Download JNTU Kakinada (Jawaharlal Nehru Technological University, Kakinada) B-Tech 1-1 Sem, 1-2 Sem, 2-1 Sem, 2-2 Sem, 3-1 Sem, 3-2 Sem, 4-1 And 4-2 Sem ECE CS And Course Structure And Syllabus R19
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
COURSE STRUCTURE AND SYLLABUS
For
B. TECH ELECTRONICS AND COMMUNICATION ENGINEERING
(Applicable for batches admitted from 2019-2020)
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA - 533 003, Andhra Pradesh, India
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
I Year ? I SEMESTER
Sl.
Course
Subjects
L
T
P
Credits
No
Code
1
HS1101
English
3
0
0
3
2
BS1101
Mathematics - I
3
0
0
3
3
BS1106
Applied Chemistry
3
0
0
3
4
ES1101
Programming for Problem Solving Using C
3
0
0
3
5
ES1103
Engineering Drawing
1
0
3
2.5
6
HS1102
English Lab
0
0
3
1.5
7
BS1107
Applied Chemistry Lab
0
0
3
1.5
8
ES1102
Programming for Problem Solving Using C Lab
0
0
3
1.5
9
MC1101 Environmental Science
3
0
0
0
Total Credits
16
0
12
19
I Year ? IISEMESTER
Sl.
Course
Subjects
L
T
P
Credits
No
Code
1
BS1202
Mathematics ? II
3
0
0
3
2
BS1203
Mathematics ? III
3
0
0
3
3
BS1204
Applied Physics
3
0
0
3
4
ES1209
Network Analysis
3
0
0
3
5
ES1211
Basic Electrical Engineering
3
0
0
3
6
ES1215
Electronic workshop
0
0
2
1
7
ES1208
Basic Electrical Engineering Lab
0
0
3
1.5
8
BS1205
Applied Physics Lab
0
0
3
1.5
9
HS1203
Communication Skills Lab
0
0
2
1
10
PR1201
Engineering Exploration Project
0
0
2
1
15
0
12
21
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
II Year ? ISemester
S. No. Course
Category
L
T
P
Credits
1
Electronic Devices and Circuits
PC
3
0
0
3
2
Switching Theory and Logic Design
PC
3
0
0
3
3
Signals and Systems
PC
3
0
0
3
4
Random Variables and Stochastic Processes
PC
3
0
0
3
Object Oriented Programming through
3
0
0
3
5
Java
ES
6
Managerial Economics & Financial Analysis
HS
3
0
0
3
7
Electronic Devices and Circuits - Lab
LC
0
0
3
1.5
8
Switching Theory and Logic Design - Lab
LC
0
0
3
1.5
9
Constitution of India
MC
3
0
0
0
Sub-Total
21
II Year ? IISemester
S. No. Course
Category
L
T
P Credits
1
Electronic Circuit Analysis
PC
3
0
0
3
2
Linear Control Systems
PC
3
0
0
3
Electromagnetic Waves and Transmission
3
0
0
3
3
Lines
PC
4
Analog Communications
PC
3
0
0
3
5
Computer Architecture and Organization
ES
3
0
0
3
6
Management and Organizational Behavior
HS
3
0
0
3
7
Electronic Circuit Analysis - Lab
LC
0
0
3
1.5
8
Analog Communications - Lab
LC
0
0
3
1.5
Sub-Total
21
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year ? I Semester
S. No. Course
Category L
T
P Credits
1
Linear Integrated Circuits and Applications
PC
3
0
0
3
2
Microprocessor and Microcontrollers
PC
3
0
0
3
3
Digital Communications
PC
3
0
0
3
4
Electronic Measurements & Instrumentation
PC
3
0
0
3
5
Professional Elective (PE 1)
PE
3
0
0
3
Linear Integrated Circuits and Applications -
0
0
3
1.5
6
Lab
LC
7
Digital Communications Lab
LC
0
0
3
1.5
8
Microprocessor and Microcontrollers - Lab
LC
0
0
3
1.5
9
Mini Project with Hardware Development
PR
0
0
3
1.5
10
Essence of Indian Traditional Knowledge
MC
3
0
0
0
Sub-Total
21
III Year ? IISemester
S. No. Course
Category
L
T P Credits
1
Wired and Wireless Transmission Devices
PC
3
0
0
3
2
VLSI Design
PC
3
0
0
3
3
Digital Signal Processing
PC
3 0
0
3
4
Professional Elective (PE2)
PE
3
0
0
3
5
Open Elective (OE1)
OE
3
0
0
3
6
Internet of Things
PC
3
0
0
3
7
VLSI Lab
LC
0
0
3
1.5
8
Digital Signal Processing Lab
LC
0
0
3
1.5
9
Intellectual Property Rights (IPR) & Patents
MC
3
0
0
0
Sub-Total
21
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
IV Year ? ISemester
S. No. Course
Category
L
T
P Credits
Microwave and Optical Communication
1
Engineering
PC
3
0
0
3
2
Data Communications & Computer networks
PC
3
0
0
3
3
Digital Image and Video Processing
PC
3
0
0
3
4
Professional Elective (PE3)
PE
3
0
0
3
5
Professional Elective (PE4)
PE
3
0
0
3
6
Internet of Things Lab
LC
0
0
3
1.5
Microwave and Optical Communication
0
0
3
1.5
7
Engineering LAB
LC
8
Project - Part I
PR
0
0
6
3
Sub-Total
21
IV Year ? II Semester
S. No.
Course
Category
L
T
P
Credits
1
Professional Elective (PE5)
PE
3
0
0
3
2
Open Elective (OE2)
OE
3
0
0
3
3
Project - Part II
PR
0
0
18
9
Sub-Total
15
Total
160
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
PROFESSIONAL ELECTIVES 1:
1. Information Theory &Coding
2. Digital System Design usingHDL
3. Data structures andAlgorithms
4. Soft computing techniques and Pythonprogramming
5. Simulation& MathematicalModeling
PROFESSIONAL ELECTIVES 2:
1. Cellular & Mobile Communication
2. Digital ICDesign
3. Business Intelligence &Analytics
4. PatternRecognition
5. Robotics andAutomation
PROFESSIONAL ELECTIVES 3:
1. Communication Standards andProtocols
2. Analog ICDesign
3. SmartSensors
4. Advanced Digital SignalProcessing
5. AugmentedReality
PROFESSIONAL ELECTIVES 4:
1. SoftwareRadio
2. Low power VLSIDesign
3. EmbeddedSystems
4. DSP processors andArchitectures
5. Multi MediaCommunication
PROFESSIONAL ELECTIVES 5:
1. WirelessCommunication
2. VLSI Testing &Testability
3. Machine Learning & ArtificialIntelligence
4. SpeechProcessing
5. Industrial Internet ofThings
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
OPEN ELECTIVES FOR ECE:
Open Elective 1:
1. DataMining
2. PowerElectronics
3. MEMS and itsapplications
4. Artificial NeuralNetworks
Open Elective 2:
1. 3D Printing
2. Block chainTechnology
3. Cyber Security &Cryptography
OPEN ELECTIVES OFFERED BY ECE:
OE 1
Principles of communication
OE 2
Embedded Systems
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
L
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I Year - I Semester
3
0
0
3
ENGLISH
Introduction
The course is designed to train students in receptive (listening and reading) as well as
productive and interactive (speaking and writing) skills by incorporating a comprehensive,
coherent and integrated approach that improves the learners' ability to effectively use English
language in academic/ workplace contexts. The shift is from learning about the language to
using the language. On successful completion of the compulsory English language course/s in
B.Tech., learners would be confident of appearing for international language
qualification/proficiency tests such as IELTS, TOEFL, or BEC, besides being able to express
themselves clearly in speech and competently handle the writing tasks and verbal ability
component of campus placement tests. Activity based teaching-learning methods would be
adopted to ensure that learners would engage in actual use of language both in the classroom and
laboratorysessions.
CourseObjectives
Facilitate effective listening skills for better comprehension of academic lectures and
English spoken by nativespeakers
Focus on appropriate reading strategies for comprehension of various academic texts and
authenticmaterials
Help improve speaking skills through participation in activities such as role plays,
discussions and structured talks/oralpresentations
Impart effective strategies for good writing and demonstrate the same in summarizing,
writing well organized essays, record and report usefulinformation
Provide knowledge of grammatical structures and vocabulary and encourage their
appropriate use in speech and writing
Learning Outcomes
At the end of the module, the learners will be able to
understand social or transactional dialogues spoken by native speakers of English and
identify the context, topic, and pieces of specificinformation
ask and answer general questions on familiar topics and introduceoneself/others
employ suitable strategies for skimming and scanning to get the general idea of a text and
locate specificinformation
recognize paragraph structure and be able to match beginnings/endings/headings with
paragraphs
form sentences using proper grammatical structures and correct wordforms
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Unit 1:
Lesson-1: A Drawer full of happiness from "Infotech English", Maruthi Publications
Lesson-2: Deliverance by Premchand from "The Individual Society", PearsonPublications.
(Non-detailed)
Listening: Listening to short audio texts and identifying the topic. Listening to short audio texts
and identifying the context and specific pieces of information to answer a series of questions
both in speaking and writing.
Speaking: Asking and answering general questions on familiar topics such as home, family,
work, studies and interests.Self introductions and introducing others.
Reading: Skimming text to get the main idea. Scanning to look for specific pieces of
information.
Reading for Writing: Paragraph writing (specific topics) using suitable cohesive devices;
linkers, sign posts and transition signals; mechanics of writing - punctuation, capitalletters.
Vocabulary: Technical vocabulary from across technical branches (20) GRE Vocabulary(20)
(Antonyms and Synonyms, Word applications) Verbal reasoning and sequencing ofwords.
Grammar: Content words and function words; word forms: verbs, nouns, adjectives and
adverbs; nouns: countables and uncountables; singular and plural basic sentence structures;
simple question form - wh-questions; word order in sentences.
Pronunciation: Vowels, Consonants, Plural markers and their realizations
Unit 2:
Lesson-1: Nehru's letter to his daughter Indira on her birthday from "Infotech English",
Maruthi Publications
Lesson-2: Bosom Friend by Hira Bansode from "The Individual Society", Pearson
Publications. (Non-detailed)
Listening: Answering a series of questions about main idea and supporting ideas after listening
to audio texts, both in speaking and writing.
Speaking: Discussion in pairs/ small groups on specific topics followed by short structured talks.
Functional English: Greetings and leave takings.
Reading: Identifying sequence of ideas; recognizing verbal techniques that help to link the ideas
in a paragraph together.
Reading for Writing: Summarizing - identifying main idea/s and rephrasing what is read;
avoiding redundancies and repetitions.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Vocabulary: Technical vocabulary from across technical branches (20 words). GRE Vocabulary
Analogies (20 words) (Antonyms and Synonyms, Word applications)
Grammar: Use of articles and zero article; prepositions.
Pronunciation: Past tense markers, word stress-di-syllabic words
Unit 3:
Lesson-1: Stephen Hawking-Positivity `Benchmark' from "Infotech English", Maruthi
Publications
Lesson-2: Shakespeare's Sister by Virginia Woolf from "The Individual Society", Pearson
Publications. (Non-detailed)
Listening: Listening for global comprehension and summarizing what is listened to, both in
speaking and writing.
Speaking: Discussing specific topics in pairs or small groups and reporting what is discussed.
Functional English: Complaining and Apologizing.
