department of electronics and communication sem be scheme.../edition 1 simon haykin and barry van...
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SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
DEPARTMENT OF ELECTRONICS AND COMMUNICATION
Vision
Mould quality technocrats in the field of Electronics and Communication with human values to cater the societal needs
Mission
• To impart high-quality academic environment.
• To provide training in new tools and technologies.
• To facilitate continuous learning and research environment.
• To inculcate professionalism with ethical values, with little impact on environment.
Program Educational Objectives
• PEO-1: Proficient to apply the knowledge gained in mathematics, science and
engineering to the field of electronics and communication engineering for the
synthesis and analysis of systems
• PEO-2: Competent to pursue higher studies and research, with effective
communication
• PEO-3: Aware of new technologies in the domain field, apply the same for the societal
requirement minimizing the impact on environment and ethical practices in their
domain
Program Outcomes
Engineering Graduates will be able to:
• Engineering knowledge: Apply the knowledge of mathematics, science, engineering
fundamentals, and an engineering specialization to the solution of complex
engineering problems.
• Problem analysis: Identify, formulate, review research literature, and analyze
complex engineering problems reaching substantiated conclusions using first
principles of mathematics, natural sciences, and engineering sciences.
• Design/development of solutions: Design solutions for complex engineering
problems and design system components or processes that meet the specified needs
with appropriate consideration for the public health and safety, and the cultural,
societal, and environmental considerations.
• Conduct investigations of complex problems: Use research-based knowledge and
research methods including design of experiments, analysis and interpretation of
data, and synthesis of the information to provide valid conclusions.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
• Modern tool usage: Create, select, and apply appropriate techniques, resources, and
modern engineering and IT tools including prediction and modeling to complex
engineering activities with an understanding of the limitations.
• The engineer and society: Apply reasoning informed by the contextual knowledge to
assess societal, health, safety, legal and cultural issues and the consequent
responsibilities relevant to the professional engineering practice.
• Environment and sustainability: Understand the impact of the professional
engineering solutions in societal and environmental contexts, and demonstrate the
knowledge of, and need for sustainable development.
• Ethics: Apply ethical principles and commit to professional ethics and
responsibilities and norms of the engineering practice.
• Individual and team work: Function effectively as an individual, and as a member
or leader in diverse teams, and in multidisciplinary settings.
• Communication: Communicate effectively on complex engineering activities with the
engineering community and with society at large, such as, being able to comprehend
and write effective reports and design documentation, make effective presentations,
and give and receive clear instructions.
• Project management and finance: Demonstrate knowledge and understanding of
the engineering and management principles and apply these to one's own work, as a
member and leader in a team, to manage projects and in multidisciplinary
environments.
• Life-long learning: Recognize the need for, and have the preparation and ability to
engage in independent and life-long learning in the broadest context of technological
change.
Program Specific Outcomes (PSOs)
• The ability to identify, analyse and design systems related to modern engineering
hardware and software tools, in Electronics and Communication Engineering in the
areas of electronics, communication, image processing, VLSI, signal processing and
embedded systems for solving day to day problems.
• Impat the awareness about the impact of professional engineering solutions in
societal and environmental context, professional ethics and be able to communicate
effectively.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY, TUMAKURU (A Constituent College of Sri Siddhartha Academy of Higher Education, Tumakuru)
SCHEME OF TEACHING AND EXAMINATION – 2018
Choice Based Credit System (CBCS) (Effective from the academic year 2018-19)
DEPARTMENT OF ELECTRONICS AND COMMUNICATION – III Semester
Academic Year 2020-21
III Semester B.E. (Common to EC/TC/ML) (Subjects and Syllabus as per AICTE-Model Curriculum for UG Course in Engg. & Tech.- Jan. 2018)
Teaching Hours/week Examination
SI
No
.
Course and
Course Code
Course Title Teaching
dept.
Board
of
Exam.
L
T P C Duratio
n in
Hrs.
