Week
Objectives:
To understand and utilize Linux operating system
List of Experiments
Sr No. Experiment
1 Installation of Linux
2 Consol and Vi Editor
3 File Related commands
4 Miscellaneous commands 1
5 Miscellaneous commands 2
6 Shell script 1
7 Shell script 2
8 C programming 1
9 C programming 2
10 Installation of software on Linux
Text Books
1. Any basic book on Linux or Unix
2. Neil Matthew,Richard Stones, Beginning Linux Programming ,Wilye.
EC33304 :: LINUX OPERATING SYSTEM
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
74
MO
DU
LE
- V
I
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
75
TE MODULE VI
Subject
No.
Subject Name Subject Code Teaching Scheme (Hrs. per week) Credits
Lecture Tutorial Practical
S5 Electromagnetic
Engineering
EC30104 3 0 0 3
Electromagnetic
Engineering
EC30203 0 1 0 1
S6 Analog Circuits EC30105 3 0 0 3
Analog Circuits EC30204 0 1 0 1
S7 Power Electronics EC30106 3 0 0 3
S8 Digital Integrated
Circuits
EC30107 3 0 0 3
P3 Analog Circuits EC30303 0 0 2 1
P4 Power &
Integrated
Circuits Lab
EC30304 0 0 2 1
PD2 Institute Level
Elective
EC333XX 0 0 2 1
C V V4 Power Electronics
+
Digital Integrated
Circuits
EC30402 Comprehensive Viva Voce 1
Total 12 2 8 18
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
76
List of Professional Development Electives (PD2)
Subject
No.
Subject Name Subject Code Teaching Scheme (Hrs. per week) Credits
Lecture Tutorial Practical
PD2 Fourier Theory EC33305 0 0 2 1
PD2 PIC
Microcontroller
EC33306 0 0 2 1
PD2 Digital Signal and
Image Processing
using Matlab
EC33307 0 0 2 1
PD2 LATEX EC33308 0 0 2 1
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
77
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Basics of ‘ C’ Programming Language
Objectives:
To study force experienced by a charge(s) in electrostatic, magnetostatic and
electromagnetic fields
To study power transmitted by electromagnetic waves in different media
Unit I
(4+1 Hrs)
Vectors and Coordinate Systems
A. Addition, subtraction, dot product and vector product of vectors, unit vectors,
position and displacement vectors, Cartesian, cylindrical and spherical coordinate
systems
Unit II (12+1 Hrs)
Electrostatics
A. Coulomb’s Law, Concept of Electric Field intensity, Electric Field Intensity due
to various charge distributions, Gauss’s law and its applications, Divergence
theorem, Work, Energy, Potential, Gradient, Electric Fields in conductors and
dielectrics, Continuity Equation, Boundary Conditions
B. Laplace, Poisson’s equations
Unit III (10+1 Hrs)
Applications of Linear Data Structures
A. Biot Savart law, Magnetic Field Intensity due to various current distributions,
Ampere’s circuital law and its applications, Curl, Stokes’ theorem, Magnetic Flux
and magnetic flux density, Scalar and vector magnetic potentials, Forces due to
magnetic fields, Magnetization and Permeability, Boundary conditions, Magnetic
Energy
EC30104:: ELECTROMAGNETIC ENGINEERING
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
78
B. Magnetic circuits, Inductance and Mutual Inductance.
Unit IV (06+1 Hrs)
Maxwell’s Equations & Time Varying Fields
A. Faraday’s law, Displacement current, Maxwell’s equations, Time varying fields,
Time harmonic fields, Energy stored in electric and magnetic time varying field.
B. Retarded potentials
Unit V (8 +1Hrs)
Uniform Plane Wave And Propagation
A. Wave equation, Wave propagation in free space, dielectrics and conductors, Skin
Effect, Polarization, Reflection of uniform plane waves at normal and oblique
incidence, Standing wave ratio, Wave reflection from multiple interfaces
B. Wave propagation in dispersive media
Text Books
1. Sadiku Matthew N O, ‘Elements of Electromagnetics’, Oxford University Press,
3rd
edition, 2002/2003.
2. Hayt W H, ‘Engineering Electromagnetics’, Mc_graw Hill Book Co., 7th
edition,
1981
Reference Books
3. Kruse R L, Leung B P & Tondo C L: Data Structure And Programming Design In
C. Prentice Hall Of
India Pvt.ltd.
2. Kakde O G & Deshpande ,” Data Structures And Algorithms”. Indian Society For
Technical E
4. Sahni S: Data Structures, Algorithms,& Applications In C++. Mcgraw Hill
Boston.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
79
FF No. : 654
Credits: 01 Teaching Scheme: - Tutorial 1 Hrs/Week
Prerequisites: Basics of ‘ C’ Programming Language
Objectives:
To study force experienced by a charge(s) in electrostatic, magnetostatic and
electromagnetic fields
To study power transmitted by electromagnetic waves in different media
1. Coordinate Systems
2. Coulomb’s Law
3. Gauss’ Law
4. Work, Energy, Potential
5. Boundary Conditions
6. Ampere’s Law
7. Magnetization and Boundary Conditions
8. Maxwell’s Equation and Wave Equation
9. Polarization
10. Wave reflection (normal incidence)
11. Wave reflection (oblique incidence)
12. VSWR
Text Books
1. Sadiku Matthew N O, ‘Elements of Electromagnetics’, Oxford University Press,
3rd
edition, 2002/2003.
2. Hayt W H, ‘Engineering Electromagnetics’, Mc_graw Hill Book Co., 7th
edition,
1981
EC30203 :: ELECTROMAGNETIC ENGINEERING
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
80
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Nil
Objectives:
To provide clear explanation to students regarding analysis of electronic circuits using
discrete transistors and operational amplifiers.
Unit I (9+1 Hrs)
Feedback Amplifiers and Oscillators
A. Concept of feedback, Negative feedback, Four Feedback topologies, Transfer gain
with feedback, Advantages and disadvantages of negative feedback, Effect of feedback
on input and output impedances and bandwidth of an amplifier. Analysis of one circuit
for each feedback topology.
OSCILLATORS: Positive feedback, Oscillator startup mechanism, need for amplitude
limiting. Study of LC oscillators - General form of LC oscillator. Hartley oscillator,
Colpitt,s oscillator, Clapp’s oscillator.
B. RC Oscillator, Wein Bridge Oscillator, Crystal oscillator.
Unit II (8 +1Hrs)
Large Signal AF Power Amplifiers
A. Classes of power amplifiers - Class A, Class B, Class AB, class C, class D. Class A
with resistive load, Transformer coupled class A amplifier, Class B Push-pull, Class AB,
Complementary symmetry. Efficiency analysis for all, Comparison of efficiencies,
Distortions in amplifiers, Nonlinearities and harmonics, Total Harmonic Distortion.
B. Quasi-complementary configurations Higher order harmonic generation
Unit III (8 +1Hrs)
OP-AMP Fundamentals
EC30105 :: ANALOG CIRCUITS
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
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A. Basic building blocks of operational amplifier, differential amplifier, current sources
like widlar, wilson and mosfet sources, voltage sources, active level shifters, output stage,
open loop and closed loop operation, inverting and non-inverting configurations of op-
amp, concept of virtual short and virtual ground. ideal op-amp parameters like input
offset voltage, output offset voltage, input offset current, bias current, CMRR, PSRR,
slew rate, open loop gain, input resistance, output resistance, frequency response, small
signal and power bandwidth, non-ideal op-amp behavior in terms of ac and dc parameters
and its effect on performance. offset nulling techniques.
B. Measurement of op-amp parameters, Frequency Compensation
Unit IV (6 +1 Hrs)
Linear Applications of OP-AMP
A. Summing amplifier, difference amplifier, voltage follower, Signal phase shifter, AC
amplifier, Instrumentation amplifier, Guard Shield circuits, Integrator and applications,
Integrator set, run and hold modes, Differentiator and applications, voltage to current and
current to voltage converters, Log Amplifier and Antilog amplifier with log ratio and
temperature compensation circuits.
B. Isolation Amplifier
Unit V (9 +1 Hrs)
Non Linear Applications of OP-AMP
A. Precision half wave and full wave rectifiers, True RMS converter, Comparators,
Limitations of op-amp as comparator, Comparator IC LM 339, Window Comparator,
Schmitt Triggers, Peak Detectors, Sample and Hold circuits, Astable, Mono-stable and
Bi-stable multi-vibrator and its applications, Design of sine, square, triangular, sawtooth
and ramp waveform generators, V to F and F to V converters.
B. Timer ICs 555/556, block diagram and applications.
Text Books
1. Integrated Electronics , Millman Halkias , Tata McGraw Hill1.
2. Design with opearational amplifiers and analog integrated circuits ,Sergio Franco,
TMH, Third edition
3. Op- amp and Integrated Circuits, Ramakant Gayakwad, PHI
Reference Books
1. Electronic circuit analysis & Design , Donald A. Neamen , Tata McGraw Hill 2. Operational Amplifiers, G. B. Clayton, Mc Graw hill International Edition
3. Opearational Amplifiers and Linear Integrated Circuits, Coughlin, Discroll, PHI,
4th edition
4. Linear Integrated Circuits, D. Roy Choudhary,
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
82
FF No. : 654
EC30204 :: ANALOG CIRCUITS
Credits: 01 Teaching Scheme: - - Tuitorial 1 Hr/Week
Prerequisites: : Nil
Objectives: To provide clear explanation to students regarding analysis of electronic
circuits using discrete transistors and operational amplifiers.
List of Contents
1. Feedback amplifiers
2. Feedback amplifiers
3. Oscillators
4. Power amplifiers
5. Power Amplifiers
6. Opamp parameters
7. Opamp parameters
8. Instrumentation Amplifiers
9. Log Amplifier
10. Multivibrators
11. IC 555
12. IC 555
Text Books
1. Integrated Electronics , Millman Halkias , Tata McGraw Hill1.
2. Design with opearational amplifiers and analog integrated circuits ,Sergio Franco,
TMH, Third edition
3. Op- amp and Integrated Circuits, Ramakant Gayakwad, PHI
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
83
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Basics of semiconductor devices, Fourier series analysis approach
Objectives:
To explain the necessity of power conversion.
To discuss physics & applications of various devices used for conversion
To explain techniques & control of power conversions
To apply analytical tools for performance evaluation
Unit I (10+1 Hrs)
POWER DEVICES
A. Structural modifications for power devices.
Structure, Characteristics, ratings of Power Diode SCR, GTO, IGBT
Comparison of above devices with Power MOSFET & Power BJT
Driver Circuits (isolated & non-isolated) for IGBT & SCR
Commutation circuits for SCR
Protection circuits for IGBT & SCR
B. Comparison of all power devices and suitability for applications.
Silicon Carbide (SiC), Gallium Nitride (GaN)-based power devices. Suitability of these
devices for high power circuits.
Unit II (8+1 Hrs)
CONTROLLED RECTIFIER
A. Concept of line commutation.
Single-phase half wave and full wave controlled rectifier: Circuit diagram, operation,
waveforms for resistive and level (highly inductive) loads.
Single phase semi and full bridge controlled rectifier: Circuit diagram, operation,
waveforms for R, L and RLE loads. Average and RMS expressions for o/p voltage.
Fourier analysis of supply current. Performance metrics : Fundamental power factor,
Current distortion factor, Active, reactive & apparent power.
EC30106: POWER ELECTRONICS
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
84
B. Numericals based on converters.
Unit III (8+1 Hrs)
INVERTERS DC / AC
A. Half bridge and push pull type inverters : Circuit diagram, operation & waveforms.
Full bridge inverters: Circuit diagram, operation & waveforms for R & RL loads.
Switching techniques for obtaining square, quasi-square o/p waveforms.
Fourier analysis of square and quasi-square voltage waveform & harmonics.
Harmonic reduction techniques. Advantage of sine weighted PWM over single pulse
PWM techniques.
Inverter configuration for IM drive
B. Numericals based on Inverter performance.
Unit IV (8+1 Hrs)
SWITCHED & RESONANT DC/ DC CONVERTERS
A. Step Up / Down chopper: Circuit diagram, operation and waveforms for R and L load.
Load voltage calculations.
Two-quadrant, Four-quadrant chopper. Circuit diagram, operation and waveforms for R
and L load. Chopper DC motor drives.
SMPS : Circuit diagram, operation and waveforms, of Fly back converter and forward
converter.
Need for resonant converters. ZVS, ZCS Switches.
B. Comparison of linear, switched and resonant power supplies.
Unit V (6+1 Hrs)
APPLICATIONS OF POWER ELECTRONICS
A. Study of power circuits for Electronic ballast , HF induction heating, RF heating,
Welding.
ON-line and OFF line UPS, battery selection and design considerations.
HVDC transmission, twelve pulse converter, and advantages over HVAC transmission.
Stator voltage control for IM motors. B. Industrial applications of motor drives, Study of Cycloconverter.
Text Books
1. M. H. Rashid, “POWER ELECTRONICS circuits devices and applications”, PHI, 3rd
edition, 2004.
2. M D Singh, K B Khanchandani, “POWER ELECTRONICS”,2nd
Ed. TMH.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
85
Reference Books 1. N. Mohan, T. M. Undeland & W. P. Robbins, “POWER ELECTRONICS,
Converters Applications and Design” John Willey and sons, 3rd
edition,
Singapore
2. P. C. Sen,”MODERN POWER ELECTRONICS”, S Chand & Co., New Delhi
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
86
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Nil
Objectives:
- To study behavior of CMOS inverter in detail.