Reading: Reading a text in detail by making basic inferences - recognizing and interpreting
specific context clues; strategies to use text clues for comprehension. Critical reading.
Reading for Writing: Summarizing - identifying main idea/s and rephrasing what is read;
avoiding redundancies and repetitions. Letter writing-types, format and principles of letter
writing. E-mail etiquette, Writing CV's.
Vocabulary: Technical vocabulary from across technical branches (20 words). GRE Vocabulary
(20 words) (Antonyms and Synonyms, Word applications) Association, sequencing of words
Grammar: Verbs - tenses; subject-verb agreement; direct and indirect speech, reporting verbs
for academicpurposes.
Pronunciation: word stress-poly-syllabic words
Unit 4:
Lesson-1: Liking a Tree, Unbowed: Wangari Maathai-biography from "Infotech English",
Maruthi Publications
Lesson-2: Telephone Conversation-Wole Soyinka from "The Individual Society", Pearson
Publications. (Non-detailed)
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Listening: Making predictions while listening to conversations/ transactional dialogues without
video (only audio); listening to audio-visual texts.
Speaking: Role plays for practice of conversational English in academic contexts (formal and
informal) - asking for and giving information/directions. Functional English: Permissions,
Requesting, Inviting.
Reading: Studying the use of graphic elements in texts to convey information, reveal
trends/patterns/relationships, communicative process or display complicated data.
Reading for Writing: Information transfer; describe, compare, contrast, identify
significance/trends based on information provided in figures/charts/graphs/tables. Writing SOP,
writing for media.
Vocabulary: Technical vocabulary from across technical branches (20 words) GRE Vocabulary
(20 words) (Antonyms and Synonyms, Word applications) Cloze Encounters.
Grammar: Quantifying expressions - adjectives and adverbs; comparing and contrasting;
degrees of comparison; use of antonyms
Pronunciation: Contrastive Stress
Unit 5:
Lesson-1: Stay Hungry-Stay foolish from "Infotech English", Maruthi Publications
Lesson-2: Still I Rise by Maya Angelou from "The Individual Society", Pearson Publications.
(Non-detailed)
Listening: Identifying key terms, understanding concepts and interpreting the concepts both in
speaking and writing.
Speaking: Formal oral presentations on topics from academic contexts - without the use of PPT
slides. Functional English: Suggesting/Opinion giving.
Reading: Reading for comprehension. RAP Strategy Intensive reading and Extensive reading
techniques.
Reading for Writing: Writing academic proposals- writing research articles: format and style.
Vocabulary: Technical vocabulary from across technical branches (20 words) GRE Vocabulary
(20 words) (Antonyms and Synonyms, Word applications) Coherence, matching emotions.
Grammar: Editing short texts ? identifying and correcting common errors in grammar and
usage (articles, prepositions, tenses, subject verbagreement)
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Pronunciation: Stress in compound words
Prescribed text books for theory for Semester-I:
1. "Infotech English", Maruthi Publications.(Detailed)
2. "The Individual Society", Pearson Publications.(Non-detailed)
Reference books:
1. Bailey, Stephen. Academic writing: A handbook for international students.Routledge,
2014.
2. Chase, Becky Tarver. Pathways: Listening, Speaking and Critical Thinking.Heinley
ELT;
2nd Edition, 2018.
3. Skillful Level 2 Reading & Writing Student's Book Pack (B1) MacmillanEducational.
4. Hewings, Martin. Cambridge Academic English (B2). CUP,2012.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
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I Year - I Semester
3
0
0
3
MATHEMATICS-I
(Common to all Branch's for I Year B.Tech)
Course Objectives:
This course will illuminate the students in the concepts ofcalculus.
To enlighten the learners in the concept of differential equations andmultivariable
calculus.
To equip the students with standard concepts and tools at an intermediate to advanced
level mathematics to develop the confidence and ability among the students to handle
various real world problems and theirapplications.
Course Outcomes: At the end of the course, the student will be able to
utilize mean value theorems to real life problems (L3)
solve the differential equations related to various engineering fields(L3)
familiarize with functions of several variables which is useful in optimization(L3)
Apply double integration techniques in evaluating areas bounded by region(L3)
students will also learn important tools of calculus in higher dimensions. Students will
become familiar with 2- dimensional and 3-dimensional coordinate systems (L5)
UNIT I: Sequences, Series and Meanvaluetheorems:
(10hrs)
Sequences and Series: Convergences and divergence ? Ratio test ? Comparison tests ? Integral
test ? Cauchy's root test ? Alternate series ? Leibnitz's rule.
Mean Value Theorems (without proofs): Rolle's Theorem ? Lagrange's mean value theorem ?
Cauchy's mean value theorem ? Taylor's and Maclaurin's theorems with remainders.
UNIT II: Differential equations of first order andfirstdegree:
(10 hrs)
Linear differential equations ? Bernoulli's equations ? Exact equations and equations reducible
to exactform.
Applications: Newton's Law of cooling ? Law of natural growth and decay ? Orthogonal
trajectories ? Electrical circuits.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT III: Linear differential equations ofhigherorder:
(10 hrs)
Non-homogeneous equations of higher order with constant coefficients ? with non-homogeneous
term of the type eax, sin ax, cos ax, polynomials in xn, eaxV(x) and xnV(x) ? Method of Variation
of parameters.
Applications: LCR circuit, Simple Harmonic motion.
UNIT IV:Partialdifferentiation:
(10 hrs)
Introduction ? Homogeneous function ? Euler's theorem ? Total derivative ? Chain rule ?
Jacobian ? Functional dependence ? Taylor's and Mc Laurent's series expansion of functions of
two variables.
Applications: Maxima and Minima of functions of two variables without constraints and
Lagrange's method (with constraints).
UNIT V:Multipleintegrals:
(8hrs)
Double and Triple integrals ? Change of order of integration ? Change of variables.
Applications: Finding Areas and Volumes.
Text Books:
1. B. S. Grewal, Higher Engineering Mathematics, 43rd Edition, KhannaPublishers.
2. B. V. Ramana, Higher Engineering Mathematics, 2007 Edition, Tata Mc. Graw Hill
Education.
Reference Books:
1. Erwin Kreyszig,Advanced Engineering Mathematics, 10th Edition,Wiley-India.
2. Joel Hass, Christopher Heil and Maurice D. Weir, Thomas calculus, 14th Edition,
Pearson.
3. Lawrence Turyn,Advanced Engineering Mathematics, CRC Press,2013.
4. Srimantha Pal, S C Bhunia, Engineering Mathematics, Oxford UniversityPress.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
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I Year - I Semester
3
0
0
3
APPLIED CHEMISTRY
Knowledge of basic concepts of Chemistry for Engineering students will help them as
professional engineers later in design and material selection, as well as utilizing the available
resources.
Learning Objectives:
Importance of usage of plastics in household appliances and composites (FRP) in
aerospace and automotiveindustries.
Outline the basics for the construction of electrochemical cells, batteries and fuel cells.
Understand the mechanism of corrosion and how it can beprevented.
Express the increase in demand as wide variety of advanced materials are introduced;
which have excellent engineeringproperties.
Explain the crystal structures, and the preparation of semiconductors. Magnetic
properties are alsostudied.
Recall the increase in demand for power and hence alternative sources of power are
studied due to depleting sources of fossil fuels. Advanced instrumental techniques are
introduced.
UNIT I POLYMER TECHNOLOGY
Polymerisation:-Introduction-methods of polymerization (emulsion and suspension)-physical
and mechanical properties.
Plastics: Compounding-fabrication (compression, injection, blown film, extrusion) - preparation,
properties and applications of PVC, polycarbonates and Bakelite-mention some examples of
plastic materials used in electronic gadgets, recycling of e-plastic waste.
Elastomers:-Natural rubber-drawbacks-vulcanization-preparation, properties and applications of
synthetic rubbers (Buna S, thiokol and polyurethanes).
Composite materials: Fiber reinforced plastics-conducting polymers-biodegradable polymers-
biopolymers-biomedical polymers.
Learning Outcomes: At the end of this unit, the students will be able to
Outline the properties of polymers and various additives added and different methods of
forming plasticmaterials.
Explain the preparation, properties and applications of some plasticmaterials.
Interpret the mechanism of conduction in conducting polymers.
Discuss natural and synthetic rubbers and theirapplications.
UNIT II: ELECTROCHEMICAL CELLS AND CORROSION
Single electrode potential-Electrochemical series and uses of series-standard hydrogen electrode,
calomel electrode-concentration cell-construction of glass electrode-Batteries: Dry cell, Ni-Cd
cells, Ni-Metal hydride cells, Li ion battery, zinc air cells?Fuel cells: H2-O2, CH3OH-O2,
phosphoric acid, molten carbonate.
Corrosion:-Definition-theories of corrosion (chemical and electrochemical)-galvanic corrosion,
differential aeration corrosion, stress corrosion, waterline corrosion-passivity of metals-galvanic
series-factors influencing rate of corrosion-corrosion control (proper designing, cathodic
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
protection)-Protective coatings: Surface preparation, cathodic and anodic coatings,
electroplating, electroless plating (nickel). Paints (constituents, functions, specialpaints).
Learning Outcomes: At the end of this unit, the students will be able to
Explain the theory of construction of battery and fuelcells.
Categorize the reasons for corrosion and study some methods of corrosioncontrol.
UNIT III: MATERIAL CHEMISTRY
Part I : Non-elemental semiconducting materials:- Stoichiometric, controlled valency &
chalcogen photo/semiconductors-preparation of semiconductors (distillation, zone refining,
Czochralski crystal pulling, epitaxy, diffusion, ion implantation) - Semiconductor devices (p-n
junction diode as rectifier, junction transistor).
Insulators & magnetic materials: electrical insulators-ferro and ferri magnetism-Hall effect and
its applications.
Part II:
Nano materials:-Introduction-sol-gel method- characterization by BET, SEM and TEM
methods-applications of graphene-carbon nanotubes and fullerenes: Types, preparation and
applications
Liquid crystals:-Introduction-types-applications.
Super conductors:-Type ?I, Type II-characteristics and applications
Learning Outcomes: At the end of this unit, the students will be able to
Understand the importance of materials like nanomaterials and fullerenes and theiruses.
Understand liquid crystals andsuperconductors.
Understand the preparation ofsemiconductors.
UNIT IV: ADVANCED CONCEPTS/TOPICS IN CHEMISTRY
Computational chemistry: Introduction, Ab Initio studies
Molecular switches: characteristics of molecular motors and machines, Rotaxanes and
Catenanes as artificial molecular machines, prototypes ? linear motions in rotaxanes, an acid-
base controlled molecular shuttle, a molecular elevator, an autonomous light-powered molecular
motor
Learning Outcomes: At the end of this unit, the students will be able to
Obtain the knowledge of computationalchemistry
Understand importance molecularmachines
UNIT V: SPECTROSCOPIC TECHNIQUES & NON CONVENTIONAL ENERGY
SOURCES
Part A: SPECTROSCOPIC TECHNIQUES
Electromagnetic spectrum-UV (laws of absorption, instrumentation, theory of electronic
spectroscopy, Frank-condon principle, chromophores and auxochromes, intensity shifts,
applications), FT-IR (instrumentation and IR of some organic compounds, applications)-
magnetic resonance imaging and CT scan (procedure & applications).