CIE SEE Total
Marks
01 BS 18MA30
1
Integral Transforms and
Numerical Techniques
MA MA 4 0 - 4 3 50 50 100
02 PC 18ECI30
2
Signals and Systems EC EC 3 - 2 4 3 50 50 100
03 PC 18EC303 Network Theory EC EC 4 - - 4 3 50 50 100
04 PC 18EC304 Analog Electronic Circuits EC EC 3 1 - 4 3 50 50 100
05 PC 18EC305 Digital Electronic Circuits EC EC 3 - - 3 3 50 50 100
06 ES/
MA
18EC306/
18DIP30
6
Electronic Instrumentation
Fundamental of Mathematics (For Lateral Entry Students)
EC/MA EC/MA 3 - - 3 3 50 50 100
07 PC 18EC307 Analog Electronics Circuits
Lab
EC EC - - 2 1 3 50 50 100
08 PC 18EC308 Digital Electronics Circuits
Lab
EC EC - - 2 1 3 50 50 100
09 HS 18SK301 Skill Development-I HS HS - - 2 1 3 50 50 100
Total 19 02 08 25 27 450 450 900
L-Lecture, T-Tutorial, P-Practical, C-Credits, CIE-Continuous Internal Evaluation, SEE-Semester End Examination
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
COURSE ASSESSMENT METHODS (THEORY)
CIE SEE
TESTS 20
50 MID. TERM EXAM 20 50
ASSIGNMENT/QUIZ
/SURPRISE TEST
10
COURSE ASSESSMENT METHODS (PRACTICAL)
CIE SEE
TESTS 20
50 DEMONSTRATION/
DOCUMENTATION
30 50
SIGNALS AND SYSTEMS (18ECI302)
COURSE ASSESSMENT METHOD
CIE SEE
MID. TERM EXAM 20 50 50
PRACTICAL 30
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Syllabus for the Academic Year – 2020 - 2021
Department: Mathematics Semester: III Subject Name: Integral Transforms and Numerical Techniques
Subject Code: 18MA301 L-T-P-C: 4-0-0-4
(52 Hours)
Course Objectives:
UNIT Description Hours
I
Laplace Transforms: Definition, Laplace transforms of elementary
functions and problems, periodic functions, unit step functions -problems.
Inverse Laplace transforms: Inverse Laplace transforms, problems. Solution of linear differential equations by Laplace transforms method.
10
II
Fourier Series: Periodic functions, Dirichlet’s conditions. Fourier series of
periodic functions with period 2 and with arbitrary period .2l Fourier series
of even and odd functions. Half range Fourier series. Practical harmonic
analysis. Applications- frequency spectrum and examples from engineering
field.
10
III
Fourier Transforms : Infinite Fourier transforms. Fourier Sine and Cosine
transforms. Inverse Fourier transforms, and simple problems.
Z-Transforms: Difference equations, basic definitions, Z-transform-
definition, Standard Z-transforms, Damping rule, Shifting rule, Initial value
and Final value theorems(without proofs) and problems, Inverse Z-transform, Simple problems. Applications-solutions of difference equations using Z-
transforms.
10
IV
Numerical solution of ordinary differential equations of first order and
first degree: Taylor’s series method, Modified Euler’s method, Runge- Kutta
method of fourth order, Milne’s and Adams-Bashforth Predictor and Corrector methods (No derivation of formulae).
11
V
Numerical solution of second order ODE: Runge- Kutta method and Milne’s Predictor and Corrector method (No derivation of formulae).
Numerical Integration: Trapezoidal rule, Simpson’s thrd 83,31 rule,
Weddle’s rule, , Newton-cotes integration; Romberg integration (without
proof)-problems.
11
No. Description
1 Introduce the concept of Laplace Transform and problems on periodic function.
2 Introduce the concept of solving Linear Differential Equations by the method of
Laplace Transform.
3 Represent a periodic function as a Fourier Series and Compute the
Fourier coefficients numerically.
4 To develop the proficiency in Numerical techniques and solving Ordinary
Differential Equations arising in engineering applications.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Text Books:
Sl No
Author Text Book title Publisher ISBN Year/ Edition
1 B.S.Grewal Higher Engineering
Mathematics
Khanna
Publications
9788174091956 43rd
Edition
2 E.Kreyszig Advanced
Engineering
Mathematics
JonWiley&Sons 9780470913611 10th
Edition
Reference Books:
Sl No
Authors Text Book title Publisher ISBN Year /Edition
1 N.P.Bali and
Manish Goyal
A text book of
Engineering
Mathematics
Lakshmi
Publishers
9788131808030 7th Edition
2 B.V.Ramana Higher Engineering
Mathematics
TataMcGraw-
Hill,
9780070634190 1st Edition,
3 H.K.Das and
Er. RajnishVerma
Higher Engineering
Mathematics
Chand
publishing,
9788121938907 1st Edition
Course Outcomes:
No. Description
CO1 Understand the basic concepts of Fourier series and Integral transforms.
CO2
Apply Laplace transform and inverse Laplace transform in solving differential
equation and integral equation arising in network analysis, control system and
others fields of engineering.