- To draw NAND, NOR, XOR gates using CMOS logic.
- To study VHDL as EDA Tool.
Unit I : Introduction to HDL (8 + Hr)
A] What is HDL, VHDL, role of hardware description languages, motivation. Describing
Hardware in VHDL- data types, data objects data operators, Event and transactions,
attributes. Concurrency, Entity, Architecture, concurrent Signal assignments, resolved
signals, conditional signal assignment statement, selected signal assignment statement,
constructing VHDL models.
Delays- Inertial Delay, transport delay, Delta delay, waveform and timing.
B] predefined attributes.
Unit II: Modeling in VHDL (8 + 1Hr)
A] Behavior Modeling- Process construct, programming constructs-If –then else
statements, case statement, loop statements, more on process, wait statement, using signal
in process, state machine modeling. Structural modeling, component declaration,
instantiation, Generics, configuration and binding.
B] Generate statement.
Unit III: Advanced Topics (7+ 1 Hr)
A] Sub-programs and overloading -Functions, Procedures. Packages and libraries. Basic
principles of Synthesis,. Test benches-test bench for combinational and test bench for
sequential circuits.
B] Synthesizable and non-synthesizable statements.
EC30107 :: DIGITAL INTREGRATED CIRCUITS
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
87
Unit IV: Static CMOS (8 + 1Hr)
A] Recap of I-V characteristics for MOS , CMOS inverter, VTC, detail analysis of VTC,
noise Margin, Regenerative property, performance, Power and energy consumption,
Power consumption and Power delay product, CMOS logic design, Transmission gate,
Ratioed logic, Pass transistor logic, power consumption in CMOS.
B] Resistive MOS Inverter.
Unit V: Dynamic CMOS design (9 + 1 Hr)
A] Dynamic logic –basic principles, Domino logic, Zipper CMOS, DCVSL logic, CMOS
Sequential circuit Design- CMOS flip-flops, dynamic sequential circuits- Pseudo static
Latch, C2MOS Latch, NORA CMOS, TSPCL, Non-Bistable.
B] Two phase Flip-flop, schmitt trigger
Text Books
1. “Digital Integrated Circuits: A Design Perspective”, J. Rabaey, Prentice Hall India, 1997.
2. “ VHDL Primer”, J Bhaskar , Addison Wesley Longman, 2000.
Reference Books
1. “Principles of CMOS VLSI Design”, N. Weste and K. Eshranghian, Addison
Wesley.
2.”CMOS Digital Integrated Circuits”, Kang S. M.,TMH, 3rd edition, 2003.
3. “VHDL”, D. Perry, 2nd Ed., McGraw Hill International, 1995.
4. “Introductory VHDL from simulation to synthesis”Sudhakar Yalamanchili, ,
Pearson education.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
88
FF No. : 654
EC30303:: ANALOG CIRCUITS
Credits: 01 Teaching Scheme: - Laboratory 2 Hrs/Week
Prerequisites: Nil
Objectives:
Students should learn to verify analytical aspects of circuits using discrete transistors and
design operational amplifier based circuits.
List of Practical
1. Voltage Series Amplifier
2. Current Shunt amplifier
3. LC Oscillators
4. Design of Integrator and Differentiator circuit
5. Design of V to I and I to V converters
6. Design of Comparator and Schmitt Trigger
7. Design of Precision Rectifier
8. Design of Waveform Generator
9. Miniproject
Text Books
1. Integrated Electronics , Millman Halkias , Tata McGraw Hill1.
2. Design with opearational amplifiers and analog integrated circuits ,Sergio Franco,
TMH, Third edition
3. Op- amp and Integrated Circuits, Ramakant Gayakwad, PHI
Reference Books
1. Electronic circuit analysis & Design , Donald A. Neamen , Tata McGraw Hill 2. Operational Amplifiers, G. B. Clayton, Mc Graw hill International Edition
3. Opearational Amplifiers and Linear Integrated Circuits, Coughlin, Discroll, PHI,
4th ed
4. Linear Integrated Circuits, D. Roy Choudhary
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
89
FF No. : 654
Credits: 1 Teaching Scheme: - Laboratory 2 Hrs/Week
Part A :: Power Electronics
Objectives:
To study characteristics of Power devices
To study power circuits and control circuits.
To study Triggering circuits for SCR.
To study Driver circuits for IGBT / MOSFET.
To simulate power electronic conversion system (AC-DC/DC-DC/DC-AC), with
suitable load.
To study power electronic conversion system with R/L/E load (AC-DC/DC-
DC/DC-AC).
Course Project based on power electronic circuit design.
To write VHDL code, simulate and implement 1 bit full adder/
Multiplexer/decoder
To write VHDL code, simulate and implement D Flip flop/ Shift register/BCD
Counter
To write VHDL code, simulate and implement a state machine description
sequence detector / counter.
To study the characteristics of CMOS logic gate.
Course Project based on Hardware description language and simulation tool.
Text Books
1. M. H. Rashid, “POWER ELECTRONICS circuits devices and
applications”, PHI, 3rd
edition, 2004, New Delhi.
2. “A VHDL Primer”, J Bhaskar, Pearson,2000.
EC 30304: POWER & INTEGRATED CIRCUITS LAB
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
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90
List of Professional Development Electives (PD2)
Sr. No. Subject Name Subject Code
01 Fourier Theory EC33305
02 PIC Microcontroller EC33306
03 Digital Signal and Image Processing using Matlab EC33307
04 LATEX EC33308
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
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91
FF No. : 654
Credits: 01 Teaching Scheme: - Laboratory 2 Hrs/Week
Prerequisites: Basic knowledge of MATLAB Programming and signals and systems
Objectives:
Develop concepts of spectral analysis in signal processing and digital
communication.
Understand the fundamentals and implement the algorithms.
List of Practicals
1. Continuous time fourier series.
2. Continuous time fourier transform.
3. Discret time fourier series.
4. Discret time fourier transform.
5. Gibb’s phenomenon.
6. Design of Notch filter.
7. Speech encryption and decryption.
8. Applications of fourier transform- spectral analysis of noise.
9. Miniproject.
EC 33305 :: FOURIER THEORY
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
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FF No. : 654
Credits: 01 Teaching Scheme: - Laboratory 2 Hrs/Week
Prerequisites: Basic Knowledge of Digital Electronics and Microprocessor
Objectives:
Understand the Architecture of PIC Microcontroller and On chip Peripherals
Understand the fundamentals and implement machine language programming.
Understand the fundamentals and implement C language programming.
List of Practicals
1. Signed and Unsigned Arithmetic Operations.
2. I/O PORT Programming
3. Delay using Timers
4. LED interfacing
5. LCD interfacing
6. Keyboard Interfacing
7. Serial Communication
8. ADC and PWM Programming.
9. Miniproject
EC 33306 :: PIC MICROCONTROLLER
Text Books
5. Ajay V. Deshmukh ‘Microcontrollers’(TMH)
References 5. Datasheets of PIC MICROCONTROLLER
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
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93
FF No. : 654
Credits: 01 Teaching Scheme: - Laboratory 2 Hrs/Week
Prerequisites: Basic knowledge of MATLAB Programming
Objectives:
To implement various algorithms in the field of signal and image processing.
To develop applications in various fields like data compression, Image coding,
Biometrics etc.
List of Practicals
1. Review of MATLAB basics
2. Frequency domain analysis of signals.
3. Fundamental Image processing Techniques: negation, Binarization etc.
4. Histogram stretching and equalization
5. Image segmentation-Object Separation
6. Advanced Image processing Techniques: Smoothening, Sharpening etc.
7. Image Transforms- DCT, Hough Transform, Wavelet transform etc.
8. Introduction to Graphical user Interface(GUI)
9. Mini-project
Text Books
5. “Digital Image Processing using MATLAB”, Gonzalez and Woods
6. “MATLAB programming for Engineers”, Stephen J. Chapman, second Edition
Reference Books
5. “Digital Image Processing”, Gonzalez and Woods
6. “Getting started with MATLAB 7”, Rudra Pratap
EC 33307 :: DIGITAL SIGNAL AND IMAGE PROCESSING USING
MATLAB
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
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FF No. : 654
PD EC33308 :: LATEX
Credits: 01 Teaching Scheme: - Laboratory 2 Hrs/Week
Prerequisites: Nil
Objectives: To make the students to write different document in presentable form.
List of Practical
1 Introduction to LaTex
2 Mathematics In LaTex
3 Formatting Environment in LaTex
4 Graphics Environment in Latex
5 Assignment (1) Conversion of Given PDF file into LaTex format (General)
6 Assignment (2) Conversion of Given PDF file into LaTex (Springer Verlag) format
7 Assignment (3) Conversion of Given PDF file into LaTex (Elsevier Science) format
8 Assignment (3) Conversion of Given PDF file into LaTex (IEEE) format F
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
95
Project and Seminar
Subject
No/
Sem
Subject Name Subject Code Teaching Scheme (Hrs. per week) Credits
Lecture Tutorial Practical
SM1
TE I
Seminar EC37301 0 0 1 2
PS1
TE II
Project Stage-I EC37302 0 0 1 2
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
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FF No. : 654
Credits: 2 Teaching Scheme: - Lab 1 Hrs/Week
Prerequisites: Knowledge of Basic engineering subjects.
Objectives:
To evaluate student on the basis of
His / her performance in carrying out the seminar work.
Presentation skill
Guidelines for students
A seminar based on relevant disciplinary or inter disciplinary topic is to be
presented by every candidate during the semester. It consists of Literature
Survey , study of system and analysis.
The selection of the topic should be based on references from magazines,
transactions, reference books and other technical literature.
The approval of the Department Head/ Coordinator prior to
commencement of work and presentation is essential.
The student is expected to produce a report based on the work carried out.
The presentation, report, work done during the term supported by the
documentation, forms the basis of assessment.
Outcomes:
After completion of this course, student will be able to:
Carry out comparative study of the systems.
Improve soft skills.
Prepare and present technical seminar.
EC 37301:: Technical Seminar
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
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FF No. : 654
Credits: 2 Teaching Scheme: - Lab 1 Hrs/Week
Prerequisites: Knowledge of Basic engineering subjects.
Objectives:
To select and work on real life application in the field of Electronics and
Telecommunication.
To support students’ learning and engagement with principles of undergraduate
education.
To apply and enhance the knowledge acquired in the related field.
Guidelines for students
1. The project work will be carried by a group of students. Optimum group
size is three students. However, if project complexity demands a
maximum group size of four students, the coordinating committee should
be convinced about such complexity and scope of the work
2. Topic of the project work should be in the field of Electronics and
Telecommunication related to real life application OR investigation of the
latest development OR Microcontroller based application OR Software
development project with the justification for techniques
used/implemented.
3. Interdisciplinary projects should be taken up only with the justification for
techniques used and the coordinating committee should be convinced
about such complexity and scope of the work
4. The abstract of the project should be submitted for approval. Students
should incorporate the modifications and changes prior to starting the
work.
5. Group should maintain a logbook of activities throughout the project
stages. It should have entries related to the work done, problems faced,
EC 37302: : Project (Stage I)
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
98
solutions evolved, etc., duly signed by internal and external guides.
6. A approved copy of project progress report based on the work carried out
in stage should be submitted. It is required to be presented to internal
guide at the time of evaluation.
Outcomes:
Upon completion of this course student will be able to :
Appreciate various aspects of the curriculum which support students’ increasing
mastery of competencies in technicality.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
99
MO
DU
LE
- V
II
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
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2/4/2011
100
BE MODULE VII
Subject
No.
Subject Name Subject Code Teaching Scheme (Hrs. per week) Credits
Lecture Tutorial Practical
S1 Electronic Circuit
Design /
Microwave
Engineering
EC40101/
EC40102
3 0 0 3
Electronic Circuit
Design /
Microwave
Engineering
EC40201/
EC40202
0 1 0 1
S2 Elective I EC421XX 3 0 0 3
Elective I EC422XX 0 1 0 1
S3 Coding & Data
Compression
EC40103 3 0 0 3
S4 Elective II EC421XX 3 0 0 3
P1 Coding & Data
Compression
EC40301 0 0 2 1
P2 Elective II EC423XX 0 0 2 1
Total 12 2 4 16
List of Elective 1
Subject
No.
Subject Name Subject Code Teaching Scheme (Hrs. per week) Credits
Lecture Tutorial Practical
S2 Remote Sensing EC42101 3 0 0 3
Remote Sensing EC42201 0 1 0 1
S2 Artificial
Intelligence
EC42102 3 0 0 3
Artificial
Intelligence
EC42202 0 1 0 1
S2 Pattern
Recognition
EC42103 3 0 0 3
Pattern
Recognition
EC42203 0 1 0 1
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
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101
List of Elective 2
Subject
No.
Subject Name Subject Code Teaching Scheme (Hrs. per week) Credits
Lecture Tutorial Practical
S4 Fibre Optic
Communication
EC42104 3 0 0 3
P2 Fibre Optic
Communication
EC42301 0 0 2 1
S4 VLSI Design EC42105 3 0 0 3
P2 VLSI Design EC42302 0 0 2 1
S4 Digital Image
Processing
EC42106 3 0 0 3
P2 Digital Image
Processing
EC42303 0 0 2 1
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
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FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Basic knowledge of electronics.