Part B: NON CONVENTIONAL ENERGY SOURCES
Design, working, schematic diagram, advantages and disadvantages of photovoltaic cell,
hydropower, geothermal power, tidal and wave power, ocean thermal energy conversion.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Learning Outcomes: At the end of this unit, the students will be able to
understand the principles of different analyticalinstruments.
explain the different applications of analyticalinstruments.
design sources of energy by different naturalsources.
Standard Books:
1. Engineering Chemistry by Jain and Jain; Dhanpat Rai Publicating Co.
Reference Books:
1. Engineering Chemistry by Shikha Agarwal; Cambridge University Press, 2019edition.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
I Year - I Semester
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3
PROGRAMMING FOR PROBLEM SOLVING USING C
COURSE OBJECTIVES: COURSE OBJECTIVES:
The objectives of Programming for Problem Solving Using C are
1) To learn about the computer systems, computing environments, developing of acomputer
program and Structure of a CProgram
2) To gain knowledge of the operators, selection, control statements and repetition inC
3) To learn about the design concepts of arrays, strings, enumerated structure and union
types. To learn about theirusage.
4) To assimilate about pointers, dynamic memory allocation and know the significance of
Preprocessor.
5) To assimilate about File I/O and significance offunctions
UNIT I
Introduction to Computers: Creating and running Programs, Computer Numbering System,
Storing Integers, Storing Real Numbers
Introduction to the C Language: Background, C Programs, Identifiers, Types, Variable,
Constants, Input/output, Programming Examples, Scope, Storage Classes and Type Qualifiers.
Structure of a C Program: Expressions Precedence and Associativity, Side Effects, Evaluating
Expressions, Type Conversion Statements, Simple Programs, Command Line Arguments.
UNIT II
Bitwise Operators: Exact Size Integer Types, Logical Bitwise Operators, Shift Operators.
Selection & Making Decisions: Logical Data and Operators, Two Way Selection, Multiway
Selection, More Standard Functions
Repetition: Concept of Loop, Pretest and Post-test Loops, Initialization and Updating, Event and
Counter Controlled Loops, Loops in C, Other Statements Related to Looping, Looping
Applications, Programming Examples
UNIT III
Arrays: Concepts, Using Array in C, Array Application,
Two Dimensional Arrays,
Multidimensional Arrays, Programming Example ? CalculateAverages
Strings: String Concepts, C String, String Input / Output Functions, Arrays of Strings, String
Manipulation Functions String/ Data Conversion, A Programming Example ? Morse Code
Enumerated, Structure, and Union: The Type Definition (Type def), Enumerated Types,
Structure, Unions, and Programming Application
UNIT IV
Pointers: Introduction, Pointers to pointers, Compatibility, L value and R value
Pointer Applications: Arrays, and Pointers, Pointer Arithmetic and Arrays, Memory Allocation
Function, Array of Pointers, Programming Application
Processor Commands: Processor Commands
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT V
Functions: Designing, Structured Programs, Function in C, User Defined Functions, Inter-
Function Communication, Standard Functions, Passing Array to Functions, Passing Pointers to
Functions, Recursion
Text Input / Output: Files, Streams, Standard Library Input / Output Functions, Formatting
Input / Output Functions, Character Input / Output Functions
Binary Input / Output: Text versus Binary Streams, Standard Library, Functions for
Files,Converting File Type.
TEXT BOOKS:
1. Programming for Problem Solving, Behrouz A. Forouzan, Richard F.Gilberg,
CENGAGE
2. The C Programming Language, Brian W.Kernighan, Dennis M. Ritchie, 2e,Pearson
REFERENCES:
1. Computer Fundamentals and Programming, Sumithabha Das, Mc GrawHill
2. Programming in C, Ashok N. Kamthane, Amit Kamthane,Pearson
3. Computer Fundamentals and Programming in C, Pradip Dey, Manas Ghosh,OXFORD
COURSE OUTCOMES:
Upon the completion of the course the student will learn
1) To write algorithms and to draw flowcharts for solvingproblems
2) To convert flowcharts/algorithms to C Programs, compile and debugprograms
3) To use different operators, data types and write programs that use two-way/ multi-way
selection
4) To select the best loop construct for a givenproblem
5) To design and implement programs to analyze the different pointerapplications
6) To decompose a problem into functions and to develop modular reusablecode
7) To apply File I/Ooperations
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
I Year - I Semester
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2.5
ENGINEERING DRAWING
Course Objective: Engineering drawing being the principal method of communication for
engineers, the objective is to introduce the students, the techniques of constructing the
various types of polygons, curves and scales. The objective is also to visualize and
represent the 3D objects in 2D planes with proper dimensioning, scalingetc.
Unit I
Objective: To introduce the students to use drawing instruments and to draw polygons,
Engg.Curves.
Polygons: Constructing regular polygons by general methods, inscribing and describing
polygons on circles.
Curves: Parabola, Ellipse and Hyperbola by general and special methods, cycloids,
involutes, tangents & normals for thecurves.
Scales: Plain scales, diagonal scales and vernier scales
UnitII
Objective: To introduce the students to use orthographic projections, projections of points &
simple lines. To make the students draw the projections of the lines inclined to both the
planes.
Orthographic Projections: Reference plane, importance of reference lines, projections of
points in various quadrants, projections of lines, line parallel to both the planes, line parallel
to one plane and inclined to otherplane.
Projections of straight lines inclined to both the planes, determination of true lengths, angle
of inclination and traces.
Unit III
Objective: The objective is to make the students draw the projections of the plane inclined to
both the planes.
Projections of planes: regular planes perpendicular/parallel to one reference plane and
inclined to the other reference plane; inclined to both the reference planes.
Unit IV
Objective: The objective is to make the students draw the projections of the various types of
solids in different positions inclined to one of the planes.
Projections of Solids ? Prisms, Pyramids, Cones and Cylinders with the axis inclined to both
the planes.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Unit V
Objective: The objective is to represent the object in 3D view through isometric views. The
student will be able to represent and convert the isometric view to orthographic view and
viceversa.
Conversion of isometric views to orthographic views; Conversion of orthographic views to
isometric views.
Computer Aided Design, Drawing practice using Auto CAD, Creating 2D&3D drawings of
objects using Auto CAD
Note: In the End Examination there will be no question from CAD.
TEXT BOOKS:
1. Engineering Drawing by N.D. Butt, ChariotPublications
2. Engineering Drawing by Agarwal & Agarwal, Tata McGraw HillPublishers
REFERENCE BOOKS:
1. Engineering Drawing by K.L.Narayana & P. Kannaiah, ScitechPublishers
2. Engineering Graphics for Degree by K.C. John, PHIPublishers
3. Engineering Graphics by PI Varghese, McGrawHillPublishers
4. Engineering Drawing + AutoCad ? K Venugopal, V. Prabhu Raja, NewAge
Course Outcome: The student will learn how to visualize 2D & 3D objects.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
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1.5
ENGLISH LAB
UNIT I:
Vowels, Consonants, Pronunciation, Phonetic Transcription
UNIT II:
Past tense markers, word stress-di-syllabic words, Poly-Syllabic words
UNIT III:
Rhythm & Intonation
UNIT IV:
Contrastive Stress (Homographs)
UNIT V:
Word Stress: Weak and Strong forms
Stress in compound words
References books:
1. Infotech English, Maruthi Publications. (with CompactDisc)
2. Exercises in Spoken English Part 1,2,3,4, OUP andCIEFL.
3. English Pronunciation in use- Mark Hancock, Cambridge UniversityPress.
4. English Phonetics and Phonology-Peter Roach, Cambridge UniversityPress.
5.
English Pronunciation in use- Mark Hewings, Cambridge UniversityPress.
6. English Pronunciation Dictionary- Daniel Jones, Cambridge UniversityPress.
7. English Phonetics for Indian Students- P. Bala Subramanian, Mac Millan
Publications.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
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3
1.5
APPLIED CHEMISTRY LAB
Introduction to Chemistry laboratory ? Molarity, normality, primary, secondary standard
solutions,
volumetric titrations, quantitative analysis
1. Determination of HCl using standard Na2CO3solution.
2. Determination of alkalinity of a sample containing Na2CO3 andNaOH.
3. Determination of Mn (II) using standard oxalic acidsolution.
4. Determination of ferrous iron using standard K2Cr2O7solution.
5. Determination of copper (II) using standard hyposolution.
6. Determination of temporary and permanent hardness of water using standard EDTA
solution.
7. Determination of iron (III) by a colorimetricmethod.
8. Determination of the concentration of acetic acid using sodium hydroxide (pH-metry
method).
9. Determination of the concentration of strong acid vs strong base (by conductometric
method).
10. Determination of strong acid vs strong base (by potentiometricmethod).
11. Determination of Mg+2 presentin an antacid.
12. Determination of CaCO3 present in an eggshell.
13. Estimation of VitaminC.
14. Determination of phosphoric content in softdrinks.
15. Adsorption of acetic acid bycharcoal.
16. Preparation of nylon-6, 6 and Bakelite (demonstrationonly).
Of the above experiments at-least 10 assessment experiments should be completed in a
semester.
Outcomes: The students entering into the professional course have practically very little
exposure to lab classes. The experiments introduce volumetric analysis; redox titrations with
different indicators; EDTA titrations; then they are exposed to a few instrumental methods of
chemical analysis. Thus at the end of the lab course, the student is exposed to different methods
of chemical analysis and use of some commonly employed instruments. They thus acquire some
experimental skills.
Reference Books
1. A Textbook of Quantitative Analysis, Arthur J.Vogel.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
I Year - I Semester
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1.5
PROGRAMMING FOR PROBLEM SOLVING USING C LAB
Course Objectives:
1) Apply the principles of C language in problemsolving.
2) To design flowcharts, algorithms and knowing how to debugprograms.
3) To design & develop of C programs using arrays, strings pointers &functions.
4) To review the file operations, preprocessorcommands.
Exercise 1:
1. Write a C program to print a block F using hash (#), where the F has a height of six
characters and width of five and fourcharacters.
2. Write a C program to compute the perimeter and area of a rectangle with a height of
7 inches and width of 5inches.
3. Write a C program to display multiplevariables.
Exercise 2:
1. Write a C program to calculate the distance between the twopoints.
2. Write a C program that accepts 4 integers p, q, r, s from the user where r and s are
positive and p is even. If q is greater than r and s is greater than p and if the sum of r
and s is greater than the sum of p and q print "Correct values", otherwise print
"Wrongvalues".
Exercise 3:
1. Write a C program to convert a string to a longinteger.
2. Write a program in C which is a Menu-Driven Program to compute the area of the
various geometricalshape.
3. Write a C program to calculate the factorial of a givennumber.
Exercise 4:
1. Write a program in C to display the n terms of even natural number and theirsum.
2. Write a program in C to display the n terms of harmonic series and their sum.
1 + 1/2 + 1/3 + 1/4 + 1/5 ... 1/nterms.
3. Write a C program to check whether a given number is an Armstrong number ornot.
Exercise 5:
1. Write a program in C to print all unique elements in anarray.
2. Write a program in C to separate odd and even integers in separatearrays.
3. Write a program in C to sort elements of array in ascendingorder.
Exercise 6:
1. Write a program in C for multiplication of two square Matrices.
2. Write a program in C to find transpose of a givenmatrix.
Exercise 7:
1. Write a program in C to search an element in a row wise and column wise sorted
matrix.
2. Write a program in C to print individual characters of string in reverseorder.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Exercise 8:
1. Write a program in C to compare two strings without using string library functions.
2. Write a program in C to copy one string to anotherstring.
Exercise 9:
1. Write a C Program to Store Information Using Structures with Dynamically Memory
Allocation
2. Write a program in C to demonstrate how to handle the pointers in theprogram.
Exercise 10:
1. Write a program in C to demonstrate the use of & (address of) and *(value at
address)operator.