CO3
Demonstrate Fourier series and Integral transforms to study behaviour of
periodic functions, discrete/continuous functions arising in single and system,
field theory and system communication
CO4 Analyze and apply single step and multistep numerical methods in engineering
problems.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Syllabus for the Academic Year – 2020 - 2021
Department: ECE Semester: III Subject Name: Signals and Systems
Subject Code: 18ECI302 L-T-P-C: 3-0-2-4
(39 Hours)
Course Objectives:
UNIT Description Hours
I
Introduction and Classification of signals:
Definition of signal and system, Classification of signals, Basic Operations on
signals, Elementary signals, Systems viewed as Interconnections of
operations, Properties of systems. (Section 1.1 to 1.8)
8
II
Time Domain Representations of LTI Systems:
Introduction, Convolution Sum and Convolution Integral, Interconnections of
LTI system, Differential and difference equation Representations and its solution, Block diagram representations. (Section 2.1 to2.6, 2.9 to 2.10, 2.12)
8
III
Fourier Representations of Aperiodic Signals:
Introduction, Fourier representation of Continuous time signals (FT), Fourier representation of Discrete time signals (DTFT), Properties and Significance of
FT and DTFT.(Section 3.1 to 3.3, 3.6 to 3.18)
7
IV
Applications of Fourier Transform Representations: Introduction, Frequency Response of LTI systems, Fourier Transform
Representation for discrete time signals, Sampling. Reconstruction of
continuous time signals from the samples. (Section 4.1 to 4.6)
8
V
Z-Transform and its applications: Introduction, Z-transform, properties of ROC, Properties of Z-transforms,
Inverse of Z-transforms. Transform function, causality and stability.
Computational structures for implementing discrete time systems, Unilateral
Z-transform and its application to solve difference equations.
(Section7.1to7.6, 7.9 to7.10)
8
No. Description
1 Knowledge about basic signal and system modeling concept and definitions
2 Learn about representations of Linear Time Invariant system using Differential and
Difference equations
3 Knowledge about the application and use of mathematical transforms to solve
electrical engineering problems
4 To study the modern computation software tool for the analysis of electrical
engineering problems
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Text Books:
Sl
No
Author Text Book title Publisher ISBN Year
/Edition
1 Simon Haykin and Barry Van
Veen,
Signals and Systems
Wiley India Edition. 13 978-81-265-1257-
7
2nd Edition,
2007
(Reprint),
Reference Books:
Sl No
Author Text Book title Publisher Volume / Issue
Year /Edition
1 Michael
Roberts,
Fundamentals of
Signals & Systems
Tata McGraw-
Hill,
6
2nd edition
2010
2 Alan V
Oppenheim,
Alan S, Willsky
and A Hamid Nawab
Signals and Systems PHI 4 1997,
Indian
reprint
2002
3 B. P. Lathi,
2005.
“Linear Systems and
Signals”,
Oxford
University Press,
2 2005
4 Ganesh Rao
and
SatishTunga
Signals and Systems Pearson
Technical
Publishers,
10 2004
Course Outcomes:
No. Description
CO1 Student understand continuous-time signals and discrete-time signals (L1)
CO2 Student understand linear time-invariant systems theory and applications (L2)
CO3
Student can sketch the magnitude and phase of signals in transform domains
(L3)
CO4 Student learn how to use the mathematical analysis toll called MATLAB (L3)
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Syllabus for the Academic Year – 2020 – 2021
Department: ECE Semester: III Subject Name: NETWORK THEORY
Subject Code: 18EC303 L-T-P-C: 4-0-0-4
(52 Hours)
Course Objectives:
UNIT Description Hours
I
FUNDAMENTAL CONCEPTS OF NETWORKS AND METHODS OF
ANALYSIS: Introduction to Voltage and current sources, Kirchhoff’s Laws, source
Transformation and shifting, Node Variable Analysis, Loop Variable
Analysis.
(Text1: 3.1 to 3.6.Text2: 3.1 to 3.8)
12
II
NETWORK THEOREMS :
Introduction for the requirements of network theorems, Thevenin’s theorem, Norton’s theorem, Superposition theorem, Reciprocity theorem, Maximum
power transfer and Millman’s Theorems, synthesis of Thevenin's and Nortan’s
theorems.
( Text2: 5.1 to 5.4, Text1:9.4, 9.5)
10
III
NETWORK TOPOLOGY AND RESONANCE IN CIRCUITS:
Introduction, Graph of a network, Concept of tree and links, Incidence matrix, tie-set and cut set schedules, Duality, Series resonance, Parallel
resonance ( Q factor, bandwidth ).
(Text2: 16 to 16.4)
10
IV
LAPLACE TRANSFORMATION AND WAVEFORM SYNTHESIS:
Introduction to initial conditions of simple networks, Definition of Laplace
transform, Laplace transforms of simple time functions, Inverse Laplace transform, Basic theorems for the Laplace Transform, Initial value and final
value theorem. Wave form synthesis of periodic & non periodic signals.