Objectives:
1. To understand the design of basic electronics circuits like power supplies, audio
amplifiers etc.
2. To understand the effect of noise on electronics circuit performance.
3. To be able to design high frequency RF circuits.
4. To estimate the reliability of electronics circuits.
Unit I
Design of Power Supplies (8+1 Hrs)
A: Linear regulated power supply design, design of crowbar and foldback protection
circuits, line filter, fuse selection, Positive, negative and dual power supply, floating
power supply.
Switched mode power supplies, forward, flyback, buck & boost converters, design of
transformers and control circuits for SMPS.
B: Design of programmable power supply.
Unit II (8+1 Hrs)
Design of Audio Amplifier
A. Selection of microphone, Signal conditioning; grounding, shielding and guarding
techniques; design of multistage amplifier, power amplifier; impedance matching, biasing
and stability issues, interfacing with loudspeaker; Volume control, Bass boost design,
graphic equalizer.
B. Design of Class D audio amplifier
Unit III
Discrete Circuit Design
(8+1 Hrs)
EC 40101 :: ELECTRONICS CIRCUIT DESIGN
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
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A. Switched capacitors- design issues and applications like DC to DC converters,
filters, ADC etc. Phase Locked Loop, Voltage Controlled Oscillator, applications like FM
detector, FSK demodulator, frequency multiplier. PLL IC 565
B. AM Detector
Unit IV (8+1 Hrs)
Introduction to RF Design
A. RF behaviour of passive components, Chip components and circuit board
considerations, scattering parameters, Analysis of amplifier using scattering parameter.
RF filter – Basic resonator and filter configurations – Butterworth. Implementation of
microstrip filter design. Band pass filter and cascading of band pass filter elements,
stability issues. RF amplifier design- Broad band, high power amplifiers, RF oscillator
design- stability and phase noise, LNA design, Mixers and receiver design, Use of Smith
Chart.
B. ABCD parameters, Basic resonator and filter configurations – Chebyshev filters.
Receiver and transmitter design
Unit V (8+1 Hrs)
Reliability & Noise considerations in design of electronics circuits.
A. Introduction to reliability and quality, bath tub curve, MTBF, MTTR, failure rate,
causes of failure, maintainability, availability, techniques to enhance system reliability,
fault tree technique.
Noise: definition, noise reduction and interference eliminating methods, grounding,
shielding. Noise considerations in transistors and opamp.
B. EMI, EMC, ESD constraints in circuit design.
Text Books
1. “Reliability Engineering”, E.Balagurusamy, Tata McGraw Hill Publications
2. “Noise Reduction Techniques in Eletronics Circuits”, Henry Ott, John Wiley &
Sons
3. “SMPS Design”, Abraham Pressman,
4. “Audio amplifier design handbook” Philips
5. “Radio Frequency Transistors-Principles & Practical Applications”, Norman Dye,
Helge Granberg, Elsevier Science- Newnes
6. “Transistor Circuit Design”, Gerald Williams
7. “RF Circuit Design- Theory and Applications”, Reinhold Ludwig, Pavel Bretchko
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
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Reference Books
1. “High Frequency Switching Power Supplies: Theory & Design”, George
Chryssis,
2. “Solid State Radio Engineering”, Herbert Krauss, Charles Bostian, Frederick
Raab, John Wiley & Sons
3. Datasheets of regulated power supply IC, signal conditioning IC, graphic
equalizer IC, Tone control IC, RF transistor, PLL IC 565, etc
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
105
FF No. : 654
EC 40201 :: ELECTRONICS CIRCUIT DESIGN
Credits: 01 Teaching Scheme: - Tutorial 1 Hrs/Week
Prerequisites: Basic knowledge of electronics
Objectives:
To understand thoroughly and carry out design examples related to topics taught
in the class.
List of Tutorial Assignments
1. To design a Linear regulated power supply.
2. To design a Linear regulated power supply.
3. To design a SMPS.
4. To design a SMPS.
5. To design a multi-stage amplifier.
6. To design an Audio amplifier.
7. To design an Audio amplifier.
8. To design a circuit using switched capacitor.
9. To design a circuit using PLL.
10. To study Smith Chart.
11. To design an RF amplifier.
12. To design an RF amplifier.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
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FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Basic Communication Engineering concepts.
Objectives :
To study Basics of Microwave communication system.
To study different Waveguide components and applications.
To study Microwave Tubes.
To study Microwave solid state devices
Unit I
(6+1 Hrs)
MICROWAVE TRANSMISSION LINES
A. Overview of Microwave communication : Microwave communication system ,
Advantages and applications of Microwaves. Rectangular Waveguides – TE/TM mode
analysis, Expressions for Fields, Characteristic Equation and Cut-off Frequencies,
Dominant Modes. Mode Characteristics – Phase velocity and Group Velocity. Power
Transmission and Power Losses in Rectangular Waveguide.
B.Circular Waveguides : Introduction, Nature of fields, Characteristic Equation,
Dominant mode, Impossibility of TEM mode.
Unit II (8+1 Hrs)
WAVEGUIDE COMPONENTS AND APPLICATIONS
A. Cavity Resonators– Introduction, Rectangular and Cylindrical Cavities, Dominant
Modes and Resonant Frequencies, Q factor and Coupling Coefficients.
Waveguide Multiport Junctions – E plane Tee, Magic Tee.
Ferrite Components – Gyrator, Isolator. Scattering Matrix– Significance, Formulation
and Properties. S Matrix Calculations for E plane, Magic Tee, Gyrator& Isolator.
B. Study H-plane, Directional Coupler, Circulator & find out S Matrix Calculations for
H-plane, Directional Coupler, Circulator.
Unit III (10+1 Hrs)
MICROWAVE TUBES
EC40102 :: MICROWAVE ENGINEERING
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
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A. Limitations and Losses of conventional tubes at microwave frequencies.
Microwave tubes – O type and M type classifications.
i)O-type tubes : 2 Cavity Klystrons – Structure, Velocity Modulation Process and
Applegate Diagram, Bunching Process , Expressions for o/p Power and Efficiency.
HELIX TWTS: Significance, Types and Characteristics of Slow Wave Structures;
Structure of TWT , Expressions for o/p Power and Efficiency.
ii) M-type Tubes
Introduction, Cross-field effects, Magnetrons – Different Types, 8-Cavity Cylindrical
Travelling Wave Magnetron – Hull Cut-off, Modes of Resonance and PI-Mode
Operation, o/p characteristics.
Travelling Wave Magnetron – Hull Cut-off, Modes of Resonance and PI-Mode
Operation, o/p characteristics.
B.Reflex Klystrons – Structure, Applegate Diagram and Principle of working,
Mathematical Theory of Bunching, Power Output, Efficiency, Oscillating Modes and o/p
Characteristics.
Unit IV (8+1 Hrs)
MICROWAVE SOLID STATE DEVICES
A. Principle, Construction, Characteristics and applications of Gunn Diode , Tunnel
Diode, PIN diode,Varactor diode, MASER.
B Principle, Construction, Characteristics and applications of PIN diode, IMPATT and
TRAPATT.
Unit V (8+1 Hrs)
REAL WORLD APPLICATIONS OF MICROWAVE ENGINEERING
A. Study of Microwave engineering such as in
i) Radars
ii) Communication
iii) Industrial applications
B. Microwave Power Measurement – Bolometer Method. Measurement of Attenuation,
Frequency, VSWR, Cavity Q. Impedance Measurements
.
Text Books
1. Microwave Devices and Circuits – Samuel Y. Liao, PHI, 3rd Edition .
2. Micro Wave and Radar Engineering – M. Kulkarni, Umesh Publications
Reference Books 1.Elements of Microwave Engineering – R. Chatterjee, Affiliated East-West Press Pvt.
Ltd., New Delhi, 1988.
2. Microwave Engineering Passive Circuits – Peter A. Rizzi, PHI, 1999.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
108
FF No. : 654
Credits: 01 Teaching Scheme: - Tutorials 1 Hrs/Week
Prerequisites: Basic Communication Engineering concepts.
Objectives :
Study Basic properties and characteristics of certain microwave sources and
microwave components.
1. Study of Microwave components.
2. Derive the expressions for Waveguide parameters.
3. Mathematical analysis of Reflex klystron.
4. Study the characteristics of Reflex klystron.
5. Study the domain formation in Gunn diode.
6. Study V-I characteristics of Gunn diode.
7. Calculate Scattering matrix for Magic Tee.
8. Study port parameters of Magic Tee.
9. Study construction details of Circulator.
10. Calculate port parameters of Circulator.
11. Calculate Directivity, Coupling factor and insertion loss for 10 dB / 20 dB
Directional Coupler.
12. Plot radiation pattern of Horn antenna.
EC40202 :: MICROWAVE ENGINEERING
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
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FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Basic knowledge of Digital Communication , Matrix algebra
Objectives:
To give inputs regarding Information Theory & coding techniques. Understand
the structures of the codes through the practical and appreciate the applications in
signal processing.
To understand the basics of Data compression and quantization techniques
To know the transform coding basics
Unit I : Information Theory & Source Coding (8 Hrs.)
A. Introduction, Information & Entropy, Probability & Markov models; Uniquely
decodable codes, Prefix codes, Source Coding Theorem, Shannon Fanon, Huffman
codes, optimality of Huffman Codes, Extended Huffman codes, adaptive Huffman codes
B. Discrete Memory less Channel & Mutual Information
Unit II : Error Control Coding (8Hrs.)
A. Linear Block Codes, Trellis Codes, Cyclic codes, Convolution Codes, Viterbii
decoding.
B. Channel capacity and coding allocations
Unit III : Lossless Coding Techniques (10 Hrs.)
A. Golomb & Rice codes, Arithmetic Coding, adaptive arithmetic coding, Dictionary
Techniques- Static & Adaptive Dictionary, Lempel Ziv Approaches- LZ77, LZ78, LZW,
File Formats- Graphic Interchange Format(GIF), Portable Network Graphics (PNG)
B. Applications– Lossless image compression, text compression, Audio Compression
EC 40103 :: Coding and Data Compression
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
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110
Unit IV : Scalar & Vector Quantization (7 Hrs.)
A. Uniform Quantizer, Adaptive Quantizer – Forward & Backward adaptive quantizer,
Jayant quantizer, non-uniform quantizer, vector quantization, Trellis coded quantization
B. Advantages of vector quantization over scalar quantization, Linde-Buzo-Gray (LBG)
algorithm, application of LBG algorithm to image compression
Unit V : Transform coding (7 Hrs.)
A. Necessity of transforms, Discrete Cosine, Sine, Walsh, Hadamard transform, KL
transform, Quantization and coding of transform coefficients, JPEG image compression.
B. Applications– Lossy image compression, Audio & Video Compression, Modified
Discrete Cosine Transform (MDCT)
Text Books
5. Simon Hyakins , ‘Communication systems’, Wiley Publications, 4th
edition 6. Khalid Sayood , ‘Introduction to Data Compression’, Elsvier publication, 3rd edition,
7. Graham Wade, ‘Coding Techniques – Introduction to compression & Error
control’,
Palgrave Publications
Reference Books
1. Ranjan Bose, ‘Information Theory & cryptography’, Tata McGraw Hill, 2002/2006
2. Saloman D, ‘Data compression – Complete reference ‘ , springer verlag, 3rd edition
3. Levis W.J. , ‘Data compression ‘ . Springer , 2nd
edition
8. Nelson Mark . Gaily . Jean , Loup , ‘Data Compression book’ , BPB publication,
2nd
edition
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
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List of Elective 1
Subject No. Subject Name Subject Code
01 Remote Sensing EC42101
02 Artificial Intelligence EC42102
03 Pattern Recognition EC42103
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
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FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Electromagnetics
Objectives:
1) To study remote sensing applications
2) To study radar technology
3) To study designing radar experiments
4) To study interpreting radar results
5) To study contemporary issues such as InSAR
Unit I
(6 + 1Hrs)
Foundations and Scope of Remote Sensing
A. History of remote sensing, Electromagnetic Spectrum, Energy sources and
Radiation Principles, Energy Interactions in the Atmosphere, Energy
Interactions with Earth Surface Features.
B. Civil applications of remote sensing.
Unit II (10 +1 Hrs)
Radar Basics
A. Interaction of EM waves with matter, Basic Radar Configurations, Basic Radar
Measurements, Doppler Shift, Radar Block Diagram, Radar Range Equation,
Antenna Parameters, Radar Cross Section, Pulse Repetition Frequency, Range
resolution, Time resolution, Pulse compression techniques, Design of radar
experiments
B. Radar Transmitters, Radar Receivers
EC42101:: REMOTE SENSING
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
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Unit III (8 + 1Hrs)
Practical Radar considerations
A. Detection of Signals in Noise, Information from Radar signals, Radar clutter – land,
sea, surface, weather clutter, propagation of radar waves.
B. Theoretical accuracy of radar measurements.
Unit IV (8+1 Hrs)
Remote Sensing Applications in Space Sciences
C. Study of High Power Large Aperture radars, Phased arrays, Coherent and
Incoherent Scattering, Effect of radio science on actual radar measurements,
Study of E-region of ionosphere and its effect on communications.