2. rite a program in C to add two numbers usingpointers.
Exercise 11:
1. Write a program in C to add numbers using call byreference.
2. Write a program in C to find the largest element using Dynamic MemoryAllocation.
Exercise 12:
1. Write a program in C to swap elements using call byreference.
2. Write a program in C to count the number of vowels and consonants in a string using
apointer.
Exercise 13:
1. Write a program in C to show how a function returningpointer.
2. Write a C program to find sum of n elements entered by user. To perform this
program, allocate memory dynamically using malloc( )function.
Exercise 14:
1. Write a C program to find sum of n elements entered by user. To perform this
program, allocate memory dynamically using calloc( ) function. Understand the
difference between the above twoprograms
2. Write a program in C to convert decimal number to binary number using thefunction.
Exercise 15:
1. Write a program in C to check whether a number is a prime number or not using the
function.
2. Write a program in C to get the largest element of an array using thefunction.
Exercise 16:
1. Write a program in C to append multiple lines at the end of a textfile.
2. Write a program in C to copy a file in anothername.
3. Write a program in C to remove a file from thedisk.
Course Outcomes:
By the end of the Lab, the student
1) Gains Knowledge on various concepts of a Clanguage.
2) Able to draw flowcharts and writealgorithms.
3) Able design and development of C problem solvingskills.
4) Able to design and develop modular programmingskills.
5) Able to trace and debug aprogram
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
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ENVIRONMENTAL SCIENCE
Learning Objectives:
The objectives of the course are to impart:
Overall understanding of the naturalresources.
Basic understanding of the ecosystem and itsdiversity.
Acquaintance on various environmental challenges induced due to unplanned
anthropogenic activities.
An understanding of the environmental impact of developmentalactivities.
Awareness on the social issues, environmental legislation and globaltreaties.
UNIT-I:
Multidisciplinary nature of Environmental Studies: Definition, Scope and Importance ?
Sustainability: Stockholm and Rio Summit?Global Environmental Challenges: Global warming
and climate change, acid rains, ozone layer depletion, population growth and explosion,
effects;.Role of information technology in environment and human health.
Ecosystems: Concept of an ecosystem. - Structure and function of an ecosystem; Producers,
consumers and decomposers. - Energy flow in the ecosystem - Ecological succession. - Food
chains, food webs and ecological pyramids; Introduction, types, characteristic features, structure
and function of Forest ecosystem, Grassland ecosystem, Desert ecosystem, Aquatic ecosystems.
UNIT-II:
Natural Resources: Natural resources and associated problems.
Forest resources: Use and over ? exploitation, deforestation ? Timber extraction ? Mining, dams
and other effects on forest and tribal people.
Water resources: Use and over utilization of surface and ground water ? Floods, drought,
conflicts over water, dams ? benefits and problems.
Mineral resources: Use and exploitation, environmental effects of extracting and using mineral
resources.
Food resources: World food problems, changes caused by non-agriculture activities-effects of
modern agriculture, fertilizer-pesticide problems, water logging, salinity.
Energy resources: Growing energy needs, renewable and non-renewable energy sources use of
alternate energy sources.
Land resources: Land as a resource, land degradation, Wasteland reclamation, man induced
landslides, soil erosion and desertification; Role of an individual in conservation of natural
resources; Equitable use of resources for sustainable lifestyles.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT-III:
Biodiversity and its conservation: Definition: genetic, species and ecosystem diversity-
classification - Value of biodiversity: consumptive use, productive use, social-Biodiversity at
national and local levels. India as a mega-diversity nation - Hot-sports of biodiversity - Threats
to biodiversity: habitat loss, man-wildlife conflicts. - Endangered and endemic species of India ?
Conservation of biodiversity: conservation ofbiodiversity.
UNIT ? IV
Environmental Pollution: Definition, Cause, effects and control measures of Air pollution,
Water pollution, Soil pollution, Noise pollution, Nuclear hazards. Role of an individual in
prevention of pollution. - Pollution case studies, Sustainable Life Studies. Impact of Fire
Crackers on Men and his wellbeing.
Solid Waste Management: Sources, Classification, effects and control measures of urban and
industrial solid wastes. Consumerism and waste products, Biomedical, Hazardous and e ? waste
management.
UNIT ? V
Social Issues and the Environment: Urban problems related to energy -Water conservation,
rain water harvesting-Resettlement and rehabilitation of people; its problems and concerns.
Environmental ethics: Issues and possible solutions. Environmental Protection Act -Air
(Prevention and Control of Pollution) Act. ?Water (Prevention and control of Pollution) Act -
Wildlife Protection Act -Forest Conservation Act-Issues involved in enforcement of
environmental legislation. -Publicawareness.
UNIT ? VI
Environmental Management: Impact Assessment and its significance various stages of EIA,
preparation of EMP and EIS, Environmental audit. Ecotourism, Green Campus ? Green business
and Green politics.
The student should Visit an Industry / Ecosystem and submit a report individually on any issues
related to Environmental Studies course and make a power point presentation.
Text Books:
1. Environmental Studies, K. V. S. G. Murali Krishna, VGS Publishers,Vijayawada
2. Environmental Studies, R. Rajagopalan, 2nd Edition, 2011, Oxford UniversityPress.
3. EnvironmentalStudies,P.
N. Palanisamy, P. Manikandan, A. Geetha, and K. Manjula
Rani; Pearson Education,Chennai
Reference:
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
1. Text Book of Environmental Studies, Deeshita Dave & P. Udaya Bhaskar, Cengage
Learning.
2. A Textbook of Environmental Studies, Shaashi Chawla, TMH, NewDelhi
3. Environmental Studies, Benny Joseph, Tata McGraw Hill Co, NewDelhi
4. Perspectives in Environment Studies, Anubha Kaushik, C P Kaushik, New AgeInternational
Publishers,2014
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
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3
MATHEMATICS - II
(Common to all Branch for I Year B. Tech)
Course Objectives:
To instruct the concept of Matrices in solving linear algebraicequations
To elucidate the different numerical methods to solve nonlinear algebraicequations
To disseminate the use of different numerical techniques for carrying out numerical
integration.
To equip the students with standard concepts and tools at an intermediate to advanced
level mathematics to develop the confidence and ability among the students to handle
various real world problems and theirapplications.
Course Outcomes: At the end of the course, the student will be able to
develop the use of matrix algebra techniques that is needed by engineers for practical
applications(L6)
solve system of linear algebraic equations using Gauss elimination, Gauss Jordan, Gauss
Seidel(L3)
evaluate approximating the roots of polynomial and transcendental equations by different
algorithms(L5)
apply Newton's forward & backward interpolation and Lagrange's formulae for equal
and unequal intervals(L3)
apply different algorithms for approximating the solutions of ordinary differential
equations to its analytical computations(L3)
Unit I: Solving systems of linear equations, Eigen values andEigenvectors:
(10 hrs)
Rank of a matrix by echelon form and normal form ? Solving system of homogeneous and non-
homogeneous equations linear equations ? Gauss Elimination for solving system of equations ?
Eigen values and Eigen vectors and their properties.
Unit-II: Cayley-Hamilton theorem andQuadraticforms:
(10hrs)
Cayley-Hamilton theorem (without proof) ? Finding inverse and power of a matrix by Cayley-
Hamilton theorem ? Reduction to Diagonal form ? Quadratic forms and nature of the quadratic
forms ? Reduction of quadratic form to canonical forms by orthogonal transformation.
Singular values of a matrix, singular value decomposition (Ref. Book ? 1).
UNIT III:Iterativemethods:
(8 hrs)
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Introduction ? Bisection method ? Secant method ? Method of false position ? Iteration method
? Newton-Raphson method (One variable and simultaneous Equations) ? Jacobi and Gauss-
Seidel methods for solving system ofequations.
UNITIV:Interpolation:
(10 hrs)
Introduction ? Errors in polynomial interpolation ? Finite differences ? Forward differences ?
Backward differences ? Central differences ? Relations between operators ? Newton's forward
and backward formulae for interpolation ? Interpolation with unequal intervals ? Lagrange's
interpolation formula ? Newton's divide difference formula.
UNIT V: Numerical integration and solution of ordinarydifferentialequations:
(10 hrs)
Trapezoidal rule ? Simpson's 1/3rd and 3/8th rule ? Solution of ordinary differential equations
by Taylor's series ? Picard's method of successive approximations ? Euler's method ? Runge-
Kutta method (second and fourthorder).
Text Books:
1. B. S. Grewal, Higher Engineering Mathematics, 43rd Edition, KhannaPublishers.
2. B. V. Ramana, Higher Engineering Mathematics, 2007 Edition, Tata Mc. Graw Hill
Education.
Reference Books:
1. David Poole, Linear Algebra- A modern introduction, 4th Edition,Cengage.
2. Steven C. Chapra, Applied Numerical Methods with MATLAB for Engineering and
Science, Tata Mc. Graw HillEducation.
3. M. K. Jain, S. R. K. Iyengar and R. K. Jain, Numerical Methods for Scientific and
Engineering Computation, New Age International Publications.
4. Lawrence Turyn,Advanced Engineering Mathematics, CRCPress.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
I Year - II Semester
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MATHEMATICS - III
(Common to all Branch for I Year B. Tech)
Course Objectives:
To familiarize the techniques in partial differentialequations
To furnish the learners with basic concepts and techniques at plus two level to lead them
into advanced level by handling various real worldapplications.
Course Outcomes: At the end of the course, the student will be able to
interpret the physical meaning of different operators such as gradient, curl anddivergence
(L5)
estimate the work done against a field, circulation and flux using vector calculus(L5)
apply the Laplace transform for solving differential equations(L3)
find or compute the Fourier series of periodic signals(L3)
know and be able to apply integral expressions for the forwards and inverse Fourier
transform to a range of non-periodic waveforms(L3)
identify solution methods for partial differential equations that model physical processes
(L3)
Unit ? I:Vectorcalculus:
(10 hrs)
Vector Differentiation: Gradient ? Directional derivative ? Divergence ? Curl ? Scalar Potential.
Vector Integration: Line integral ? Work done ? Area ? Surface and volume integrals ? Vector
integral theorems: Greens, Stokes and Gauss Divergence theorems (without proof).
Unit ?II:LaplaceTransforms:
(10 hrs)
Laplace transforms of standard functions ? Shifting theorems ? Transforms of derivatives and
integrals ? Unit step function ? Dirac's delta function ? Inverse Laplace transforms ?
Convolution theorem (with out proof).
Applications: Solving ordinary differential equations (initial value problems) using Laplace
transforms.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Unit ?III: Fourier series andFourierTransforms:
(10 hrs)
Fourier Series: Introduction ? Periodic functions ? Fourier series of periodic function ?
Dirichlet's conditions ? Even and odd functions ? Change of interval ? Half-range sine and
cosine series.
Fourier Transforms: Fourier integral theorem (without proof) ? Fourier sine and cosine integrals
? Sine and cosine transforms ? Properties ? inverse transforms ? Finite Fourier transforms.
Unit ?IV: PDE offirstorder:
(8hrs)
Formation of partial differential equations by elimination of arbitrary constants and arbitrary
functions ? Solutions of first order linear (Lagrange) equation and nonlinear (standard types)
equations.