(Text1: 8.1 to 8.4,Text2: 14.4 to 14.7)
10
V
TWO PORT NETWORK:
Introduction to single & two port Networks, Relationship between Two-port
variables, open circuit impedance parameters, Short circuit admittance
parameters, Hybrid parameters and Transmission parameters, Relationships between parameter sets.
(Text1:11 to 11.6)
10
No. Description
1 Study the Basic Laws of electric circuits and Network Theorems.
2 Learn the network reduction techniques and Laplace transforms.
3 Understand the network topology concept for solving network parameters
4 Study the two port network parameters.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Text Books
Sl No Author Text Book
title
Publisher ISBN Edition/ Year
1 M. E. Van Valkenburg
Network Analysis
Prentice-Hall 978-81-203-0156-6
Third edition, 2007
2 Hayt,
Kemmerly
and Durbin
Engineering
Circuit
Analysis
TMH 13-978-007-
1122276
6th Edition,
2002
Reference Books:
Sl No Author Text Book title
Publisher ISBN Edition / Year
1 Roy
Choudhury
Networks
and
systems
New Age
International
Publications
13:9788122427
677
2nd edition, 2006
2 Franklin
F. Kuo
Network Analysis
and
Synthesis
Wiley 10:
978812651001
6
Second edition (2006)
3 Ravish R
singh
Electrical
Networks
McGraw Hill 978-0-07-
026096-2
Tenth reprint 2013
4 Smarajit
Ghosh
Network
Theory Analysis
and
Synthesis
PHI Learning
Pvt. Ltd 978-81-203-2638-5
Sixth printing, June
2010.
Course Outcomes:
No. Description
CO1 Illustrate basic laws and network reduction techniques for determining
current and voltages of a given network/circuit.(L2)
CO2 Summarize the network topology and resonance parameters.(L2)
CO3 Apply Laplace transform for Periodic and non Periodic waveforms.(L3)
CO4 Analyze Network theorems and two Port Networks for solving circuit
parameters.(L4)
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Syllabus for the Academic Year – 2020 – 2021
Department: ECE Semester: III Subject Name: Analog Electronic Circuits
Subject Code: 18EC304 L-T-P-C: 3-1-0-4
(52 Hours)
Course Objectives :
No. Description
1 Modeling, designing of rectifier, clipping and clamping circuits using diodes.
2 Working and design of Transistor &MOSFET as amplifiers in small signal
applications .
3 Working and design of Transistor &MOSFET as amplifiers in large signal applications
4 Applications of Op-amp as well as 555 Timer.
UNIT Description Hours
I
Diode Circuits and Transistor: Introduction, Diode Circuits: Ideal diode, V-I Characteristics, Terminal
characteristics of junction diodes, Full wave rectifier with C Filter, Zener
Diode, Zener diode as a Regulator Clippers.Transistor: Device structure and
physical operation (Transistor current components), The Common-Emitter
characteristics.Transistor Biasing- Transistor as an amplifier, Voltage Divider
Biasing, RC coupled Amplifier. (Text1. 2.1.1, to 2.2.3, 2.4.1, 2.4.2, 2.5.2, 2.6.1., 3.1.1, 3.2.4, 3.3.1, 3.5.1,
3.7.3)
10
II
MOS Field-Effect Transistor (MOSFETs)
Introduction, Device Structure & Physical Operation: Device structure,
Operation, Derivation of iD -VDS Relationship, Symbol, iD –VDS characteristics,
Operation as a switch, Operation as a Linear Amplifier, Small-Signal Operation and Models and MOSFET Amplifiers: MOSFETs- Small Signal
Analysis, Trans-conductance gm, The T-equivalent Circuit model. Common
Source Amplifier, Common Source Amplifier with Source Resistance, Common
Drain Amplifier.(Text 1 :4.1.1to 4.1.6, 4.2.1,to 4.6.7, 4.7.3, 4.7.4, 4.7.6)
10
III
Feedback and Differential Amplifiers Introduction, Feedback Amplifiers: General feedback structure, Properties of
Negative feedback. Concept of Positive Feedback, LC Oscillators and Crystal
Oscillator (Qualitative)
MOS Differential Pair: Operation with a Common-Mode Input Voltage and
Differential Input voltage. Small-Signal Operation of the MOS Differential Pair:
Differential Gain and Common Mode Rejection Ration (CMRR). Power
Amplifiers: Class A and Class B Push-pull amplifier.