D. Study of latest radar systems such as modular design radar such as the Advanced
Modular Incoherent Scatter Radar.
Unit V (8 + 1Hrs)
Remote Sensing Applications in Natural Disaster Assessment and Land Cover
Mapping
A. Radar Interferometer, Synthetic Aperture Radars (SAR), Interferometric Synthetic
Aperture Radar (InSAR), Applications of SAR - polar research, mapping ocean
currents, seismic events, volcanic hazards
B. Study of Alaska SAR Facility
Text Books
1) Introduction to Radar Systems by Merrill Skolnik
2) Radar Principles by Peyton Z. Peebles
Reference Books
1) Synthetic Aperture Radar Interferometry by Richard Balmer and Philipp
Hartl(1998) Inverse Problems 14 R1.
2) Radar Interferometry: A new technique for studying plasma turbulence in the
ionosphere by Farley and Fejer (1981) Journal of Geophysical Research Vol. 86,
No. A3
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
114
FF No. : 654
Credits: 03 Teaching Scheme: - Tutorial 1 Hrs/Week
Prerequisites: Electromagnetics
Objectives:
To study remote sensing applications
To study radar technology
To study designing radar experiments
To study interpreting radar results
To study contemporary issues such as InSAR
1. Electromagnetic Wave Propagation
2. Interaction of Electromagnetic Waves with various media
3. Radar Range Equation
4. IPP, Time and Range Resolution
5. Pulse compression techniques
6. Antenna Parameters
7. Polarization and Antenna Arrays
8. Detection of signal in noise
9. Design of real world radar experiments – I
10. Design of real world radar experiments - II
11. Faraday Rotation
12. Radar Interferometry
Text Books:
3) Introduction to Radar Systems by Merrill Skolnik
4) Radar Principles by Peyton Z. Peebles
EC4220 :: REMOTE SENSING
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
115
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequsit: NIL
OBJECTIVE:- • To provide a strong foundation of fundamental concepts in Artificial Intelligence
• To provide a basic exposition to the goals and methods of Artificial Intelligence
• To enable the student to apply these techniques in applications which involve
perception, reasoning and learning.
Unit 1 : Introduction To Artificial Intelligence (6+1Hrs)
A) AI task domain, problem representation in AI, Problem characteristics.
B) Game playing using AI.
Unit 2 : Searching Techniques (9+1Hrs)
A) A.I. search process, non-heuristic and heuristic search techniques, , constrain
satisfaction and their applications.
B) Min-max search procedure.
Unit 3 : Knowledge Representation (8+1Hrs)
A) Hierarchy of knowledge, types of knowledge, knowledge representation, methods for
knowledge representation, predicate logic, Problems on predicate logic.
B) Introduction to PROLOG.
Unit 4 : Planning (8+1Hrs)
A) Components of planning system, goal stack planning technique.
B) Nonlinear Planning using Constraint Posting.
Unit 5: AI Tools (9+1Hrs)
A) Expert System Shells, Explanation, and Knowledge Acquisition. Human expert
behaviors, Expert system components, structure of expert system, the production system,
how expert system work and Expert system development for particular application.
Natural language processing: Introduction, Syntactic Processing, Semantic Analysis,
Discourse and Pragmatic Processing.
Architectures and functions in ANN, various learning rules. Building an ANN.
B) Building an Expert System
EC42102 :: ARTIFICIAL INTELIGENCE
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
116
Text Books:-
1. Elain Rich and Kerin Knight, “Artificial Intelligance”
2. Elements of Artificial Neural Networks - by Kishan Mehrotra, Chilukurik. Mohan,
Sanjay Ranka Penram International Publishing (India) Pvt. Ltd. Second edition,
Reference Books:-
1. Eugane. Charniak, Frew, “Introduction to Artificial Intelligance”, McDermott
2. Kishan Mehrotra, Sanjay Rawika, K. Mohan, “Arificial Neural Network”
3. Rajendra Akerkar, “Introduction to Artificial Intelligance”, Prentice Hall
Publication
4. Relevant IEEE papers.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
117
FF No. : 654
EC42202 :: ARTIFICIAL INTELIGENCE
Credits: 01 Teaching Scheme: - Tutorial 1 Hrs/Week
Objectives:-
To understand AI representations and applications
To get familiar with Statistical and Probabilistic Reasoning
To understand neural network architecture
To realize expert system using architecture and case studies
List
1. T o study of any game playing using non heuristic search technique.
2. T o study of Eight tile puzzle.
3. T o study of heuristic search technique like A*.
4. T o study of heuristic search technique like AO*.
5. T o study of heuristic search technique like Hill Climbing.
6. Neural network architecture for character recognition..
7. Neural network architecture for pattern classification or clustering application.
8. Build an Expert System.
9. Mini-project (Individual task).
Text Books
1. Elain Rich and Kerin Knight, “Artificial Intelligence”
2. Roberts, “Artificial Intelligence”
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
118
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Digital Signal Processing, Digital Image Processing, Probability Theory.
Objectives: To familiarize the student with
Pattern recognition Techniques
Bayesian decision theory
Non parametric Techniques
Different clustering Techniques.
Unit I (5 +1 Hrs)
Basics of pattern recognition.
A) Machine perception, Pattern recognition systems, design cycle, learning and
adaptation.
B) Case studies of Pattern recognition
Unit II (10+1 Hrs)
Bayesian decision theory
A) Bayesian Decision theory continuous and discrete features, minimum error rate
classification, classification discriminant function, Parameter estimation methods
like Maximum-Likelihood estimation, Gaussian mixture models, Expectation-
maximization method, and Bayesian estimation.
B) Bayesian belief network
Unit III (8+1 Hrs)
Nonparametric Techniques
A) Parzen-window method, K-Nearest Neighbour method, metrics and Nearest-
Neighbor Classification.
B) Fuzzy Classification
Unit IV ( 8+ 1 Hrs)
Linear discriminant function based classifiers
A) Linear discriminant function and decision surface, Perceptron, Support vector
EC42103 :: PATTERN RECOGNITION
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
119
machines
B) Multicategory generalization
Unit V (9+1 Hrs)
Unsupervised learning and clustering
A) Criterion functions for clustering, Algorithms for clustering: K-means,
Hierarchical and other methods, Cluster validation, component analysis.
B) Low dimensional representation and multidimensional scaling
Text Books
1. Pattern Classification, R.O.Duda, P.E.Hart and D.G.Stork, John Wiley, 2001
2. Pattern Recognition, S.Theodoridis and K.Koutroumbas, 4th Ed., Academic Press,
2009
Reference Books
7. Pattern Recognition and Machine Learning, C.M.Bishop, Springer, 2006
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
120
FF No. : 654
EC42203 :: PATTERN RECOGNITION
Credits: 01 Teaching Scheme: - Tutorial 1 Hrs/Week
Prerequisites:
Objectives: To familiarize the student with
Pattern recognition Techniques
Bayesian decision theory
Non parametric Techniques
Different clustering Techniques.
List of Contents
1. Concept of pattern recognition and Machine perception.
2. Analysis of Bayesian Decision theory continuous features
3. Analysis of Bayesian Decision theory discrete features
4. Analysis of Maximum-Likelihood estimation
5. Study of different Classification methods.
6. Analysis of Neighbour method-1
7. Analysis of Neighbour method- 2
8. Analysis of Linear discriminant function
9. Analysis of Support vector machines
10. Analysis of Algorithms for clustering-1
11. Analysis of Algorithms for clustering -2
12. Analysis of cluster validation
Text Books
1. Pattern Classification, R.O.Duda, P.E.Hart and D.G.Stork, John Wiley, 2001
2. Pattern Recognition, S.Theodoridis and K.Koutroumbas, 4th Ed., Academic Press,
2009
Reference Books
1. Pattern Recognition and Machine Learning, C.M.Bishop, Springer, 2006
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
121
List of Elective 2
Subject No. Subject Name Subject Code
01 Fiber Optic Communication EC42104
02 VLSI Design EC42105
03 Digital Image Processing EC42106
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
122
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Basic Communication Engineering concepts.
Objectives :
To study Basics of fiber optic communication system.
To study different fiber optic cable manufacturing techniques
To study Light sources and detectors.
To study losses in fiber optic communication system.
Unit I
(8+1 Hrs)
INTRODUCTION TO FIBER OPTIC COMMUNICATION
A. Overview of optical fiber communication: Fiber optic communication system,
Advantages of optical fiber communication, Ray theory transmission, total internal
reflection. Parameters of fiber optic cable: Acceptance angles, Numerical aperture, skew
rays, Mode, Index Profile, V number. Types of fiber optic cable.
B. Material of fiber optic cable, Manufacturing process of fiber optic cable.
Unit II (8+1 Hrs)
SIGNAL DEGRADATION IN FIBER OPTIC CABLE
A. Signal distortion in optical fibers : Attenuation ,Material absorption ,Scattering losses
(linear) , Bending losses ,Dispersion present in FOC, Fiber attenuation measurement ,
Optical Time Domain reflectometer ( Principle, concept & applications).
B. Nonlinear scattering losses , Fiber dispersion measurement
Unit III (10+1 Hrs)
OPTICAL SOURCES , DETECTORS AND SENSORS
EC42104 :: FIBER OPTIC COMMUNICATION SYSTEM
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
123
A. Light emitting diode: LED power and efficiency, LED structures, LED characteristics,
Modulation.
Light amplification by stimulated emission of Radiation : Basic concepts of LASER,
Injection LASER structures.
Optical detectors: Optical detection principles, Characteristics of optical detector,
photodiode, PIN diode, Avalanche photodiode.
Optical sensors : Phase and polarization fiber sensors, Intrinsic fiber sensors, Extrinsic
fiber sensors,
B. Optical Connectors & splices to connect Fiber optic cables..
Unit IV (8+1 Hrs)
FIBER OPTIC SYSTEM
A. Optical transmitter circuit, Optical receiver circuit, Link power budget, Rise time
budget , Analog system design.
B. Digital system design
Unit V (6+1 Hrs)
REAL WORLD APPLICATIONS OF FIBER OPTICS
A. Study of fiber optics such as in
i) Underwater communication
ii) Telephone system
iii) Military applications
B. Optical Networks: SONET/ SDH , Wavelength Division multiplexing
Text Books
1. Gerd Keiser , “Optical Fiber Communications”, Mc Graw Hill
2. John M. Senior, “Optical Fiber Communications”, Prentice Hall
Reference Books 1. D.K. Mynbaev , S.C. Gupta and Lowell L. Scheiner, “Fiber Optic
Communications” Pearson Education, 2005.
2.Govind P. Agarwal , John Wiley, “ Fiber Optic Communication Systems”,3rd
Edition,2004. .
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
124
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Nil
Objectives:
-To study concepts of CMOS Analog & Digital Design.
- To be familiar with CMOS fabrication process.
Unit I: MOSFET SPICE modeling (8+1 Hrs)
A] Modeling of semiconductor devices, MOSFET modeling, small signal model for
MOS transistor, Modeling of secondary & short channel effects, sub threshold modeling,
understanding role of parameters in model, Introduction to industry standard models
like PSP, Bsim.
B] Surface potential and threshold voltage based model.
Unit II: Analog CMOS sub-circuits (8+1 Hrs)
A] MOS Switch, Calculation of charge feed through error, MOS diode, Current Sink and
Sources, Designing cascade current sink for a given Vmin, Designing the self biased high
swing cascade current sink for a given Vmin, Current Mirrors, Aspect ratio errors in
current amplifiers, Reduction of the aspect ratio error in current amplifier, Current and
voltage references, Bandgap reference.
B] Design of a Bandgap voltage reference.
Unit III: CMOS Amplifiers (8+1 Hrs)
A] CMOS Amplifiers, Inverters, Active load Inverter, Current Source Inverter, Push pull
inverter, Noise analysis of inverter, Differential amplifier, Large Signal analysis,
Calculation of the worst case input common mode range of the N channel input
differential amplifier, Small signal analysis of differential amplifier, Slew rate and noise,
Current source load differential amplifier, Design of a CMOS differential amplifier with
a current mirror as a load.
EC42105:: VLSI DESIGN
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
125
B] Cascode amplifier.
Unit IV: Datapath and Memory Design (8 + 1 Hrs)
A] Adder- Single bit adder, bit parallel adder, carry save adder, carry-lookahead adder,
carry select adder, transmission adder, Parity generator, comparators, Multipliers- Array
multiplier, Radix n-multiplier, Wallace tree multiplier, serial multiplier, Shifters-Barrel
shifter, logarithemic shifter, Synchronizers and Arbiters, CMOS Memories-classification
of memories, Memory architecture, read only memories, Nonvolatile read write
memories, Read write memories, memory peripheral circuits, Booth’s Multiplier.
B] Manchester Carry Adder.
Unit V: Fabrication and Layout (8 +1 Hrs)
A] Basic CMOS fabrication flow, front end and back end fabrication steps, Self aligned
CMOS process, N well, Twin tub, Design rules, Layout of CMOS Inverter, Verification
of Layout.
B] P well
Text Books
1. “Digital Integrated Circuits: A Design Perspective”, J. Rabaey, Prentice Hall
India.
2. “CMOS analog circuit Design”, P.E. Allen and D.r. Holberg, second Edition,
Oxford.