UNIT V: Second order PDEand Applications:
(10hrs)
SecondorderPDE:Solutionsoflinearpartialdifferentialequationswithconstantcoefficients?
RHS term of the type eaxby,sin( ax by), cos(ax by), xm yn.
Applications of PDE: Method of separation of Variables ? Solution of One dimensional Wave,
Heat and two-dimensional Laplace equation.
Text Books:
1. B. S. Grewal, Higher Engineering Mathematics, 43rd Edition, KhannaPublishers.
2. B. V. Ramana, Higher Engineering Mathematics, 2007 Edition, Tata Mc. Graw Hill
Education.
Reference Books:
1. Erwin Kreyszig,Advanced Engineering Mathematics, 10th Edition,Wiley-India.
2. Dean. G. Duffy,Advanced Engineering Mathematics with MATLAB, 3rd Edition, CRC
Press.
3. Peter O' Neil, Advanced Engineering Mathematics,Cengage.
4. Srimantha Pal, S C Bhunia, Engineering Mathematics, Oxford UniversityPress.
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
I Year - II Semester
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APPLIED PHYSICS
Course Objectives:
Physics curriculum which is re-oriented to the needs of Circuital branches of graduate
engineering courses offered by Jawaharlal Nehru Technological University Kakinada that serves
as a transit to understand the branch specific advanced topics. The course is designed to:
Impart Knowledge of Physical Optics phenomena like Interference and Diffraction
required to design instruments with higherresolution.
Understand the physics of Semiconductors and their working mechanism for their utility
insensors.
To impart the knowledge of materials with characteristic utility inappliances.
UNIT-I
(10hrs)
WAVE OPTICS: Principle of Superposition - Interference of light - Conditions for sustained
Interference - Interference in thin films (reflected geometry) - Newton's Rings (reflected
geometry).
Diffraction - Fraunhofer Diffraction - Diffraction due to Single slit (quantitative), Double slit, N
-slits and circular aperture (qualitative) ? Intensity distribution curves - Diffraction Grating ?
Grating spectrum ? missing order ? resolving power ? Rayleigh's criterion ? Resolving powers
of Microscope, Telescope and grating(qualitative).
Unit Outcomes:
The students will be able to
explainthe need of coherent sources and the conditions for sustainedinterference.
analyzethe differences between interference and diffraction withapplications.
illustratethe resolving power of various opticalinstruments.
UNIT-II
(9hrs)
QUANTUM MECHANICS: Introduction ? Matter waves ? de Broglie's hypothesis ?
Davisson-Germer experiment ? G. P. Thomson experiment ? Heisenberg's Uncertainity
Principle ?interpretation of wave function ? Schr?edinger Time Independent and Time
Dependent wave equations ? Particle in a potentialbox.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Unit Outcomes:
The students will be able to
explainthe fundamental concepts of quantummechanics.
analyzethe physical significance of wavefunction.
applySchr?dinger's wave equation for energy values of a free particle.
UNIT-III
(10hrs)
FREE ELECTRON THEORY & BAND THEORY OF SOLIDS : Introduction ? Classical
free electron theory (merits and demerits only) - Quantum Free electron theory ? electrical
conductivity based on quantum free electron theory ? Fermi Dirac distribution function ?
Temperature dependence of Fermi-Dirac distribution function - expression for Fermi energy -
Density of states .
Bloch's theorem (qualitative) ? Kronig-Penney model(qualitative) ? energy bands in crystalline
solids ? E Vs K diagram ? classification of crystalline solids ? effective mass of electron ? m* Vs
K diagram - concept of hole.
Unit Outcomes:
The students will be able to
explainthe various electrontheories.
calculatethe Fermienergy.
analyzethe physical significance of wave function.
interpretthe effects of temperature on Fermi Dirac distributionfunction.
summarisevarious types of solids based on bandtheory.
UNIT-IV
(9hrs)
SEMICONDUCTOR PHYSICS: Introduction ? Intrinsic semi conductors - density of charge
carriers - Electrical conductivity ? Fermi level ? extrinsic semiconductors - p-type & n-type -
Density of charge carriers - Dependence of Fermi energy on carrier concentration and
temperature ? Hall effect- Hall coefficient - Applications of Hall effect - Drift and Diffusion
currents ? Einstein's equation.
Learning Outcomes:
The students will be able to
classifythe energy bands ofsemiconductors.
outlinethe properties of n-type and p-typesemiconductors.
identifythe type of semiconductor using Halleffect.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT-V
(10 hrs)
MAGNETISM & DIELECTRICS: Introduction ? Magnetic dipole moment ? Magnetization ?
Magnetic susceptibility and permeability ? Origin of permanent magnetic moment ? Bohr
magneton ? Classification of magnetic materials: Dia, para & Ferro ? Domain concept of
Ferromagnetism - Hysteresis ? soft and hard magnetic materials ? applications of Ferromagnetic
material.
Introduction - Dielectic polarization ? Dielectric Polarizability, Susceptibility and Dielectric
constant-types of polarizations: Electronic and Ionic (Quantitative), Orientational polarizations
(qualitative) ? Lorentz Internal field ? Claussius-Mossoti equation - Frequency dependence of
polarization ? Applications of dielectrics.
Unit Outcomes:
The students will be able to
explainthe concept of polarization in dielectricmaterials.
summarizevarious types of polarization of dielectrics.
interpretLorentz field and Claussius- Mosotti relation indielectrics.
classifythe magnetic materials based on susceptibility and their temperaturedependence.
explainthe applications of dielectric and magnetic materials.
Apply the concept of magnetism to magneticdevices.
TEXT BOOKS:
1. "A Text book of Engineering Physics" by M.N. Avadhanulu, P.G.Kshirsagar - S.Chand
Publications,2017.
2. "Engineering Physics" by D.K.Bhattacharya and Poonam Tandon, Oxford press(2015).
3. "Engineering Physics" by R.K Gaur. and S.L Gupta., - Dhanpat Rai publishers,2012.
REFERENCE BOOKS:
1. "Engineering Physics" by M. R. Srinivasan, New Age international publishers(2009).
2. "Optics" by Ajoy Ghatak, 6th Edition McGraw Hill Education,2017.
3. "Solid State Physics" by A. J. Dekker, Mc Millan Publishers(2011).
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
I Year - II Semester
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NETWORK ANALYSIS
UNIT ? I
Introduction to Electrical Circuits : Network elements classification, Electric charge and
current, Electric energy and potential, Resistance parameter ? series and parallel combination,
Inductance parameter ? series and parallel combination, Capacitance parameter ? series and
parallel combination. Energy sources: Ideal, Non-ideal, Independent and dependent sources,
Source transformation, Kirchoff's laws, Mesh analysis and Nodal analysis problem solving with
resistances only including dependent sources also. (Text Books: 1,2,3, Reference Books: 3)
Fundamentals and Network Topology: Definitions of terms associated with periodic
functions: Time period, Angular velocity and frequency, RMS value, Average value,
Form factor and peak factor- problem solving, Phase angle, Phasor representation,
Addition and subtraction of phasors, mathematical representation of sinusoidal quantities,
explanation with relevant theory, problem solving. Principal of Duality withexamples.
Network Topology: Definitions of branch, node, tree, planar, non-planar graph, incidence
matrix, basic tie set schedule, basic cut set schedule. (Text Books: 2,3, Reference Books: 3)
UNIT ? II
Transients :First order differential equations, Definition of time constants, R-L circuit, R-C
circuit with DC excitation, Evaluating initial conditions procedure, second order differential
equations, homogeneous, non-homogenous, problem solving using R-L-C elements with DC
excitation and AC excitation, Response as related to s-plane rotation of roots. Solutions using
Laplace transform method. (Text Books: 1,2,3, Reference Books: 1,3)
UNIT ? III
Steady State Analysis of A.C Circuits :Impedance concept, phase angle, series R-L, R-C, R-L-
C circuits problem solving. Complex impedance and phasor notation for R-L, R-C, R-L-C
problem solving using mesh and nodal analysis, Star-Delta conversion, problem solving. (Text
Books: 1,2, Reference Books: 3)
Coupled Circuits :Coupled Circuits: Self inductance, Mutual inductance, Coefficient of
coupling, analysis of coupled circuits, Natural current, Dot rule of coupled circuits, Conductively
coupled equivalent circuits- problem solving.
UNIT ? IV
Resonance: Introduction, Definition of Q, Series resonance, Bandwidth of series resonance,
Parallel resonance, Condition for maximum impedance, current in anti resonance, Bandwidth of
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
parallel resonance, general case-resistance present in both branches, anti resonance at all
frequencies. (Text Books:2,3, Reference Books: 3)
Network Theorems: Thevinin's, Norton's, Milliman's, Reciprocity, Compensation,
Substitution, Superposition,Max Power Transfer, Tellegens- problem solving using dependent
sources also. (Text Books: 1,2,3, Reference Books:2)
UNIT ? V
Two-port Networks: Relationship of two port networks, Z-parameters, Y-parameters,
Transmission line parameters, h-parameters, Inverse h-parameters, Inverse Transmission line
parameters, Relationship between parameter sets, Parallel connection of two port networks,
Cascading of two port networks, series connection of two port networks, problem solving
including dependent sources also. (Text Books: 1,2, Reference Books: 1,3)
TEXT BOOKS:
1. Network Analysis ? ME Van Valkenburg, Prentice Hall of India, 3rd Edition,2000.
2. Network Analysis by K.Satya Prasad and S Sivanagaraju, CengageLearning
3. Electric Circuit Analysis by Hayt and Kimmarle,TMH
REFERENCES:
1. Network lines and Fields by John. D. Ryder 2nd edition, Asia publishinghouse.
2. Basic Circuit Analysis by DR Cunninghan, Jaico Publishers.
3.Network Analysis and Filter Design by Chadha, UmeshPublications.
COURSE OBJECTIVES:
To understand the basic concepts on RLC circuits.
To know the behavior of the steady states and transients states in RLCcircuits.
To know the basic Laplace transforms techniques in periods'waveforms.
To understand the two port networkparameters.
To understand the properties of LC networks andfilters.
COURSE OUTCOME:
gain the knowledge on basic networkelements.
will analyze the RLC circuits behavior indetailed.
analyze the performance of periodicwaveforms.
gain the knowledge in characteristics of two port network parameters (Z,Y,ABCD,h
&g).
analyze the filter design concepts in real worldapplications.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
I Year - II Semester
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BASIC ELECTRICAL ENGINEERING
Preamble:
This course covers various topics related to principle of operation and performance of various
electrical machines.
Course Educational Objectives:
To understand the principle of operation, constructional details and operational
characteristics of DCgenerators.
To understand the principle of operation, characteristics of DC motor. Methods of
starting and speed control methods of DCmotors.
To learn the constructional details, principle of operation and performance of
transformers.
To study the principle of operation, construction and details of synchronousmachines.
To learn the principle of operation, constructional details, performance, torque ? slip
characteristics and starting methods of 3-phase inductionmotors.
Unit I
DC Machines
Principle of operation of DC generator ? emf equation ? types of DC machines ? torque equation
of DC motor ? applications ? three point starter - losses and efficiency - swinburne's test - speed
control methods ? OCC of DC generator- Brake test on DC Shunt motor-numerical problems
Unit
II
Transformers
Principle of operation of single phase transformer constructional features ? EMF equation ?
Losses and efficiency of transformer- regulation of transformer ? OC & SC tests
predetermination of efficiency and regulations ? Sumpner's test-Numerical Problems.