(Text1: 7.1, 7.2, 8.1.1, 8.1.2,8.2.1, 8.2.2, 12.1 to 12.4)
10
IV
Operational Amplifiers Introduction, Operational Amplifier Fundamentals: Basic Op- Amp circuit,
operational amplifier parameters, Input and output voltage, common mode
and supply rejection, offset voltages and currents, Input and output
impedances, Slew rate and Frequency limitations. OP-Amps as DC Amplifiers
10
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Text Books :
Sl
No
Author Text Book title Publisher ISBN Year /
Edition
1 Adel s. Sedra kenneth c.
Smith,
Microelectronic Circuits, Theory and
Applications
Oxford. 9780-198-08-
9131 5th Edition
2 David A Bell Operational Amplifiers
and Linear ICs
Oxford 978-019-569-
6134
Second
Edition,
Reference Books:
Sl No
Author Text Book title Publisher ISBN Year /Edition
1 BEHZAD
RAZAVI, ,.
Fundamentals of
Microelectronics,
Wiley, 2006 978-812-
652-3078
2nd Edition
2 Ramakanth A
Gayakawad
Op-Amp and linear
integrated circuits
Pearson 978-933-
254-9913
3rd Edition
3 Boyelstad and
Nashelsky
Fundamentals of
electronic Circuits
Theory
Pearson 55860-
735-8
3rd Edition
4 Donald A Neamen
Electronic Circuits Analysis and Design
Tata MC Grawhill
9780256202854
3rd Edition
Course Outcomes:
– Biasing OP-amps, Non-inverting, amplifiers, inverting amplifiers, Summing
amplifiers and Difference amplifiers, Precision half wave rectifiers, precision
full wave rectifiers, zero crossing detectors, Inverting Schmitt trigger, Non inverting Schmitt trigger circuit.(Text 2: 1.2, 2.1-2.5,3.1 to 3.5,7.1 to 7.2, 9.2
to 9.4, 10.3,10.5 )
V
Applications of Op-Amp
RC Oscillators, Active filters and TIMER, Phase shift oscillator, Wein bridge
oscillator, First and second order active low pass filters, first and second order
active high pass filters, band pass filters. Basic 555 timer, timer used as
Astable and Monostable Multivibrator circuits.(Text -2:11.1 to 11.5, 11.8)
10
No. Description
CO1 Acquire basic knowledge of solid state electronics -diodes, MOSFET, BJT and operational amplifier. (L1)
CO2 Analyze the performance of amplifiers using Transistor, MOSFET and Op-amp.
(L2)
CO3 Design diode applications, amplifiers using MOSFET and Transistor.(L2)
CO4 Deign oscillators, active filters using op-amp and frequency generators using 555 Timer. (L3)
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Syllabus for the Academic Year – 2020 - 2021
Department: ECE Semester: III Subject Name: Digital Electronics Circuits
Subject Code: 18EC305 L-T-P-C: 3-0-0-3
(39 Hours)
Course Objectives:
UNIT Description Hours
I
UNIT– I: Principles of Combinational Logic:
Introduction, Basics of binary logic, Definition of combinational logic,
Canonical forms, Generation of switching equations from truth tables,
Karnaugh maps-3 and 4 Variables, incompletely specified functions (Don't Care terms), Simplifying Max term equations, Map entered variables.
(Text1:2.1 to 2.5, 3.1 to 3.4, 3.6, 3.8)
8
II
UNIT-II: Analysis and Design Of Combinational Logic circuits:
Introduction, General approach, Decoders-BCD decoders, Encoders. Digital
multiplexers- Using multiplexers as Boolean function generators. Adders and
Subtractors-Cascading full adders, Look ahead carry, MSI adders, Using MSI
Adders as Subtractors, BCD adder, Binary comparators. (Text 1:Section:4.1
to 4.6-4.6.1,4.6.2,4.6.3,4.6.4,4.6.6,4.7)
8
III
UNIT-III: Sequential Logic Circuits : Introduction, Basic Bi-stable Element, Latches, SR Latch, application of SR
Latch, A Switch Debouncer, The Latch, The gated SR Latch, The gated D
Latch, J-K Flip-Flop, Race around condition, The Master-Slave Flip-Flops (Pulse-Triggered Flip-Flops): The Master-Slave SR Flip-Flops, The Master-Slave
JK Flip-Flop, Characteristic Equations, Excitation tables, Flip Flop
conversions. (Text2:section:6.1 to 6.6)
8
IV
UNIT-IV:Analysis and Design Of Sequential Logic Circuits: Introduction, Registers, Counters - Binary Ripple Counters, Synchronous
Binary counters, Counters based on Shift Registers, Design of a Synchronous
counters, Design of a Synchronous Mod-6 Counter using clocked JK Flip-
Flops, Design of a Synchronous Mod-6 Counter using clocked D, T or SR
Flip-Flops. (Text2:section:6.1 to 6.6)
8
V
UNIT-V: Programmable Logic and Logic Families:
Introduction, Memory-ROM, PROM and EPROM, Programmable logic devices(PLD's) PLD Notation, PLA and PAL. PLD realization of combinational
logic. (Text 1: section: 9.1 to 9.5)
Introduction to Logic Families: Gate performance considerations, Noise
margin, Fan out, peed of operation and Propagation delay time, Power
dissipation, DTL, TTL, ECL.