3. “VLSI Technology”, S.M.Sze, , TMH.
Reference Books
1. “Principles of CMOS VLSI Design”, N. Weste and K. Eshranghian, Addison
Wesley.
2. “CMOS”, RJ Baker, Wiley IEEE Press, 2004.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
126
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Digital Signal Processing.
Objectives:
To familiarize the student with the basic concepts about image, its formation,
human visual system and its limitations
To understand various image enhancement approaches
To apply the basic morphology principles
To understand image segmentation
To learn basic ideas of image compression
To prepare the background for student to apply principles learnt to practical cases
Unit I (8 +1 Hrs)
Digital Image Fundamentals and Image Enhancement
A) Elements of visual perception, Image sampling & Quantization, colour
fundamentals, colour models, pseudo colour image processing. Basic grey level
transformations, histogram processing, enhancement using arithmetic and logic
operators, spatial filtering – smoothing and sharpening filters. Smoothing and
sharpening
B) frequency domain filters
Unit II (6+1 Hrs)
Morphological Image Processing
A) Neighbourhood concepts, adjacency and distance measures, dilation & erosion,
opening & closing operations, basic morphological operations such as region
filling, thinning, thickening, skeletons, pruning for binary and gray scale images.
B) Morphological operations for gray scale images.
EC42106 :: Digital Image Processing
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
127
Unit III (8+1 Hrs)
Image Segmentation
C) Detection of discontinuities, edge linking and boundary detection, thresholding,
region based segmentation, use of watersheds, image representation- chain codes,
boundary descriptors & regional descriptors
D) Other segmentation techniques
Unit IV (10+1 Hrs)
Image Transforms
C) Coding, interpixel and image redundancy; 2-D Discrete Fourier Transform,
Discrete Cosine Transform – its application in Baseline JPEG , Walsh Hadamard
Transform, Fast Walsh Transform, sub band coding Haar Transform – it’s
application as a Wavelet, multi resolution expansions, 1-D Wavelet Transform,
Fast Wavelet Transform; Introduction to Gabor Transform, Introduction to Radon
Transform,
D) Multycategory generalization
Unit V (8+1 Hrs)
Image Processing Applications
C) Applications of transforms in fingerprinting, Medical applications, Morphological
applications. Study of IEEE reference papers covering basic ideas of Transforms
and their applications
D) Other applications of image processing
Text Books
1. Digital Image Processing, Gonzalez, Woods, PHI , 2nd
edition
2. Digital Image Processing, Pratt W.K., John Wiley, 2001
Reference Books
1. Fundamentals of Digital Image Processing, Jain A.K., PHI, 1997
2. Image Processing , Analysis & Machine Vision, Milan Sonka, Thomson
Publication .
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
128
FF No. : 654
Credits: 01 Teaching Scheme: - Laboratory 2 Hrs/Week
Prerequisites: Basic knowledge of MATLAB Programming
Objectives: To learn the theoretical concepts of various types of coding and data
compression techniques using a suitable programming platform.
List of Practicals
1. Linear Block Coding/ Convolution Coding
2. Unique Decodability Test
3. Huffman Coding.
4. Golomb Coding
5. Arithmetic Coding
6. Lempel Ziv-77
7. Uniform Quantizer/Jayant /Trellis coded Quantizer
8. Trellis Coded Quantizer
9. Miniproject
EC 40301 :: Coding and Data Compression
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
129
FF No. : 654
Credits: 01 Teaching Scheme: - Laboratory 2Hrs /week
Prerequisites: Basic Communication Engineering concepts.
Objectives :
Study the parameters and losses in fiber optic cable.
Study the characteristics of optical source and optical detector.
Study transmission of signals through fiber optic cable.
List of Practicals
1. Study and Measurement of Numerical Aperture of a fiber.
2. Measurement of attenuation loss and bending loss for various lengths of fiber
optic cable.
3. Study of transmission of Analog and Digital signals through fiber optic cable.
4. Study and plot V-I characteristics of optical source.
5. Study and plot frequency response of optical receiver.
6. Study of transmission of Voice through fiber optic cable.
7. Study of transmission of FM signal through fiber optic cable.
8. Study of Optical Fiber Connectorization kit.
9. Mini Project.
Text Books
1. Gerd Keiser , “Optical Fiber Communications”, Mc Graw Hill
2. John M. Senior, “Optical Fiber Communications”, Prentice Hall
EC42301 :: FIBER OPTIC COMMUNICATION SYSTEM
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
130
FF No. : 654
EC42302:: VLSI DESIGN
Credits: 01 Teaching Scheme: - Laboratory 2 Hrs/Week
Prerequisites: Nil
Objectives:
Design and conduct experiments using SPICE to characterize and optimize
digital integrated circuits.
Design, Verify, Analyze and Evaluate the performance (speed, Power, Area,
Noise margins of different MOS digital integrated circuits for different design
specifications.
Use CAD tool in the design and verification of digital integrated circuits.
List of Practical
I-V characteristics of MOS using SPICE
To simulate MOS as a switch
To simulate Current mirror
To simulate Differential Amplifier
To simulate Adder.
To simulate Latch.
To draw the layout of CMOS inverter.
To draw the layout of two input logic gate.
Course project based on Spice and/or Layout tool
Text Books
1. “Digital Integrated Circuits: A Design Perspective”, J. Rabaey, Prentice Hall
India.
2. “CMOS analog circuit Design”, P.E. Allen and D.r. Holberg, second Edition,
Oxford.
3. “VLSI Technology”, S.M.Sze, , TMH.
Reference Books
1. “Principles of CMOS VLSI Design”, N. Weste and K. Eshranghian, Addison
Wesley.
2. “CMOS”, RJ Baker, Wiley IEEE Press, 2004.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
131
FF No. : 654
EC42303 :: Digital Image Processing
Credits: 01 Teaching Scheme: - Laboratory 2 Hrs/Week
Prerequisites: Nil
Objectives:
To familiarize the student with the basic concepts about image file formats
To understand various image enhancement approaches
To apply the basic morphology principles
To understand image segmentation
List of Practical
1. Study of BMP file format
2. Conversion of 24 bit color image to 8 bit , 4 bit, 1 bit image
3. Image negation, power Law correction
4. Histogram mapping & equalisation, stretching
5. Image smoothing , sharpening
6. Edge detection – use of Sobel, Prewitt and Roberts operators
7. Morphological operations on binary images
8. Morphological operations on Gray scale images
9. Pseudo coloring
10. Chain coding
11. Image statistics
12. DCT/IDCT computation
13. Transform application assignment.
Text Books
1. Digital Image Processing, Gonzalez, Woods, PHI , 2nd
edition
2. Digital Image Processing, Pratt W.K., John Wiley, 2001
Reference Books
1. Fundamentals of Digital Image Processing, Jain A.K., PHI, 1997
2. Image Processing, Analysis & Machine Vision, Milan Sonka, Thomson
Publication .
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
132
MO
DU
LE
- V
III
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
133
BE MODULE VIII
Subject
No.
Subject Name Subject Code Teaching Scheme (Hrs. per week) Credits
Lecture Tutorial Practical
S5 Computer
Networks /
Wireless
Communication
EC40104/
EC40105
3 0 0 3
Computer
Networks /
Wireless
Communication
EC40203/
EC40204
0 1 0 1
S6 Elective III EC421XX 3 0 0 3
Elective III EC422XX 0 1 0 1
S7 Embedded
Systems (MD)
EC41101 3 0 0 3
S8 Elective IV EC421XX 3 0 0 3
P3 Embedded
Systems (MD)
EC41301 0 0 2 1
P4 Elective IV EC423XX 0 0 2 1
Total 12 2 4 16
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
134
List of Elective3
Subject
No.
Subject Name Subject Code Teaching Scheme (Hrs. per week) Credits
Lecture Tutorial Practical
S6 Microwave
Engineering */
Computer
Networks**
EC42107/
EC42108
3 0 0 3
Microwave
Engineering */
Computer
Networks**
EC42204/
EC42205
0 1 0 1
S6 Electronic
Automation
EC42109 3 0 0 3
Electronic
Automation
EC42206 0 1 0 1
S6 Artificial Neural
networks and
Fuzzy Logic
EC42110 3 0 0 3
Artificial Neural
networks and
Fuzzy Logic
EC42207 0 1 0 1
S6 Wireless Sensor
networks
EC42111 3 0 0 3
Wireless Sensor
networks
EC42208 0 1 0 1
List of Elective 4
Subject
No.
Subject Name Subject Code Teaching Scheme (Hrs. per week) Credits
Lecture Tutorial Practical
S8 Audio Video
Engineering
EC42112 3 0 0 3
P4 Audio Video
Engineering
EC42304 0 0 2 1
S8 Advanced Power
Electronics
EC42113 3 0 0 3
P4 Advanced Power
Electronics
EC42305 0 0 2 1
S8 Biomedical
Electronics
EC42114 3 0 0 3
P4 Biomedical
Electronics
EC42306 0 0 2 1
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
135
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: NIL
Objectives:
To understand basics of computer networking
To study and implement various protocols.
To study and implement LAN, WAN.
To study Network management techniques.
Unit I (6+1 Hrs)
OSI Reference Model and Network Architecture
A. Introduction to Computer Networks, Topologies, Types of Networks, Layering
architecture of networks, OSI model, Functions of each layer, Services and Protocols of
each layer
B. Communication media.
Unit II (10+1 Hrs)
TCP/IP Protocol suit
A. Introduction, History of TCP/IP, Layers of TCP/IP, Protocols, Internet Protocol,
Transmission Control Protocol , User Datagram Protocol, IP Addressing, IP address
classes, Subnet Addressing, Internet Control Protocols, ARP, RARP, ICMP, Application
Layer, Domain Name System, Email – SMTP, POP, FTP, WWW, HTTP,
B. Overview of IP version 6.
Unit III (8+1 Hrs)
Local Area Networks
A : Introduction to LANs, Features of LANs, Components of LANs, Usage of LANs,
LAN Standards, IEEE 802 standards, Channel Access Methods, Aloha, CSMA,
CSMA/CD, Token Passing, Ethernet, Fast Ethernet and Gigabit Ethernet
Standards, IEEE 802 standards, Channel Access Methods, Aloha, CSMA, CSMA/CD,
Token Passing, Ethernet, Fast Ethernet and Gigabit Ethernet,, LAN Standards, IEEE 802
standards, Channel Access Methods, Aloha, CSMA, CSMA/CD, Token Passing,
Ethernet, Fast Ethernet and Gigabit Ethernet
B. Interconnecting devices: Hubs, Switches, Bridges, Routers, and Gateways.
Unit IV (8+1 Hrs)
Wide Area Networks
EC 40104 :: Computer Network
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
136
A. Introduction of WANs, Routing, Congestion Control, WAN Technologies, Distributed
Queue Dual Bus (DQDB), Synchronous Digital Hierarchy (SDH)/ Synchronous Optical
Network (SONET), Asynchronous Transfer Mode (ATM), Frame Relay.
B. Routing and congestion control algorithms
Unit V (8+1 Hrs)
Introduction to Network Management:
A. Remote Monitoring Techniques: Polling, Traps, Performance Management, Class of
Service, Quality of Service, Security management, Firewalls, VLANs, Proxy Servers
B. Simple encryption and decryption algorithms.
Text Books
1. Computer Networks (3rd edition), Tanenbaum Andrew S., International edition,
2. Data communication and networking (4th
edition), Behrouz A Forouzan, McGraw
– Hill.
Reference Books
1. Data and computer communication by William Stallings.
2. Computer Networking , James kurose & Keith Ross. , Low Price Edition.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
137
FF No. : 654
EC40203 :: Computer Network
Credits: 01 Teaching Scheme: - - Tutorial 1 Hr/Week
Prerequisites: : Nil
Objectives:
List of Contents
1. Basic media/ channel used in Computer networks.
2. Cable and connectors prepration
3. LAN/MAC card
4. Network components
5. LAN MAN architecture
6. Design of Network
7. Sliding window protocol
8. Dial up modems
9. Web Server FTP server
10. Mini projects based on course
Text Books
1. Computer Networks (3rd edition), Tanenbaum Andrew S., International edition,
2. Data communication and networking (4th
edition), Behrouz A Forouzan, McGraw
– Hill.
Reference Books
1. Data and computer communication by William Stallings.
2. Computer Networking , James kurose & Keith Ross. , Low Price Edition.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
138
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Knowledge of Analog Communication and Digital Communication
Objectives:
To understand Wireless Communication systems and standards across the globe.
To understand the current trends and technologies in wireless Communication
To understand wireless Networks
Unit I (7+1 Hrs)
Wireless Communication Systems
A.. Introduction to Wireless Communication Systems, Examples of Wireless
Communication Systems, Trends in Cellular Radio and Personal Communications.
Modern Wireless Communication Systems: Second Generation (2G) Cellular
Networks, 2.5G, Third Generation (3G) wireless Networks,
The Cellular Concept: Introduction, Frequency Reuse, Channel Assignment strategies,
Hand off Strategies, interference and system capacity, improving coverage and capability
in Cellular Systems.
B. 4G standard, effects of electromagnetic Radiation of mobile base stations on human
body.