Unit III
Synchronous Generators
Principle of operation and construction of alternators ? types of alternators Regulation of
alternator by synchronous impedance method-EMF equation of three phase alternator
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Synchronous Motors
Construction of three phase synchronous motor - operating principle ?equivalent circuit of
synchronous motor.
Unit IV
Induction Machine: Principle of operation and construction of three-phase induction motors ?
slip ring and squirrel cage motors ? slip-torque characteristics ? efficiency calculation ? starting
methods-Brake test on 3-Phase Induction Motor.
Unit V
Special Machines: Principle of operation and construction - single phase induction motor -
shaded pole motors ? capacitor motors and AC servomotor.
Course Outcomes:
Able to explain the operation of DC generator and analyze the characteristics of DC
generator.
Able to explain the principle of operation of DC motor and analyze their characteristics.
Acquire the skills to analyze the starting and speed control methods of DCmotors.
Ability to analyze the performance and speed ? torque characteristics of a 3-phase
induction motor and understand starting methods of 3-phase inductionmotor.
Able to explain the operation of SynchronousMachines
Capability to understand the operation of various specialmachines.
TEXT BOOKS:
1. Principles of Electrical Machines by V.K. Mehta & Rohit Mehta, S.Chandpublications
2. Theory & performance of Electrical Machines by J.B.Guptha, S.K.Kataria &Sons
REFERENCE BOOKS:
1.Basic Electrical Engineering by M.S.Naidu and S.Kamakshiah,TMH Publications
2.Fundamentals of Electrical Engineering by Rajendra Prasad, PHI Publications,2nd edition
3. Basic Electrical Engineering by Nagsarkar,Sukhija, Oxford Publications,2ndedition
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
I Year - II Semester
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1
ELECTRONIC WORKSHOP
I.
Identification ofcomponents
II.
Laboratoryequipment
III.
Solderingpractice
IV.
PCBLayout
V.
Testing ofComponents
VI.
CRO
I.
Identification ofcomponents:
Resistors:- Types of Resistors, Value of Resistance using color code,DRBS.
Capacitors:- Types of capacitors, value of capacitance using color code,DCBS.
Inductors:- Types of Inductors,DLB
Rheostats:- Types of Rheostats, Types of potentiometers,Relays.
Switches:- Types ofSwitches.
Cables: Types ofCables.
Types of Instrumentsused.
Identification of active elements.
(Two Terminal, Three Terminal Devices)
(SC diode, Zener diode,D.AC)
Three Terminal Devices: BJT, UJT, SCR, FET, MOSFET,TRIAC.
Digital and Analog ICs. (TO and Flat packages) IC regulatorstypes.
Testing of above components using Multimetros.
II.
LaboratoryEquipment:
A) Meters:-
Types of Voltmeters, Types of Ammeters both Analog andDigital.
Types of Multi meters (Analog &Digital)
AVO Meters.
FET inputVoltmeter.
B) Laboratory Function Generators and AudioOscillators.
C) PowerSupplies.
D) RFgenerators.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
E) Different Types ofTransformers.
(Power, AF, RF,etc.)
III.
Solderingpractice
Tools kit including soldering iron
Tools Kit:
Insulated noseplayer
Insulated cuttingplayer
Screw driverkit
Electricaltester
Soldering iron, Lead,Flex
IV.
PCB layout andDesign.
Materials required, centimeter graph sheets, marker.
V.
Testing of Components.
Active and Passive Components
VI.
CRO
Acquaintance with CRO
Measurements on CRO
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
I Year - II Semester
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1.5
BASIC ELECTRICAL ENGINEERING LAB
Learning Objectives:
To plot the magnetizing characteristics of DC shunt generator and understand the mechanism
ofself-excitation.
To control the speed of DCmotors.
To determine and predetermine the performance of DCmachines.
To predetermine the efficiency and regulation of transformers and assess theirperformance.
To analyse performance of three phase inductionmotor.
To understand the significance of regulation of an alternators using synchronous impedance
method.
Any ten of the following experiments are to be conducted
1. Magnetization characteristics of D.C. Shunt generator.
2. Speed control of D.C. shuntmotor.
3. Brake test on DC shuntmotor.
4. Swinburne's test on DCmachine
5. Load test on DC shuntgenerator
6. Load test on DC seriesgenerator.
7. Separation of losses iun DC Shuntmotor
8. OC & SC tests on single-phasetransformer
9. Sumpner's test on single phasetransformer
10. Brake test on 3-phase Induction motor.
11. Regulation of alternator by synchronous impedancemethod.
Learning Outcomes:
The student should be able to:
Determine and predetermine the performance of DC machines andtransformers.
Control the DC shunt machines.
Compute the performance of 1-phasetransformer.
Perform tests on 3-phase induction motor and alternator to determine theirperformance
characteristics.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
I Year - II Semester
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1.5
APPLIED PHYSIC LAB
(Any 10 of the following listed 15 experiments)
LIST OF EXPERIMENTS:
1. Determination of wavelength of a source-Diffraction Grating-Normalincidence.
2. Newton's rings ? Radius of Curvature of Plano - ConvexLens.
3. Determination of thickness of a spacer using wedge film and parallel interferencefringes.
4. Magnetic field along the axis of a current carrying coil ? Stewart and Gee'sapparatus.
5. Energy Band gap of a Semiconductor p - njunction.
6. Characteristics of Thermistor ? TemperatureCoefficients
7. Determination of dielectric constant by charging and dischargingmethod
8. Determination of resistivity of semiconductor by Four probemethod.
9. StudythevariationofBversusHbymagnetizingthemagneticmaterial( B-Hcurve). 10
Measurement of magnetic susceptibility by Gouy'smethod.
11. Dispersive power of diffractiongrating.
12. Resolving Power oftelescope
13. Resolving power ofgrating
14. Determination of Hall voltage and Hall coefficients of a given semiconductor using Hall
effect.
15. Variation of dielectric constant withtemperature.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
I Year - II Semester
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COMMUNICATION SKILLS LAB
UNIT I:
Oral Activity: JAM, Hypothetical Situations, Self/Peer Profile
Common Errors in Pronunciation, Neutralising Accent
UNIT II:
Oral Activity: Telephonic Etiquette, Role Plays
Poster Presentations
UNIT III:
Oral Activity: Oral Presentation skills, Public speaking
Data Interpretation
UNIT IV:
Oral Activity: Group Discussions: Do's and Don'ts- Types, Modalities
UNIT V:
Oral Activity: Interview Skills: Preparatory Techniques, Frequently asked questions, Mock
Interviews.
Pronunciation: Connected speech (Pausing, Tempo, Tone, Fluency etc.,)
References:
1. Infotech English, Maruthi Publications. (with Compact Disc)
2. Exercises in Spoken English Part 1,2,3,4, OUP andCIEFL.
3. English Pronunciation in use- Mark Hancock, Cambridge UniversityPress.
4. English Phonetics and Phonology-Peter Roach, Cambridge UniversityPress.
5.
English Pronunciation in use- Mark Hewings, Cambridge UniversityPress.
6. English Pronunciation Dictionary- Daniel Jones, Cambridge UniversityPress.
7. English Phonetics for Indian Students- P. Bala Subramanian, Mac MillanPublications.
8. Technical Communication- Meenakshi Raman, Sangeeta Sharma, OxfordUniversity
Press.
9. Technical Communication- Gajendrea Singh Chauhan, Smita Kashiramka,Cengage
Publications.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
I Year - II Semester
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ENGINEERING EXPLORATION PROJECT
COURSE OBJECTIVES:
Build mindsets & foundations essential fordesigners
Learn about the Human-Centered Design methodology and understand their real-world
applications
Use Design Thinking for problem solving methodology for investigating illdefined
problems.
Undergo several design challenges and work towards the final designchallenge
Apply Design Thinking on the following Streams to
Project Stream 1: Electronics, Robotics, IOT andSensors
Project Stream 2: Computer Science and ITApplications
Project Stream 3: Mechanical and Electricaltools
Project Stream4: Eco-friendly solutions for waste management, infrastructure, safety,
alternative energy sources, Agriculture, Environmental science and other fields of
engineering.
HOW TO PURSUE THE PROJECT WORK?
The first part will be learning-based-masking students to embrace the methodology by
exploring all the phases of design thinking through the wallet/ bag challenge and
podcasts.
The second part will be more discussion-based and will focus on building some necessary
skills as designers and learning about complementary material for human- centered
design.
The class will then divide into teams and they will be working with one another for about
2 ? 3 weeks. These teams and design challenges will be the basis for the final project and
final presentation to bepresented.
The teams start with Design Challenge and go through all the phases more in depth from
coming up with the right question to empathizing to ideating to prototyping and to
testing.
Outside of class, students will also be gathering the requirements, identifying the
challenges, usability, importanceetc
At the end, Students are required to submit the final reports, and will be evaluated by the
faculty.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
TASKS TO BE DONE:
Task 1: Everyone is a Designer
Understand class objectives & harness the designermindset
Task 2: The Wallet/Bag Challenge andPodcast
Gain a quick introduction to the design thinkingmethodology
Go through all stages of the methodology through a simple designchallenge
Podcast: Observe, Listen and Engage with the surrounding environment and identify a
designchallenge.
Task 3: Teams & Problems
Start Design Challenge and learn about teams & problems throughthis
Foster team collaboration, findinspiration from the environment and learn how to
identifyproblems
Task 4: Empathizing
Continue Design Challenge and learnempathy
Learn techniques on how to empathize withusers
Go to the field and interview people in theirenvironments
Submit ActivityCard
Task 5: Ideating
Continue Design Challenge and learn how to brainstorm effectively
Encourage exploration and foster spaces forbrainstorming
Submit ActivityCard
Task 6:Prototyping
Continue Design Challenge and learn how to create effectiveprototypes
Build tangible models and use them as communicationtools
Start giving constructive feedback to classmates andteammates
Submit Activity Card
Task 7:Testing
Finish Design Challenge and iterate prototypes and ideas through userfeedback
Evolve ideas and prototypes through user feedback and constructivecriticism
Get peer feedback on individual and groupperformance
Submit ActivityCard
Task8:
Final Report Submission andPresentation
Note: The colleges may arrange for Guest Speakers from Various Design Fields: Graphic
Design, Industrial Design, Architecture, Product Design, Organizational Design, etc to enrich the
students with Design ThinkingConcept.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
REFERENCES:
1. Tom Kelly, The Art of Innovation: Lessons in Creativity From IDEO, America's Leading
Design Firm (Profile Books,2002)
2. Tim Brown, Change by Design: How Design Thinking Transforms Organizations and
Inspires Innovation (HarperBusiness, 2009)
3. Jeanne Liedtka, Randy Salzman, and Daisy Azer, Design Thinking for the Greater Good:
Innovation in the Social Sector (Columbia Business School Publishing,2017)
OTHER USEFUL DESIGN THINKING FRAMEWORKS AND METHODOLOGIES:
Human-Centered Design Toolkit (IDEO);https://www.ideo.com/post/design-kit
Design Thinking Boot Camp Bootleg (Stanford D-School);
https://dschool.stanford.edu/resources/the-bootcamp-bootleg
Collective Action Toolkit (frogdesign);https://www.frogdesign.com/wpcontent/
ouploads/2016/03/CAT_2.0_English.pdf
Design Thinking for Educators (IDEO); https://designthinkingforeducators.com/
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
II Year - I Semester
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ELECTRONIC DEVICES AND CIRCUITS
Course Objectives:
The main objectives of this course are
To learn and understand the basic concepts of semiconductor physics.