7
No. Description
1 Introduce the concepts of digital logic and binary systems.
2 Understand the concepts of analyzing the combinational and sequential
logic circuits.
3 Learn the various techniques in designing the digital circuits.
4 Gain the knowledge of programmable logic devices and logic families.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Text Books :
Sl No Author Text Book title Publisher ISBN Year
/Edition
1 John M
Yarbrough
Digital Logic Applications
and Design
Thomson
Learning
978-
8131500583
2001
2 Donald D
Givone
Digital Principles and
Design
Tata
McGraw
Hill
978-
0072549379
2003
Reference Books:
Sl
No
Author Text Book title Publisher ISBN Year
/Edition
1 Charles H Roth
Fundamentals of logic design
Thomson Learning
978-1133-628-477
2004
2 Mono and Kim Logic and computer
design
Fundamentals
Pearson, 2nd
edition
978-0133-
760-637
2005
3 R.P Jain Modern Digital
Electronics
TMI Edition 978-0070-
66-9116
2010
4 M Senthil
Sivakumar
Fundamentals of
Digital Design
S Chand2 978-93-
84319-12-0
2014
Course Outcomes
No. Description
CO1 Explain the basics of digital logic which are used in computer systems.
(L1)
CO2 Compare different logic families and apply suitable logic gates for
constructing combinational and sequential circuits. (L2)
CO3 Apply various techniques and methods to design optimal logic circuits.
(L3)
CO4 Analyze the characteristics of PLDs for designing logic circuits. (L4)
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Syllabus for the Academic Year – 2020 – 2021
Department: ECE/TCE/ML Semester: III
Subject Name: Electronic Instrumentation
Subject Code: 18EC306 L-T-P-C:3-0-0-3
(39 Hours)
Course Objectives:
UNIT Description Hours
I
Measurement and Error: Introduction, Definitions, Accuracy, precision,
resolution and significant figures, types of errors, measurement error combinations, basics of statistical analysis. Ammeters: DC Ammeter,
multirange ammeter, ayrton shunt or universal shunt, requirements of shunt,
extending ammeter ranges, RF ammeter (thermocouple), limitation of
thermocouple. Digital voltmeters: Introduction, RAMP technique, Dual Slope
integrating type DVM, integrating type DVM, principles of ADC, successive
approximations ADC, resolution and sensitivity of digital meters, general specifications of DVM.
Text1(1.1,1.2,1.3,1.4,1.5,1.6,1.7,1.8,3.1,3.2,3.3,3.4,3.5,3.6,3.7,5.1,5.2,5.3,5.4,
5.5,5.6,5.8,5.9,5.10)
9
II
Digital Instruments: Introduction, digital multimeters, digital frequency
meter, digital measurement of time, universal counter, digital pH meter, digital
phase meter, digital capacitance meter. Oscilloscopes: Introduction, basic principles, CRT features, block diagram of oscilloscope, simple CRO, vertical
amplifier, horizontal deflecting system, sweep or time base generator, triggered
sweep CRO, measurement of frequency by lissajous method, sampling
oscilloscope, storage oscilloscope (for VLF signals only).
Text1(6.1,6.2,6.3,6.4,6.5,6.10,6.12,6.13,7.1,7.2,7.3,7.4,7.5,7.6,7.7,7.8,7.17,7.
18,7.20)
8
III
Signal Generators: Introduction, standard signal generator, function generator, square and pulse generator. Bridges: Introduction, wheatstone’s
bridge, kelvin’s bridge, AC bridges, capacitance comparision bridge. Maxwell’s
bridge, Wein’s bridge, Wagner’s earth connection.
Text 1(8.1,8.5,8.8,8.9,11.1,11.2,11.3,11.8,11.9,11.11,11.14,11.15)
8
IV
Transducers: Introduction, characteristics of transducer, requirement of
transducer, classification of transducer, selection of transducer.Displacement: potentiometer, LVDT, piezoelectric transducer.Temperature: RTD,
thermistors, thermocouple- their ranges.