Unit II (7+1 Hrs)
Mobile Radio Propagation
A. Large Scale Path Loss: Introduction to Radio wave propagation , free space
propagation model, propagation mechanisms, Practical Link Budget design using path
loss models, Out door propagation models, Indoor propagation models, signal penetration
into buildings, Ray tracing and site specific modeling.
Small Scale Path Loss: Small Scale Multi path propagation, small scale multi-path
measurements, parameters of mobile multi path channels, Types of small scale fading,
Examples of fading behaviour.
B. Raleigh and Racian distribution, Statistical models for multi path fading channels.
Unit III (7+1 Hrs)
EC 40105 :: WIRELESS COMMUNICATION
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
139
Multiple Access Techniques for Wireless Communications
A. Introduction to multiple access, Frequency Division Multiple Access (FDMA), Time
Division Multiple Access (TDMA), Spread Spectrum Multiple Access, Space Division
Multiple Access (SDMA), Capacity of Cellular Systems.
B. Packet Radio Protocols, Carrier Sense Multiple Access Protocols. Reservation
protocols.
Unit IV (7+1 Hrs)
Wireless Networking
A. Introduction to Wireless Networks, differences between Wireless and fixed
Telephone Networks, Development of Wireless Networks, Traffic routing in Wireless
Networks, Wireless Data Services, Common Channel Signaling, Integrated Services
Digital Network (ISDN), Introduction to Signaling System No.7(SS7), Protocols for
network access. Personal Communication Services / Networks, Protocols for network
access.
Wireless LAN: Infrastructure and Adhoc Networks, IEEE 802.11 , HIPERLAN,
introduction to Bluetooth.
B. An example of SS7- Global Cellular Network inter operability, performance of SS7.
Unit V (7+1 Hrs)
Wireless Systems and Standards
A. AMPS and ETACS, United States Digital Cellular (IS-54 and IS-136), Global System
for mobile (GSM), CDMA, Digital Cellular Standard (IS-95), CT2 Standard for Cordless
Telephones, Digital European Cordless Telephone (DECT) Standard, Personal Access
Communication Systems (PACS).
B. TRAI Standards for GSM, DECT and GPRS.
Text Books
1. Wireless Communications- Principle and practice, Theodore S, Rappaport, Second
edition, PHI
2. Mobile Communications, Jochen Schiller, Second Edition, Pearson Education.
References
1. www. Trai.gov.in
2.Relevant IEEE Papers
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
140
FF No. : 654
Credits: 01 Teaching Scheme: Tutorial 1 Hr/Week
Prerequisites: : Knowledge of Analog Communication and Digital Communication
Objectives:
To study Wireless Communication systems and standards across the globe.
To study the current trends and technologies in wireless Communication
To study wireless Networks
List of Contents
1. TRAI regulations on 3G and 4G Technologies
2. Study and discussion of IEEE papers on Frequency Re use , Channel assignment
3. Interference, Capacity improvement and Coverage improvement.
4. Large Scale Path Loss
5. Small Scale path loss
6. Multiple Access Techniques for wireless communication(CSMA)
7. Multiple Access Techniques for wireless communication( Packet Radio)
8. Wireless Networking Techniques
9. Traffic Routing in wireless Networks
10. Performance improvement of Wireless Networks
11. Network Access Protocols
12. Next Generation Networks.
Text Books
1. Wireless Communications- Principle and practice, Theodore S, Rappaport, Second
edition, PHI
2. Mobile Communications, Jochen Schiller, Second Edition, Pearson Education.
References
1. www. Trai.gov.in
2.Relevant IEEE Papers
EC 40204 :: WIRELESS COMMUNICATION
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
141
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Digital Electronics and Microcontroller
Objectives:
To study Hardware and Software architecture of ES.
To study ARM7 architecture and learn its assembly language programming
To study wireless protocols
To study field bus protocols
To study architecture of Real Time Operating Systems (RTOS )
To study System Design Techniques
Unit I (8+1 Hrs)
Embedded System Architecture
A.Introduction, History, Application of embedded systems, Hardware and software
architecture ,Processor selection for Embedded System, Memory Architecture and IO
devices , Interrupt Service Mechanism ,Context switching, Device Drivers
B. Recent trends in embedded systems.
Unit II (8+1 Hrs)
Embedded processors
A.
ARM Processor: Architecture and Programming: RISC and CISC , ARM organization ,
ARM Programmers model , operating modes , Exception Handling , Nomenclature.
Introduction to ARM instruction set
B. ARM Core Extensions
Unit III (8+1 Hrs)
Unit Name : Protocols
EC41101 :: Embedded Systems
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
142
A.
Bluetooth , Wireless Ethernet ,MODBUS, CAN and USB
B.
Applications of protocols
Unit IV (8+1 Hrs)
Unit Name : : Real Time Operating System
A.
Architecture of the kernel , Task scheduler , ISR , Semaphores , Mailbox , Message
queues , Pipes , Events , Timers , Memory Management .
B.
RTLinux architecture and specifications
Unit V (8+1 Hrs)
Unit Name : System Design Techniques
A.
Design goals ,Development strategies ,software development, crosss
compilation and code generation, porting to the final target system, generation
of test modules, Target hardware testing ,future techniques, relevance to more
complex design, the need for emulation
Examples- Burglar alarm system, Set Top box, Smart card
B.
Automobile electronic
Text Books
4. Raj Kamal ,”Embedded Systems “ TMH
5. Sloss etal ,”ARM Developers Guide”.
Reference Books
1 Dr. K.V.K.K. Prasad “Embedded / Real Time Systems” Dreamtech
2 Iyer , Gupta “ Embedded Real systems programming “ TMH.
3 Steve Heath “ Embedded System Design “ Neuwans.
4 Frank Vahid , “Embedded System Design.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
143
List of Elective3
Sr. No. Subject Name Subject Code
01 Microwave Engineering */
Computer Networks**
EC42107/
EC42108
02 Electronic Automation EC42109
03 Artificial Neural networks and Fuzzy Logic EC42110
04 Wireless Sensor networks EC42111
*For Electronics Students
**For E and TC students
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
144
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Basic Communication Engineering concepts.
Objectives :
To study Basics of Microwave communication system.
To study different Waveguide components and applications.
To study Microwave Tubes.
To study Microwave solid state devices
Unit I
(6+1 Hrs)
MICROWAVE TRANSMISSION LINES
A. Overview of Microwave communication : Microwave communication system ,
Advantages and applications of Microwaves. Rectangular Waveguides – TE/TM mode
analysis, Expressions for Fields, Characteristic Equation and Cut-off Frequencies,
Dominant Modes. Mode Characteristics – Phase velocity and Group Velocity. Power
Transmission and Power Losses in Rectangular Waveguide.
B.Circular Waveguides : Introduction, Nature of fields, Characteristic Equation,
Dominant mode, Impossibility of TEM mode.
Unit II (8+1 Hrs)
WAVEGUIDE COMPONENTS AND APPLICATIONS
A. Cavity Resonators– Introduction, Rectangular and Cylindrical Cavities, Dominant
Modes and Resonant Frequencies, Q factor and Coupling Coefficients.
Waveguide Multiport Junctions – E plane Tee, Magic Tee.
Ferrite Components – Gyrator, Isolator. Scattering Matrix– Significance, Formulation
and Properties. S Matrix Calculations for E plane, Magic Tee, Gyrator& Isolator.
B. Study H-plane, Directional Coupler, Circulator & find out S Matrix Calculations for
H-plane, Directional Coupler, Circulator.
EC42107 :: MICROWAVE ENGINEERING
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
145
Unit III (10+1 Hrs)
MICROWAVE TUBES
A. Limitations and Losses of conventional tubes at microwave frequencies.
Microwave tubes – O type and M type classifications.
i)O-type tubes : 2 Cavity Klystrons – Structure, Velocity Modulation Process and
Applegate Diagram, Bunching Process , Expressions for o/p Power and Efficiency.
HELIX TWTS: Significance, Types and Characteristics of Slow Wave Structures;
Structure of TWT , Expressions for o/p Power and Efficiency.
ii) M-type Tubes
Introduction, Cross-field effects, Magnetrons – Different Types, 8-Cavity Cylindrical
Travelling Wave Magnetron – Hull Cut-off, Modes of Resonance and PI-Mode
Operation, o/p characteristics.
Travelling Wave Magnetron – Hull Cut-off, Modes of Resonance and PI-Mode
Operation, o/p characteristics.
B.Reflex Klystrons – Structure, Applegate Diagram and Principle of working,
Mathematical Theory of Bunching, Power Output, Efficiency, Oscillating Modes and o/p
Characteristics.
Unit IV (8+1 Hrs)
MICROWAVE SOLID STATE DEVICES
A. Principle, Construction, Characteristics and applications of Gunn Diode , Tunnel
Diode, PIN diode,Varactor diode, MASER.
B Principle, Construction, Characteristics and applications of PIN diode, IMPATT and
TRAPATT.
Unit V (8+1 Hrs)
REAL WORLD APPLICATIONS OF MICROWAVE ENGINEERING
A. Study of Microwave engineering such as in
i) Radars
ii) Communication
iii) Industrial applications
B. Microwave Power Measurement – Bolometer Method. Measurement of Attenuation,
Frequency, VSWR, Cavity Q. Impedance Measurements
.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
146
Text Books
1. Microwave Devices and Circuits – Samuel Y. Liao, PHI, 3rd Edition .
2. Micro Wave and Radar Engineering – M. Kulkarni, Umesh Publications
Reference Books 1.Elements of Microwave Engineering – R. Chatterjee, Affiliated East-West Press Pvt.
Ltd., New Delhi, 1988.
2. Microwave Engineering Passive Circuits – Peter A. Rizzi, PHI, 1999.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
147
FF No. : 654
Credits: 01 Teaching Scheme: - Tutorials 1 Hrs/Week
Prerequisites: Basic Communication Engineering concepts.
Objectives :
Study Basic properties and characteristics of certain microwave sources and
microwave components.
1. Study of Microwave components.
2. Derive the expressions for Waveguide parameters.
3. Mathematical analysis of Reflex klystron.
4. Study the characteristics of Reflex klystron.
5. Study the domain formation in Gunn diode.
6. Study V-I characteristics of Gunn diode.
7. Calculate Scattering matrix for Magic Tee.
8. Study port parameters of Magic Tee.
9. Study construction details of Circulator.
10. Calculate port parameters of Circulator.
11. Calculate Directivity, Coupling factor and insertion loss for 10 dB / 20 dB
Directional Coupler.
12. Plot radiation pattern of Horn antenna.
EC42204 :: MICROWAVE ENGINEERING
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
148
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: NIL
Objectives:
To understand basics of computer networking
To study and implement various protocols.
To study and implement LAN, WAN.
To study Network management techniques.
Unit I (6+1 Hrs)
OSI Reference Model and Network Architecture
A. Introduction to Computer Networks, Topologies, Types of Networks, Layering
architecture of networks, OSI model, Functions of each layer, Services and Protocols of
each layer
B. Communication media.
Unit II (10+1 Hrs)
TCP/IP Protocol suit
A. Introduction, History of TCP/IP, Layers of TCP/IP, Protocols, Internet Protocol,
Transmission Control Protocol , User Datagram Protocol, IP Addressing, IP address
classes, Subnet Addressing, Internet Control Protocols, ARP, RARP, ICMP, Application
Layer, Domain Name System, Email – SMTP, POP, FTP, WWW, HTTP,
B. Overview of IP version 6.
Unit III (8+1 Hrs)
Local Area Networks
A : Introduction to LANs, Features of LANs, Components of LANs, Usage of LANs,
LAN Standards, IEEE 802 standards, Channel Access Methods, Aloha, CSMA,
CSMA/CD, Token Passing, Ethernet, Fast Ethernet and Gigabit Ethernet
Standards, IEEE 802 standards, Channel Access Methods, Aloha, CSMA, CSMA/CD,
Token Passing, Ethernet, Fast Ethernet and Gigabit Ethernet,, LAN Standards, IEEE 802
standards, Channel Access Methods, Aloha, CSMA, CSMA/CD, Token Passing,
Ethernet, Fast Ethernet and Gigabit Ethernet
B. Interconnecting devices: Hubs, Switches, Bridges, Routers, and Gateways.
Unit IV (8+1 Hrs)
Wide Area Networks
A. Introduction of WANs, Routing, Congestion Control, WAN Technologies, Distributed
FF No. : 654
EC 42108 :: COMPUTER NETWORK
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
149
Queue Dual Bus (DQDB), Synchronous Digital Hierarchy (SDH)/ Synchronous Optical
Network (SONET), Asynchronous Transfer Mode (ATM), Frame Relay.
B. Routing and congestion control algorithms
Unit V (8+1 Hrs)
Introduction to Network Management:
A. Remote Monitoring Techniques: Polling, Traps, Performance Management, Class of
Service, Quality of Service, Security management, Firewalls, VLANs, Proxy Servers
B. Simple encryption and decryption algorithms.
Text Books
6. Computer Networks (3rd edition), Tanenbaum Andrew S., International edition,
7. Data communication and networking (4th
edition), Behrouz A Forouzan, McGraw –
Hill.