Study the physical phenomena such as conduction, transport mechanism and electrical
characteristics of different diodes.
To learn and understandthe application of diodes as rectifiers with their operation and
characteristics with and without filters arediscussed.
Acquire knowledge about the principle of working and operation of Bipolar Junction
Transistor and Field Effect Transistor and theircharacteristics.
To learn and understandthe purpose of transistor biasing and itssignificance.
Small signal equivalent circuit analysis of BJT and FET transistor amplifiers and
compare differentconfigurations.
UNIT-I:Review of Semi Conductor Physics: Hall effect, continuity equation, law of junction,
Fermi Dirac function, Fermi level in intrinsic and extrinsic Semiconductors
Junction Diode Characteristics : energy band diagram of PN junction Diode, Open circuited p-
n junction, Biased p-n junction, p-n junction diode,current components in PN junction Diode,
diode equation, V-I Characteristics, temperature dependence on V-I characteristics, Diode
resistance, Diode capacitance.
UNIT-II:
Special Semiconductor Devices: Zener Diode, Breakdown mechanisms, Zener diode
applications, LED, Varactor Diode, Photodiode, Tunnel Diode, UJT, PN-PN Diode, SCR.
Construction, operation and V-I characteristics.
Rectifiers and Filters: Basic Rectifier setup, half wave rectifier, full wave rectifier, bridge
rectifier,derivations of characteristics of rectifiers, rectifier circuits-operation, input and output
waveforms, Filters, Inductor filter(Series inductor), Capacitor filter(Stunt inductor), -
Filter,comparison of various filter circuits in terms of ripple factors.
UNIT- III: Transistor Characteristics:
BJT: Junction transistor, transistor current components, transistor equation, transistor
configurations, transistor asan amplifier, characteristics of transistor in Common Base, Common
Emitter and Common Collector configurations, Ebers-Moll model of a transistor, punch through/
reach through, Photo transistor, typical transistor junction voltage values.
FET: FET types, construction, operation, characteristics?, gm, rdparameters, MOSFET-types,
construction, operation,characteristics, comparison between JFET and MOSFET.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT- IV: Transistor Biasing and Thermal Stabilization : Need for biasing, operating point,
load line analysis,BJT biasing- methods, basic stability, fixed bias, collector to base bias, self
bias, Stabilization against variations in VBE, Ic, and , Stability factors, (S,S',S''), Bias
compensation, Thermal runaway, Thermalstability.
FET Biasing- methods and stabilization.
UNIT- V: Small Signal Low Frequency Transistor Amplifier Models:
BJT: Two port network, Transistor hybrid model, determination of h-parameters, conversion of
h-parameters,generalized analysis of transistor amplifier model using h-parameters, Analysis of
CB, CE and CC amplifiers using exact and approximate analysis, Comparison of transistor
amplifiers.
FET: Generalized analysis of small signal model, Analysis of CG, CS and CD amplifiers,
comparison of FETamplifiers.
Text Books:
1. Electronic Devices and Circuits- J. Millman, C. Halkias, Tata Mc-Graw Hill,
SecondEdition,2007
2.Electronic Devices and Circuits-K. Lal Kishore, BS Publications, FourthEdition,2016.
3.Electronics devices & circuit theory- Robert L.Boylestad andLouiNashelsky,
Pearson/Prentice hall, tenth edition,2009
References:
1.Integrated Electronics-J. Millman, C. Halkias,Tata Mc-Graw Hill, SecondEdition,2009
2.Electronic Devices and Integrated Circuits ? B.P. Singh,Rekha , Pearson publications,
3.Electronic Devices and Circuits-Salivahanan, Kumar, Vallavaraj, Tata Mc-Graw Hill,
4thEdition,2008.
Course Outcomes:
At the end of this course the student will be able to
Apply the basic concepts of semiconductor physics.
Understand the formation of p-n junction and how it can be used as a p-n junction as
diode in different modes of operation.
Know the construction, working principle of rectifiers with and without filters with
relevant expressions and necessary comparisons.
Understand the construction, principle of operation of transistors, BJT and FET withtheir
V-I characteristics in different configurations.
Know the need of transistor biasing, various biasing techniques for BJT and FET and
stabilization concepts with necessary expressions.
Perform the analysis of small signal low frequency transistor amplifier circuits using BJT
D
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T einc
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diff r
e r,de
en c
t ode
co r,
nf imul
gur taipl
ti e
o xe
ns.r and demultiplexers, Implementation of higher order
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
II Year - I Semester
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SWITCHING THEORY and LOGIC DESIGN
Course Objectives:
To solve a typical number base conversion and analyze new error coding techniques.
Theorems and functions of Boolean algebra and behavior of logic gates.
To optimize logic gates for digital circuits using various techniques.
Boolean function simplification using Karnaugh maps and Quine-McCluskey methods.
To understand concepts of combinational circuits.
To develop advanced sequential circuits.
UNIT ? I
REVIEW OF NUMBER SYSTEMS & CODES:
Representation of numbers of different radix, conversation from one radix to another radix, r-1's
compliments and r's compliments of signed members.Gray code ,4 bit codes; BCD, Excess-3,
2421, 84-2-1 code etc. Error detection & correction codes: parity checking, even parity, odd
parity, Hamming code.
BOOLEAN THEOREMS AND LOGIC OPERATIONS:
Boolean theorems, principle of complementation & duality, De-morgan theorems.Logic
operations ; Basic logic operations -NOT, OR, AND, Universal Logic operations, EX-OR, EX-
NOR operations.Standard SOP and POS Forms, NAND-NAND and NOR-NOR realizations,
Realization of three level logic circuits. Study the pin diagram and obtain truth table for the
following relevant ICs 7400,7402,7404,7408,7432,7486.
UNIT ? II
MINIMIZATION TECHNIQUES:
Minimization and realization of switching functions usingBoolean theorems, K-Map (up to 6
variables)and tabular method(Quine-mccluskey method) with only four variables and single
function.
COMBINATIONAL LOGIC CIRCUITS DESIGN:
Design of Half adder, full adder, half subtractor, full subtractor, applications of full adders; 4-bit
adder-subtractor circuit, BCD adder circuit, Excess 3 adder circuit and carry look-a-head adder
circuit, Design code converts using Karnaugh method and draw the complete circuit diagrams.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT ? III
COMBINATIONAL LOGIC CIRCUITS DESIGN USING MSI &LSI :
Design of encoder ,decoder, multiplexer and de-multiplexers, Implementation of higher order
circuits using lower order circuits . Realization of Boolean functions using decoders and
multiplexers.Design of Priority encoder, 4-bit digital comparator and seven segment decoder. .
Study the relevant ICs pin diagrams and their functions 7442,7447,7485,74154.
INTRODUCTION OF PLD's :
PLDs:PROM, PAL, PLA -Basics structures, realization of Boolean functions, Programming
table.
UNIT ? IV
SEQUENTIAL CIRCUITS I:
Classification of sequential circuits (synchronous and asynchronous) , operation of NAND &
NOR Latches and flip-flops; truth tables and excitation tables of RS flip-flop, JK flip-flop, T
flip-flop, D flip-flop with reset and clear terminals. Conversion from one flip-flop toanother flip-
flop. Design of 5ripple counters, design of synchronous counters, Johnson counter, ring counter.
Design of registers - Buffer register, control buffer register, shift register, bi-directional shift
register, universal shift, register.
Study the following relevant ICs and their relevant functions 7474,7475,7476,7490,7493,74121.
UNIT ? V
SEQUENTIAL CIRCUITS II :
Finite state machine; state diagrams, state tables, reduction of state tables.Analysis of clocked
sequential circuits Mealy to Moore conversion and vice-versa.Realization of sequence
generator,Design of Clocked Sequential Circuit to detect the given sequence (with overlapping
or withoutoverlapping).
TEXT BOOKS:
1. Switching and finite automata theory Zvi.KOHAVI,Niraj.K.Jha 3rdEdition,Cambridge
UniversityPress,2009
2. Digital Design by M.MorrisMano,Michael D Ciletti,4th edition PHIpublication,2008
3. Switching theory and logic design by Hill and Peterson,Mc-Graw Hill TMH edition,
2012.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
REFERENCES:
1. Fundamentalsof Logic Design by Charles H. Roth Jr, JaicoPublishers,2006
2. Digital electronics by R S Sedha.S.Chand & companylimited,2010
3. Switching Theory and Logic Design by A. AnandKumar,PHI Learning pvtltd,2016.
4. Digital logic applications and design by John M Yarbough, Cengage learning,2006.
5. TTL 74-Series databook.
Course Outcomes:
Classify different number systems and apply to generate variouscodes.
Use the concept of Boolean algebra in minimization of switchingfunctions
Design different types of combinational logiccircuits.
Apply knowledge of flip-flops in designing of Registers andcounters
The operation and design methodology for synchronous sequential circuits and
algorithmic statemachines.
Produce innovative designs by modifying the traditional designtechniques.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
II Year - I Semester
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SIGNALS and SYSTEMS
Course Objectives:
The main objectives of this course are given below:
To study about signals andsystems.
To analyze the spectral characteristics of signal using Fourier series and Fouriertransforms.
To understand the characteristics ofsystems.
To introduce the concept of samplingprocess
To know various transform techniques to analyze the signals andsystems.
UNIT- I: INTRODUCTION: Definition of Signals and Systems, Classification of Signals,
Classification of Systems, Operations on signals: time-shifting, time-scaling, amplitude-
shifting, amplitude-scaling. Problems on classification and characteristics of Signals and
Systems. Complex exponential and sinusoidal signals, Singularity functions and related
functions: impulse function, step function signum function and ramp function. Analogy
between vectors and signals, orthogonal signal space, Signal approximation using orthogonal
functions, Mean square error, closed or complete set of orthogonal functions, Orthogonality
in complex functions. Related Problems.
UNIT ?II: FOURIER SERIES AND FOURIER TRANSFORM:
Fourier series representation of continuous time periodic signals, properties of Fourier series,
Dirichlet's conditions, Trigonometric Fourier series and Exponential Fourier series, Relation
between Trigonometric and Exponential Fourier series, Complex Fourier spectrum. Deriving
Fourier transform from Fourier series, Fourier transform of arbitrary signal, Fourier
transform of standard signals, Fourier transform of periodic signals, properties of Fourier
transforms, Fourier transforms involving impulse function and Signum function.
Introduction to Hilbert Transform.RelatedProblems.
UNIT-III: ANALYSIS OF LINEAR SYSTEMS: Introduction, Linear system, impulse
response, Response of a linear system, Linear time invariant (LTI) system, Linear time
variant (LTV) system, Concept of convolution in time domain and frequency domain,
Graphical representation of convolution, Transfer function of a LTI system, Related
problems. Filter characteristics of linear systems. Distortion less transmission through a
system, Signal bandwidth, system bandwidth, Ideal LPF, HPF and BPF characteristics,
Causality and Poly-Wiener criterion for physical realization, relationship between bandwidth
and rise time.
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT ?IV:
CORRELATION: Auto-correlation and cross-correlation of functions, properties of
correlation function, Energy density spectrum, Parseval's theorem, Power density spectrum,
Relation between Convolution and correlation, Detection of periodic signals in the presence
of noise by correlation, Extraction of signal from noise by filtering.
SAMPLING THEOREM : Graphical and analytical proof for Band Limited Signals,
impulse sampling, Natural and Flat top Sampling, Reconstruction of signal from its samples,
effect of under sampling ? Aliasing, Introduction to Band Pass sampling, Related problems.