Text 1(13.1to 13.3,13.4, 13.11,13.15,13.20.2,13.8, 13.20.6)
8
V
Sensors: Principles, classification, parameters, characterization, applications –
automobile sensors, home appliance sensors.Data Acquisition System (DAS):
Introduction, objective of DAS, signal conditioning of inputs, single channel
DAS, multi-channel DAS, computer based DAS. Text 2(1.1 to 1.4,9.2.1 to 9.2.5,9.3), Text 1(17.1,17.2,17.3,17.4,17.5,17.6)
6
No. Description
1 Understand the principle concepts of electronic instruments.
2 Study the performance parameters of measuring instruments.
3 Understand the concept of analog to digital conversion
4 Learn the concept of data acquisition
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Text Books:
Sl
No
Author Text Book title Publisher ISBN Year /
Edition
1 H. S.Kalsi Electronic Instrumentation McGraw Hill
13:9780070583702. 2010 2nd
Edition
2 D
Patranabis
Sensors and Tranducers PHI Sons 9788120321984. 2018, 2nd
Edition
Reference Books:
Sl N
o
Author Text Book title Publisher ISBN Year /Editi
on
1 H. S.Kalsi Modern Electronic Instrumentati
on and Measuring Techniques
Pearson
1st Edition
97893325560
65.
2015
2 A. K. Sawh
ney
Electrical and Electronic Measur
ements
Dhanpat Rai &S
ons
97881770010
06
2013
3 U A
Bhakshi, A V Bhakshi
Electronic Instrumentation Technical
Publications
9788184312683 2009
4 U A
Bhakshi, A
V Bhakshi
Measurements and
Instrumentation
Technical
Publications 9789350992555
2009
Course Outcomes:
No. Description
CO1 Compare electrical parameters with accuracy, precision, resolution.(L1)
CO2 Interpret various types of analog and digital instruments.(L2)
CO3 Build AC and DC bridges for relevant parameter measurement.(L3)
CO4 Apply appropriate passive or active transducers for measurement of
physical phenomenon.(L3)
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Syllabus for the Academic Year – 2020 – 2021
Department: ECE/TCE/ML Semester: III
Subject Name: Mathematics
Subject Code: 18DIP300 L-T-P-C:3-0-0-3
(39 Hours)
Course Objectives:
UNIT Description Hours
I
DifferentialCalculus: nth derivatives of some standard functions (without proof), Leibnitz’s Theorem (statement),Polarcurves–anglebetweenthe radiusvectorand the tangentpedalequation-Problems. Taylor’s andMaclaurin’sseries expansions of one variable - Illustrative examples.
8
II
Partial Differentiation: Partial derivatives, Euler’stheoremforhomogeneous functionsof twovariables.Totalderivatives, Total differential, and differentiationof composite and implicitfunction, Jacobians.
8
III
IntegralCalculus:Statementofreductionformulae forsinn
x, cosn
x, and
sinm
xcosn
x andevaluationof thesewithstandardlimits-Examples.Doubleand tripleintegrals-Simpleexamples.
8
IV
Ordinarydifferentialequations(ODE’s): Introduction-solutionsoffirstorderandfirstdegree differentialequations,exact,linear differentialequations. HigherorderODE’s:Linear differential equations of second and higher orderequations with constant coefficients. Homogeneous /non-homogeneous equations. Solutions of initial valueproblems.
7
V
Probability: Introduction, Sample space and events. Axioms of probability. Addition and multiplication theorems, Conditional probability-illustrative examples. Baye’s theorem-problems.
8
Text Books:
No. Description
1
The purpose of this course is to make students to develop a basic Mathematical knowledge required for higher semesters
2 Introduce the concept of nth differentiation and polar curves.
3 Introduce the concept of differentiation and integration arising in engineering applications.
4 The concept of probability and their applications in different engineering, science and social science fields.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Sl
No
Author Text Book title Publisher ISBN Year
/Edition
1 B.S.Grewal Higher Engineering Mathematics
Khanna Publications
13:978-8174091956
2015
2 E.Kreyszig Advanced Engineering
Mathematics
JonWiley&Sons 978-0-470-91361-1
2015
Reference Books:
Sl
No
Author Text Book title Publisher ISBN Edition/
Year
1 N.P.Bali and
Manish Goyal
A text book
ofEngineering Mathematics
Lakshmi
Publishers
978-8131808030 2010
2 Glyn James Advanced Modern
Engineering
Mathematics
Pearson 9788131711248 4thEdition,
2011
3 B.V.Ramana Higher
Engineering
Mathematics
TataMcGraw-
Hill
9780070634190 1st Edition,
2006
Course Outcomes:
No. Description
CO1
To understand the basic concept of calculus like differentiation and
integration.
CO2
To understand the concepts of partial differentiation and differential
equations arising in a variety of engineering applications.
CO3 To understand the double and triple integral.
CO4
To apply the concept of probability in problem solving and relate the
solutions to the various engineering streams.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Syllabus for the Academic Year – 2020 – 2021
Department: ECE/TCE/ML Semester: III
Subject Name: Analog Electronics Circuits Lab
Subject Code: 18EC307 L-T-P-C- 0-0-2-1
Course Objectives:
No.