Reference Books
3. Data and computer communication by William Stallings.
4. Computer Networking , James kurose & Keith Ross. , Low Price Edition.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
150
FF No. : 654
EC42205 :: COMPUTER NETWORK
Credits: 01 Teaching Scheme: - - Tutorial 1 Hr/Week
Prerequisites: : Nil
Objectives:
List of Contents
1. Basic media/ channel used in Computer networks.
2. Cable and connectors prepration
3. LAN/MAC card
4. Network components
5. LAN architecture
6. MAN architecture
7. Design of Network
8. Sliding window protocol
9. Dial up modems
10. Web Server
11. FTP server
12. Encryption /Decryption
13. Routing Algorithm
Text Books
3. Computer Networks (3rd edition), Tanenbaum Andrew S., International edition,
4. Data communication and networking (4th
edition), Behrouz A Forouzan, McGraw
– Hill.
Reference Books
3. Data and computer communication by William Stallings.
4. Computer Networking , James kurose & Keith Ross. , Low Price Edition.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
151
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Basics of control system, Op-Amp, and PLC
Objectives: To understand
- Hierarchy of automation
- Automation tools
- Controller principles
Unit I
(6+1 Hrs)
Unit Name: Introduction to Industrial Automation
A. Introduction and Architecture of automation, Types, pyramid of automation,
advantages and disadvantages, Advanced functions, Approach to automation, Manual
labor, and control levels.
B. Industrial Safety legislations and regulations, Safety by design.
Unit II
(8+1 Hrs)
Unit Name: Automation Tools
A. PLC- Architecture, Justification for use of PLC, Communication networking of PLC,
Ladder programming. HMI- Functions, alarming modes, type of display-graphic, trend,
group, detail. DCCS-advantages of decentralized control system, architecture, hierarchy,
SCADA- Architecture, functions of key elements of SCADA, applications.
B. Intelligent sensors in industrial and process automation, MEMS. Communication
networking protocols in automation.
Unit III (10+1 Hrs)
Unit Name: Controller Principles
A. Control system parameters, on-off, two position, and multi-position controllers,
Proportional, Derivative, and Integral controllers, PI, PD, PID controllers, analog
representation of composite controller, Stability concepts, Controller tuning, Controller
configurations, Fuzzy controller in control applications- concepts, membership
functions, fuzzy inference, defuzzfication methods, Fuzzy controller in automation.
B. Interacting and non-interacting PID controller.
EC 42109:: ELECTRONIC AUTOMATION
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
152
Unit IV (8+1 Hrs)
Unit Name: Digital Controllers
A. Introduction of digital controllers, Models of A/D and D/A converters, Types of
digital controller- recursive, non-recursive, Realization of digital PID controller- digital
temperature control system, non-interacting velocity algorithm, digital position control
system.
B. Study of Model based controller, adaptive controller
Unit V (8+1 Hrs)
Unit Name: Automation Applications
A. Building automation system- Building management system, HVAC control, wireless
networking, Building control network. Railway signaling- Detection of trains, need of
signaling, release of locking, Implementation of railway signaling, PES in railway
signaling. High speed rail signaling system, Automotive Electronics- navigation/driver
guide system, ECU, vehicle communication standards, safety.
B. Networking protocols in BAS and vehicles.
Outcome: Students will be able to
- Design controller for automation application
- Design industrial automation system
Text Books
1. C. D. Johnson - Process Control Instrumentation
2. M. Gopal - Digital Control and state variable methods
Reference Books
1. Ogata - Modern Control Systems
2. Bela Liptak -Handbook of Process Control
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
153
FF No. : 654
Credits: 01 Teaching Scheme: - - Tutorial 1 Hr/Week
List of tutorials:
1. Discontinuous controllers
2. Continuous controllers
3. PLC programming
4. State variables
5. Stability analysis
6. Design of classical controller
7. Design of intelligent controller
EC 42206:: ELECTRONIC AUTOMATION
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
154
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: nil
Objectives: 1. To give overview of Neural network systems and standards across the globe.
2. To create awareness in the current trends and technologies in Neural networks
3. To learn different neural Networks.
Unit_1 Introduction to ANN :- (04Hrs)
PART ( A) History of Neural networks, Neural net architecture, Neural learning, Evaluation of
networks, Implementation.
PART (B)
Applications of neural networks.
Unit_2 Supervised Learning (10Hrs)
PART (A) Perceptions , Linear separability, preceptron training algorithms, modifications,
Support vector machines, Multilevel discrimination, back propagation algorithm.
Adaptive multilayer networks, predication networks, Polynomial Networks.
PART (B)
Radial basis functions, probabilistic networks.
UNIT _3 Unsupervised & Associative Learning (12Hrs)
PART (A) Winner-Takes –All network, Learning vector quantization, counter propagation
networks, Adaptive Resonance theory, Topological Organized networks ,Distance based
learning, Max Net, Competitive Net. Associative non iterative procedures for association,
Hop field networks ,Optimization, Learning using Hopfield networks, Brain state in a
box network.
PART (B)
Principal Component Analysis, Boltzman machines, Hetero-associators
UNIT _4 Evolutionary Optimization :- (08Hrs)
PART (A)
Optimization and search, Evolutionary Computation, Evolutionary Algorithms for
training neural networks, Learning connection weights, Learning architectures.
EC42110:: ARTIFICIAL NEURAL NETWORKS AND FUZZY LOGIC
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
155
PART (B)
Hybrid evolutionary Approaches.
UNIT _5 Fuzzy Logic (06Hrs)
PART (A)
Fuzzy sets and fuzzy rules, Fuzzy relations, Properties of Fuzzy sets, Fuzzy graphs ,
Fuzzy numbers, Functions with Fuzzy arguments, Arithmetic operations on fuzzy
numbers.
PART(B)
Applications of fuzzy logic.
Text books
1. Elements of Artificial Neural Networks - by Kishan Mehrotra, Chilukurik.
Mohan, Sanjay Ranka Penram International Publishing (India) Pvt. Ltd. Second
edition,
2. Fuzzy Logic by John Yen,Reza Langari, Pearson Educations, First edition.
Reference books
1. Neural Network and Fuzzy system by Bart Kosko, John c. Burgess.
2. Fundamental of Artificial Neural Networks. By M.H. Hassoun.
3. Introduction to Artificial Neural Network system by M.Zurada.
4. Relevant IEEE Papers.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
156
FF No. : 654
Credits: 01 Teaching Scheme: - - Tutorial 1 Hr/Week
Objectives:
To give overview of neural network systems and to built neural network systems.
To create awareness in the current trends and technologies in Neural networks
To learn different neural Networks.
To built and test following Neural Networks:
1) Perceptron Neural Network.
2) Hebbin Neural Network.
3) Hamming Neural Network.
4) Hanning Neural Network.
5) McCulloach Pitts Neural Network.
6) Back propagation Neural Network.
7) Max Net Neural Network.
8) Competitive Neural Network.
9) Mini project.
Text books
1. Elements of Artificial Neural Networks - by Kishan Mehrotra, Chilukurik. Mohan,
Sanjay Ranka Penram International Publishing (India) Pvt. Ltd. Second edition,
2. Fuzzy Logic by John Yen,Reza Langari, Pearson Educations, First edition.
Reference books
1. Neural Network and Fuzzy system by Bart Kosko, John c. Burgess.
2. Fundamental of Artificial Neural Networks. By M.H. Hassoun.
3. Introduction to Artificial Neural Network system by M.Zurada.
4. Relevant IEEE Papers.
EC42207:: ARTIFICIAL NEURAL NETWORKS AND FUZZY LOGIC
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
157
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Students having basic knowledge of electronics.
Objectives:
1. To create awareness about the challenging field of Wireless Sensor Networks.
2. To introduce various basic principles of operation of a WSN.
3. To create a research attitude amongst the students.
4. To install network simulator ns-2 & simulate different wireless ad-hoc scenarios.
5. To become aware about the research avenues in WSN.
Unit I (8 + 1 Hrs)
Introduction and WSN Infrastructure
A. Introduction, Sensor Network Concept, WSN constraints and challenges, WSN
applications, WSN development stage – deployment, localization and tracking, data
communication. Design of sensor motes, low power WSN, Clustering, Topology control.
B. WSN applications
Unit II
(8+ 1 Hrs)
Localization and Sensor - Medium Access Control
A. Sensor management and Bayesian networks, Time synchronization, Types of
Localization, Key assumptions, Fundamentals of MAC protocols, Energy conservation
MAC protocols like S-MAC, P-MAC, Z-MAC, T-MAC, L-MAC etc, IEEE 802.15.4
standard.
B. Localization algorithms
Unit III (8+1 Hrs)
Routing protocols for WSN and Network simulators
A. Delaunay triangulation, Prim’s algorithm, Euclidean minimum spanning tree, DSR
algorithm, Network simulators – Introduction to TinyOS, Nes C, TOSSIM, NS-2.
EC 42111 :: WIRELESS SENSOR NETWORKS
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
158
B. Simulations in ns-2
Unit IV (8+1 Hrs)
Security Issues
A. Attacks in WSN, Wormhole attack, DOS attack, Sybil attack, Methods for increasing
immunity to attacks, Effect of attacks on QoS
B. Comparison study of the various in WSN, Countermeasures to sustain the attacks.
Unit V (8+1 Hrs)
Performance and traffic management in WSN
A. Performance modeling – Traffic model, Energy model etc, Computation of WSN
system life span. Critical analysis of IEEE papers on ad-hoc wireless sensor networks.
B. Modification of energy models to suit the various operating environments of WSN.
Text Books
1. “Wireless Sensor Networks – Technology, Protocols & Applications”, Kazem
Sohraby, Daniel Minoli, Taieb Znati, Wiley Publication.
2. “Wireless Sensor Networks- An Information Processing Approach”, Feng Zhao,
Leonidas Guibas. Elsevier.
Reference Books
1. IEEE papers on MAC protocols.
2. IEEE papers on Attacks in WSN.
3. “Getting started with ns-2” http://nsnam.isi.edu
4. “NS by example” http://nile.wpi.edu/NS/menu.html
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
159
FF No. : 654
EC 42208 ::WIRELESS SENSOR NETWORKS
Credits: 01 Teaching Scheme: - - Tutorial 1 Hr/Week
Prerequisites: Students having basic knowledge of electronics.
Objectives:
1. To create awareness about the challenging field of Wireless Sensor Networks.
2. To introduce various basic principles of operation of a WSN.
3. To create a research attitude amongst the students.
4. To install network simulator ns-2 & simulate different wireless ad-hoc scenarios.
5. To become aware about the research avenues in WSN.
List of Contents
1. Installation of Linux Ubuntu.
2. Installation of Linux Ubuntu.
3. Installation of ns-2 network simulator.
4. Installation of ns-2 network simulator.
5. Simulation of 2-node topology.
6. Simulation of 2-node topology.
7. To generate a trace file & study its contents.
8. To generate a trace file & study its contents.
9. To create output files for XGraph.
10. To create output files for XGraph.
11. To generate node movement and traffic connection files for large wireless
scenarios.
12. To generate node movement and traffic connection files for large wireless
scenarios.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
160
List of Elective 4
Sr. No. Subject Name Subject Code
01 Audio Video Engineering EC42112
02 Advanced Power Electronics EC42113
03 Biomedical Electronics EC42114
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
161
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Communication Engineering & Digital Communication.
Objectives:
To study
Concepts of Color Television (CTV) Transmitter and Receiver.
Working Principle of Digital Television (DTV) and High Definition Television
(HDTV).
Compression Techniques.
Direct to Home (DTH) Receiver, Digital Video Disc (DVD) player, Digital
Satellite Radio (DSR).
Unit I (6+1Hrs)
Unit Name : Basics of Television
A) Scanning process, Composite Video Signal, Horizontal Blank and Sync standard,
Vertical Blank and Sync standard, Vestigial Sideband Transmission, TV Channels and
Bands, CCIR-B standards, Negative modulation, Inter-carrier Sound System.
B) Construction & working principle of CCD camera.
(Self Study Part of Individual Unit) Unit II (7+1Hrs)
Unit Name : TV Transmission and Reception
A) High Level modulated TV Transmitter , IF modulated TV Transmitter, Transmitting
Antenna, Receiving Yagi Antenna, Block Diagram of Monochrome Receiver, Pattern
Generator, Wobbuloscope .
B) Basic satellite theory ( Transponder), Cathode Ray Tube.
Unit III (9+1 Hrs)
Unit Name : Color TV Systems
A) Color fundamentals, Mixing of colors, Color perception, Color Characteristics,
Chromaticity diagram, Color TV camera, Frequency Interleaving Principle, Color
Bandwidth, Chroma Signal Generation, Color Burst, Simple PAL & PAL-D System,
PAL Encoder, PAL Decoder, CTV Receiver Block Diagram, Monochrome and Color
Picture Tubes, NTSC, PAL, SECAM systems.
EC42112:: AUDIO VIDEO ENGINEERING
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
162
B) Chromaticity diagram, SAW filter.
Unit IV (9+1 Hrs)
Unit Name : Digital Television
A) Merits of DTV, Digitization formats, Source Coding : Compression of Video Signal
(JPEG&MPEG), Scrambling and Conditional Access, Channel Coding, Modulation by
Digital Signal, Reception of Digital TV Signal, Digital TV Receiver block diagram,
LCD and Plasma Displays, Types of digital TV ( SDTV, EDTV, HDTV), DTH system.
B) Closed Circuit Television (CCTV), Cable Television (CATV).