Description
1 Design, Demonstrate and analyse instrumentation amplifier, filters, DAC, adder, differentiator and integrator circuits, using op-amp. Design, ,
2 Demonstrate and analyse multivibrators and oscillator circuits using Op-amp
Design
3 Demonstrate and analyse analog systems for AM, FM and Mixer operations.
4 Design, Demonstrate and analyse balance modulation and frequency synthesis. Demonstrate and analyse pulse sampling and flat top sampling.
Sl. NO.
Experiment
1 Study of semiconductor diode, BJT and MOSFET characteristics.
2.
Design and analyze Clipping and Clamper circuits.
3. Design and analyze Full wave rectifier with and without filter.
4.
Design and analyze of inverting amplifier, non-inverting amplifier, Integrator,
Differentiator using IC 741.
5. Design and implementation of half wave and full wave Precision Rectifier using
6. Design and analyze single stage RC coupled amplifier.
7.
Design and simulate a) Hartley oscillator
b) Colpitts oscillator
c) RC phase shift oscillator
8. Design and simulate Schmitt trigger circuit for given UTP & LTP
9.
Design and simulate Design and simulate First order High pass filter, Low pass filter,
Band Pass filter and Band Reject filter.
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Text Books
Sl
No
Author Text Book title Publisher ISBN Year
/Edition
1 David A Bell Operational Amplifiers and Linear ICs
Oxford 978-019-569-6134
Second Edition
2 Ramakanth
A
Gayakawad
Op-Amp and linear
integrated circuits
978-933-
254-9913
Reference Books:
Sl No Author Text Book title Publisher Volume / Issue/ISBN
No.
Year of Edition
1 Boyelstad
and Nashelsky
Fundamentals of
electronic Circuits Theory
Pearson ISBN: 55860-
735-8
3rd Edition
2 Donald A
Neamen
Electronic Circuits
Analysis and Design
Tata MC
Grawhill
3rd Edition
Course Outcomes
10.
Design and simulate Astable Multivibrator & Monostable Multivibrator using
NE555timer
No. Description
CO1 Understand the various parameters, characteristics and specifications of diode, transistor, MOSFET. (L1)
CO2
Design and demonstrate diode applications-rectifiers, clippers, clampers
and transistor as well as MOSFET applications- RC coupled amplifiers
and oscillators. (L2)
CO3 Design and demonstrate Active Filters, Adder, Differentiator and
Integrator Circuits. (L3)
CO4 Design and demonstrate the waveform generators using OP-AMP and
Timer IC. (L2)
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Syllabus for the Academic Year – 2020 - 2021
Department: ECE Semester: III Subject Name: Digital Electronics Circuits lab
Subject Code: 18EC308 L-T-P-C: 0-0-2-1
Course Objectives:
No. Description
1 Understand the realization of Boolean expression using logic gates.
2 To impart knowledge on assessing performance of combinational circuits and
sequential circuits.
3 Study and use the simulation tools to analyze the performance of digital circuits.
Sl.
NO.
Experiment
1 Simplification, Realization of Boolean Expression Using Logic Gates/Universal Gates
2.
Half/Full Adder and Half/Full Subtractors.
3. Parallel Adder/Subtractor.
4.
a.
b.
Code Converters
BCD To Excess-3 And Excess-3 To BCD code converter
Binary-to-Gray And Gray-to-Binary code converter
5. Multiplexer Using IC 74153
6. De-multiplexer Using IC 74139
7. Comparators
8. Encoder and Decoder
9. Flip-Flops
SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY- TUMAKURU (A constituent College of Siddhartha Academy of Higher Education, Tumakuru)
ECE Department
Text Books:
Sl No
Author Text Book title Publisher ISBN Year /Edition
1 John M
Yarbrough
Digital Logic
Applications and
Design
Thomson
Learning
978-
8131500583
2001
2 Donald D
Givone
Digital Principles
and Design
Tata
McGraw Hill
978-
0072549379
2003
Reference Books:
Sl No Author Text Book title Publisher ISBN Year
/Edition
1
Charles H
Roth
Fundamentals of logic
design
Thomson
Learning
978-1133-
628-477
2004
2
R.P Jain Modern Digital Electronics TMI Edition
978-0070-66-9116
2010
Course Outcomes:
10.
a.
b.
Counters
Asynchronous Counters
Synchronous Counters
11. Shift Registers
12. Johnson Counter/Ring Counter
No. Description
CO1 Demonstrate the realization of Boolean expressions using suitable logic
gates (L2)
CO2 Develop the testing and experimental set up for designing optimal
combinational circuit and sequential circuits (L3)
CO3 Verify, interpret and record the experimental data, analyze the results
and prepare a formal laboratory report. (L2)