Unit V (9+1 Hrs)
Unit Name : Recording And Reproduction
A) A. Principle of MPEG Audio compression, MPEG audio layer III ( MPIII format),
MPEG-1 audio encoder & decoder, Methods of Recording and Reproduction : Magnetic
Recording, Optical Recording, CD/DVD/MP3 Player, Digital Satellite Radio.
B) Construction & working principle of camcorder.
Text Books
1. R.R.Gulathi, “Monochrome & color television”, New Age International.
2. Herve Benoit, “Digital Television”, Focal Press.
Reference Books
1. Bernard Grobb & Charles E., “Basic TV and Video Systems”, McGraw Hill.
2. Ranjan Parekh, “ Principles of multimedia”, Tata Mc-GrawHill
3. R.G. Gupta, “Audio Video Systems”, Technical Education.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
163
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Basics of Power devices, Basics of Power Conversion systems,
Basics of AC/DC Motors, Fourier series for analytical approach
Objectives:
To explain the necessity of power factor improvement & techniques.
To study the use of converters & inverters for speed control of motors.
To study harmonic control techniques in power conversion.
To discuss various measurement techniques in power electronics.
Unit I (8+1 Hrs)
3 Phase AC/DC Converters
A. Operation and Analysis of 3 phase Semi/ Full Converter with R and R-L load, Effect
of Source Impedance(Ls) on Single phase converter, Single phase and Three Phase Dual
Converters (Ideal and Practical), Control schemes for non circulating type dual converter,
Analysis of circulating current type dual converter.
B. Calculation of converter output with Ls, Microprocessor based firing scheme for dual
Converter converter.
converter.
Unit II (8+1 Hrs)
3 Phase Inverters
A. 3 Phase Transistorized Voltage Source Inverter(VSI)- 120° and 180° mode of
operation and analysis, PWM Inverters- Techniques and comparison, Voltage Control
and Harmonic Reduction in inverters, Introduction to Current Source Inverter.
B. Space Vector Modulation, Multilevel inverters
Unit III (8+1 Hrs)
PF Improvement and Instrumentation
A. Series and Parallel Operation of Power Devices- String Efficiency, Derating,
Triggering requirements, Need of equalizing Network.
Power Factor Improvement Techniques-PAC, Forced Commutation (SAC, EAC),
Sequence Control of Series Connected Converters.
Sensing and measurement of Sinusoidal and non-sinusoidal Voltage and Current, Speed,
Power Factor etc.
EC42113:: ADVANCED POWER ELECTRONICS
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
164
B. Protection and Cooling of power switching devices
Unit IV (8+1 Hrs)
DC Motor Drives
A. Motor Performance Parameters, 1phase and 3phase converter drives for separately-
excited and series DC motors for continuous and discontinuous operation, Braking
techniques for DC and AC (IM) motors.
B. Suitability/ Selection of a drive based on process requirements (Matching of load,
Motor, and converter), Brushless dc motor and drive.
Unit V (8+1 Hrs)
AC Motor Drives and Power Quality
A. Motor Performance, Speed Control techniques of 1ph/3ph Induction Motor (Stator
Voltage, Frequency, V/F, Rotor resistance), Protection Circuit for AC/DC Motor drives-
Over/Under voltage and current, Phase failure, Field failure, soft start-stop, Effect of non-
sinusoidal supply on motor performance.
Power Quality- Types of Power line disturbances, Sources and Measurement of power
line disturbances, Preventive Techniques.
B. Slip Power Recovery control of Induction motors, Energy Audit
Text Books
1. M D Singh & Khanchandani,“Power Electronics”, Tata McGraw Hill, IInd
edition
2. M. H. Rashid, “Power Electronics”, 3 edition, Pearson Education, 2004
Reference Books
1. Mohan, Undeland & Robbins, “Power Electronics”, 3 edition, John Wiley, 2003
2. Dubey, Doralda, Joshi & Sinha, “Thyristorised Power Controllers”, New Age
International, 1986
3. P. C. Sen, “Thyristor DC Drives“, John Wiley, 1981
4. B. K. Bose, “Modern Power Electronics & AC Drives”, Pearson Education, 2002
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
165
FF No. : 654
Credits: 03 Teaching Scheme: - Theory 3 Hrs/Week
Prerequisites: Nil
Objectives:
To understand basics of Biomedical Instrumentation
To study and understand ECG,EEG,AMG
To study and understand Laboratory equipments
To study and understand Radiology equipments
Unit I (9+1 Hrs)
Introduction to Biomedical System
A. Introduction to Biomedical System, Man Machine Interface, Bio-electric Signals,
Types of Electrodes, Electrodes for ECG, EMG, EEG, Cardiovascular System, Heart
Anatomy, ECG Amplifiers, ECG Machine. Electrocardiography.
B. Transducers and sensors related to biomedical measurements, Fiber Optic sensor for
temp.
Unit II (9+1 Hrs)
Cardiography
A. Heart Rate, Heart Sound, Blood pressure and Blood Flow Measurements.
Phonocardiography, Echocardiography, Vector Cardiography, Stress Testing System,
Beside Monitors, Central Monitoring System, Pacemakers, Defibrillators.
B. Grounding and Shielding, Patient Safety.
Unit III (7+1 Hrs)
Laboratory Equipments
EC 42114 :: BIOMEDICAL ELECTRONICS
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
166
A. Basic working principle use calibration and maintenance of - Colorimeter,
Spectrophotometer, Flame photometer, PH/Blood Gas Analyzer, Pulse Oximeter,
Hemodialysis, Blood Cell Counter.
Standards, IEEE 802 standards, Channel Access Methods, Aloha, CSMA, CSMA/CD,
Token Passing, Ethernet, Fast Ethernet and Gigabit Ethernet,, LAN Standards, IEEE 802
standards, Channel Access Methods, Aloha, CSMA, CSMA/CD, Token Passing,
Ethernet, Fast Ethernet and Gigabit Ethernet
B. Autoanlyzer
Unit IV (8+1 Hrs)
Nervous System
A. Nervous system Anatomy, Human Brain Recording of EEG Signal, EEG Amplifier,
Electroencephalography, Electromyography.
B. Analysis of Diseases using EEG and EMG signals.
Unit V (7+1 Hrs)
Radiology equipments
A. Diagnostic Medical instruments: X – ray, CT scan, MRI, Ultrasonic Doppler Machine,
Lasers in Medicine.
B. Use of Laser in Vision Correction, Dermatological.
Text Books
1. Cromwell, “Biomedical Instrumentation and Measurement”, PHI.
2. Carr and Brown, “Biomedical Instrumentation”.
Reference Books
1. R. S. Khandpur, “handbook Biomedical Instrumentation”, by Tata MaGraw Hill
2. Webster, “Application and Design of Medical Instruments".
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
167
FF No. : 654
Credits: 02 Teaching Scheme: - Practical 2 Hrs/Week
List of Practicals
Expt
No.
Experiment
01 Interfacing LED to LPC2294
02 Interfacing Seven Segment to LPC2294
03 Interfacing 4X4 Matrix Keyboard to LPC2294
04 Interfacing 2X16 LCD in 4bit Mode to 2294
05 LPC 2294 Serial Communication
06 LPC 2294 ADC
07 Power Down Mode of LPC2294
08 Interfacing LCD and Keyboard to LPC2294 with RTOS
09 Task scheduling with priority using RTOS functions
10 Implementation of semaphore for given task switching using RTOS
Subject Code EC41301 :: Embedded Systems
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
168
FF No. : 654
Credits: 01 Teaching Scheme: - Laboratory 2 Hr/Week
Prerequisites: Communication Engineering & Digital Communication.
Objectives:
To Study
Equipment like Pattern Generator, Wobbuloscope which can be used for Color TV
servicing
To study different sections in Color TV receiver
To study TV transmitter, TV studio, DTV, HDTV, DTH, DVD player and DSR
block schematics
List:
1. Study of Video signal generation.
2. VIF amplifier response using Wobbuloscope
3. Voltage and Waveform Analysis of Color TV.
4. Video amplifier response testing
5. Sync separator
6. Video Compressing Technique.
7. Design of an Yagi antenna
8. Color spaces
9. Remote control circuit
10. Public address system
11. TV connectors
12. Video bandwidth calculation
13. Concept of IF & its choice
14. Design of a video detector
15. Horizontal output stage
16. Trouble shooting in a TV receiver
EC42304:: AUDIO VIDEO ENGINEERING
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
169
FF No. : 654
Credits: 01 Teaching Scheme: - - Laboratory 2 Hr/Week
Prerequisites: Basics of Power devices, Basics of Power Conversion systems,
Basics of AC/DC Motors, Fourier series for analytical approach
Objectives:
To verify operations of power converter systems for different types of loads
To gain hands on experience on different AC / DC motor drives & it’s protection
Systems
Use of simulation software for analysis of power systems.
List of Practicals
1. Study of 3 Φ VSI (180º or 120º)
2. Study of Chopper fed / Converter fed DC Drive.
3. Study of Stator Voltage Control of IM Drive
4. Power factor improvement technique (SAC or EAC or PWM)
5. Study of VVVF 3 phase IM Drive.
6. Sensing and Protection circuits for AC and DC Drives
7. Simulations of 3 phase LCC (HCB or FCB or dual Converter).
8. Simulation of 3 phase VSI (180º or 120º) / Simulation of DC/AC drive.
9. Design and development of one power electronic control circuit.
Text Books
1 M D Singh & Khanchandani,“Power Electronics”, Tata McGraw Hill, IInd
edition
2 M. H. Rashid, “Power Electronics”, 3 edition, Pearson Education, 2004
Reference Books
1 Mohan, Undeland & Robbins, “Power Electronics”, 3 edition, John Wiley, 2003
2 Dubey, Doralda, Joshi & Sinha, “Thyristorised Power Controllers”, New Age
International, 1986
3 P. C. Sen, “Thyristor DC Drives“, John Wiley, 1981
4 B. K. Bose, “Modern Power Electronics & AC Drives”, Pearson Education, 2002
EC42305 : ADVANCED POWER ELECTRONICS
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
170
FF No. : 654
EC42306 :: BIOMEDICAL ELECTROINCS
Credits: 01 Teaching Scheme: - Laboratory 2 Hr/Week
Prerequisites: : Nil
Objectives:
To study and understand ECG,EEG,AMG Machine and signals
To study and understand Laboratory equipments
To study and understand Radiology equipments
To study and understand Equipments used in ICU/ICCU.
List of Contents
List of Practicals:
1. Recording and interpretation of ECG.
2. To Study Phonocardiography
3. To measure Blood Pressure using Sphygmomanometer.
4. Study of defibrillators
5. Study of EEG/EMG Machine.
6. Study of Bedside Monitor (ICU Monitor).
7. Study of Clinical Lab Instrumentation - COLORIMETER.
List of mini projects:
1. To design a Clinical Thermometer.
2. To design and record/monitor heart sounds using Electronic Stethoscope
3. To design Heart rate Meter.
Text Books
1. Cromwell, “Biomedical Instrumentation and Measurement”, PHI.
2. Carr and Brown, “Biomedical Instrumentation”.
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
171
Project and Seminar
Subject
No/
Sem
Subject Name Subject Code Teaching Scheme (Hrs. per week) Credits
Lecture Tutorial Practical
PS2
BE I
Project Stage-II EC47301 0 0 2 4
PS3
BE II
Project Stage-III EC47302 0 0 2 6
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
172
FF No. : 654
Credits: 4 Teaching Scheme: - Lab 2 Hrs/Week
Prerequisites: Knowledge of Basic engineering subjects.
Objectives:
To support students’ learning and engagement with principles of undergraduate
education.
To apply and enhance the knowledge acquired in the related field.
Guidelines for students
1. Group should maintain a logbook of activities throughout the project
stages. It should have entries related to the work done, problems faced,
solutions evolved, etc., duly signed by internal and external guides.
2. Regular discussions should be carried out with project guide. Students
should refer Journal and transactions to keep themselves updated with the
cutting edge technology evolving in the respective area.
3. Project progress review report must be submitted in the prescribed format
only. No variation in the format will be accepted.
Subject Code :EC 47301: Subject Name : Project (Stage II)
BRACT’S
Vishwakarma Institute of Technology, Pune – 411 037
Department of Electronics Engineering
Structure & Syllabus of B.E (Electronics and E&TC) Program – Pattern ‘A11/B11’, Rev01, dt.
2/4/2011
173
FF No. : 654
Credits: 6 Teaching Scheme: - Lab 2 Hrs/Week
Prerequisites: Knowledge of Basic engineering subjects.
Objectives:
To select and work on real life application in the field of Electronics and
Telecommunication.
To support students’ learning and engagement with principles of undergraduate
education.
To apply and enhance the knowledge acquired in the related field.
Guidelines for students
1. Group should maintain a logbook of activities throughout the project
stages. It should have entries related to the work done, problems faced,
solutions evolved, etc., duly signed by internal and external guides.
2. Students are encouraged to participate various activities like project
competitions, Paper presentations, publications, Intellectual property -
patent registration or other suitable activities suggested by guide.
3. Regular discussions should be carried out with project guide. Students
should refer Journal and transactions to keep themselves updated with the
cutting edge technology evolving in the respective area.
4. Final project report must be submitted in the prescribed format only. No
variation in the format will be accepted. One guide will be assigned
maximum three project groups.
Subject Code :EC 47302: Subject Name : Project (Stage III)