UNIT ?V:
LAPLACE TRANSFORMS: Introduction, Concept of region of convergence (ROC) for
Laplace transforms, constraints on ROC for various classes of signals, Properties of L.T's,
Inverse Laplace transform, Relation between L.T's, and F.T. of a signal. Laplace transform
of certain signals using waveformsynthesis.
Z?TRANSFORMS: Concept of Z- Transform of a discrete sequence. Region of
convergence in Z-Transform, constraints on ROC for various classes of signals, Inverse Z-
transform, properties of Z-transforms. Distinction between Laplace, Fourier and Z
transforms.
TEXT BOOKS:
1. Signals, Systems & Communications - B.P. Lathi, BS Publications,2003.
2. Signals and Systems - A.V. Oppenheim, A.S. Willsky and S.H. Nawab, PHI,2nd
Edn,1997
3. Signals & Systems - Simon Haykin and Van Veen, Wiley, 2ndEdition,2007
REFERENCE BOOKS:
1. Principles of Linear Systems and Signals ? BP Lathi, Oxford University Press,2015
2. Signals and Systems ? T K Rawat , Oxford University press,2011
Course Outcomes:At the end of this course the student will able to:
Differentiate the various classifications of signals andsystems
Analyze the frequency domain representation of signals using Fourierconcepts
Classify the systems based on their properties and determine the response ofLTI
Systems.
Know the sampling process and various types of samplingtechniques.
Apply Laplace and z-transforms to analyze signals and Systems (continuous &discrete).
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
II Year - I Semester
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RANDOM VARIABLES and STOCHASTIC PROCESSES
Course Objectives:
To give students an introduction to elementary probability theory, in preparation to learn
the concepts of statistical analysis, random variables and stochasticprocesses.
To mathematically model the random phenomena with the help of probabilitytheory
Concepts.
To introduce the important concepts of random variables and stochasticprocesses.
To analyze the LTI systems with stationary random process asinput.
UNIT I
THE RANDOM VARIABLE: Introduction, Review of Probability Theory, Definition of a
Random Variable, Conditions for a Function to be a Random Variable, Discrete, Continuous and
Mixed Random Variables, Distribution and Density functions, Properties, Binomial, Poisson,
Uniform, Gaussian, Exponential, Rayleigh, Conditional Distribution, Conditional Density,
Properties.
UNIT II
OPERATION ON ONE RANDOM VARIABLE - EXPECTATIONS: Introduction,
Expected Value of a Random Variable, Function of a Random Variable, Moments about the
Origin, Central Moments, Variance and Skew, Chebychev's Inequality, Characteristic Function,
Moment Generating Function, Transformations of a Random Variable: Monotonic
Transformations for a Continuous Random Variable, Non-monotonic Transformations of
Continuous Random Variable.
UNIT III
MULTIPLE RANDOM VARIABLES: Vector Random Variables, Joint Distribution
Function, Properties of Joint Distribution, Marginal Distribution Functions, Conditional
Distribution and Density, Statistical Independence, Sum of Two Random Variables, Sum of
Several Random Variables, Central Limit Theorem: Unequal Distribution, EqualDistributions.
OPERATIONS ON MULTIPLE RANDOM VARIABLES: Joint Moments about the Origin,
Joint Central Moments, Joint Characteristic Functions, Jointly Gaussian Random Variables: Two
Random Variables case, N Random Variables case, Properties, Transformations of Multiple
Random Variables, Linear Transformations of Gaussian Random Variables.
UNIT IV
RANDOM PROCESSES ? TEMPORAL CHARACTERISTICS: The RandomProcess
Concept, Classification of Processes, Deterministic and Nondeterministic Processes, Distribution
and Density Functions, Concept of Stationarity and Statistical Independence. First-Order
Stationary Processes, Second-order and Wide-Sense Stationarity, Nth-order and Strict-Sense
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Stationarity, Time Averages and Ergodicity, Autocorrelation Function and its Properties, Cross-
Correlation Function and its Properties, Covariance Functions, Gaussian Random Processes,
Poisson Random Process.
UNIT V
RANDOM PROCESSES - SPECTRAL CHARACTERISTICS:
The PowerDensity
Spectrum: Properties, Relationship between Power Density Spectrum and Autocorrelation
Function, The Cross-Power Density Spectrum, Properties, Relationship between Cross-Power
Density Spectrum and Cross-Correlation Function.
LINEAR SYSTEMS WITH RANDOM INPUTS: Random Signal Response of Linear
Systems: System Response ? Convolution, Mean and Mean-squared Value of System Response,
Autocorrelation Function of Response, Cross-Correlation Functions of Input and Output,
Spectral Characteristics of System Response: Power Density Spectrum of Response, Cross-
Power Density Spectra of Input and Output, Band pass, Band-Limited and Narrowband
Processes,Properties.
TEXT BOOKS:
1. Probability, Random Variables & Random Signal Principles, Peyton Z. Peebles,TMH,
4th Edition,2001.
2. Probability, Random Variables and Stochastic Processes, Athanasios Papoulisand
S.Unnikrisha, PHI, 4th Edition,2002.
3. Probability and Random Processes with Applications to Signal Processing, HenryStark
and John W. Woods, Pearson Education, 3rdEdition,2001.
REFERANCE BOOKS:
1. Schaum's Outline of Probability, Random Variables, and Random Processes,1997.
2. An Introduction to Random Signals and Communication Theory, B.P. Lathi, International
Textbook,1968.
3. Probability Theory and Random Processes, P. Ramesh Babu, McGrawHill,2015.
Course Outcomes:
After completion of the course, the student will be able to
Mathematically model the random phenomena and solve simple probabilisticproblems.
Identify different types of random variables and compute statistical averages ofthese
randomvariables.
Characterize the random processes in the time and frequencydomains.
Analyze the LTI systems with randominputs.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
II Year - I Semester
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OBJECT ORIENTED PROGRAMMING THROUGH JAVA
Course Objectives:
This subject will help to improve
the analytical skills of object oriented programming
Overall development of problem solving and critical analysis.
Formal introduction to Java programming language
Course Outcomes:
On successful completion of this course, the student should be able to:
Show competence in the use of the Java programming language in the development of small to medium-
sized application programs that demonstrate professionally acceptable coding and performance standard
Illustrate the basic principles of the object-oriented programming
Demonstrate an introductory understanding of graphical user interfaces, multithreaded programming, and
event-driven programming.
Unit I
Introduction to Java : Basics of Java programming, Data types, Variables, Operators, Control structures including
selection, Looping, Java methods, Overloading, Math class, Arrays in java.
Objects and Classes : Basics of objects and classes in java, Constructors, Finalizer, Visibility modifiers, Methods
and objects, Inbuilt classes like String, Character, StringBuffer, File, this reference.
Unit II
Inheritance and Polymorphism : Inheritance in java, Super and sub class, Overriding, Object class,
Polymorphism, Dynamic binding, Generic programming, Casting objects, Instance of operator, Abstract class,
Interface in java, Package in java, UTIL package.
Unit III
Event and GUI programming : Event handling in java, Event types, Mouse and key events, GUI Basics, Panels,
Frames, Layout Managers: Flow Layout, Border Layout, Grid Layout, GUI components like Buttons, Check Boxes,
Radio Buttons, Labels, Text Fields, Text Areas, Combo Boxes, Lists, Scroll Bars, Sliders, Windows, Menus, Dialog
Box, Applet and its life cycle, Introduction to swing, Creating a swing applet, swing controls and components.
Unit IV
I/O programming: Text and Binary I/O, Binary I/O classes, Object I/O, Random Access Files.
Event driven model, handling events
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Unit V
Multithreading in java: Thread life cycle and methods, Runnable interface, Thread synchronization, Exception
handling with try-catch-finally, Collections in java, Introduction to JavaBeans and Network Programming.
Text Books:
1) Introduction to Java Programming (Comprehensive Version), Daniel Liang, Seventh Edition, Pearson.
2) Programming in Java, Sachin Malhotra & Saurabh Chaudhary, Oxford University Press.
Reference Books:
1) Murach's Beginning Java 2, Doug Lowe, Joel Murach and Andrea Steelman, SPD.
2) Core Java Volume-I Fundamentals, Eight Edition, Horstmann & Cornell, Pearson
Education.
3) The Complete Reference, Java 2 (Fourth Edition), Herbert Schild, TMH.
4) Java Programming, D. S. Malik, Cengage Learning.
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
II Year - I Semester
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MANAGERIAL ECONOMICS & FINANCIAL ANALYSIS
Course Objectives:
The Learning objectives of this paper are to understand the concept and nature of Managerial
Economics and its relationship with other disciplines and also to understand the Concept of
Demand and Demandforecasting.
To familiarize about the Production function, Input Output relationship, Cost-Output
relationship and Cost-Volume-ProfitAnalysis.
To understand the nature of markets, Methods of Pricing in the different market structures
and to know the different forms ofBusiness organization and the concept of Business Cycles.
To learn different Accounting Systems, preparation of Financial Statement and uses of
different tools for performanceevaluation.
Finally, it is also to understand the concept of Capital, Capital Budgeting and the techniques
used to evaluate Capital Budgetingproposals.
Unit-I
Introduction to Managerial Economics and demand Analysis:
Definition of Managerial Economics ?Scope of Managerial Economics and its relationship with other
subjects ?Concept of Demand, Types of Demand, Determinants of Demand- Demand schedule, Demand
curve, Law of Demand and its limitations- Elasticity of Demand, Types of Elasticity of Demand and
Measurement- Demand forecasting and Methods of forecasting, Concept of Supply and Law of Supply.
Unit ? II:
Theories of Production and Cost Analyses:
Theories of Production function- Law of Variable proportions-Isoquants and Isocosts and choice of least
cost factor combination-Concepts of Returns to scale and Economies of scale-Different cost concepts:
opportunity costs, explicit and implicit costs-Fixed costs, Variable Costs and Total costs ?Cost ?Volume-
Profit analysis-Determination of Breakeven point(problems)-Managerial significance and limitations of
Breakeven point.
Unit ? III:
Introduction to Markets, Theories of the Firm & Pricing Policies:
Market Structures: Perfect Competition, Monopoly, Monopolistic competition and Oligopoly ? Features ?
Price and Output Determination ? Managerial Theories of firm: Marris and Williamson's models ? other
Methods of Pricing: Average cost pricing, Limit Pricing, Market Skimming Pricing, Internet Pricing:
(Flat Rate Pricing, Usage sensitive pricing) and Priority Pricing, Business Cycles : Meaning andFeatures
? PhasesofaBusinessCycle.FeaturesandEvaluationofSoleTrader,Partnership,JointStockCompany
? State/Public Enterprises and theirforms.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Unit ? IV:
Introduction to Accounting & Financing Analysis:
Introduction to Double Entry System, Journal, Ledger, Trail Balance and Preparation of Final Accounts
with adjustments ? Preparation of Financial Statements-Analysis and Interpretation of Financial
Statements-Ratio Analysis ? Preparation of Funds flow and cash flow analysis (Problems)
Unit ? V:
Capital and Capital Budgeting: Capital Budgeting: Meaning of Capital-Capitalization-Meaning of
Capital Budgeting-Time value of money- Methods of appraising Project profitability: Traditional
Methods(pay back period, accounting rate of return) and modern methods(Discounted cash flow method,
Net Present Value method, Internal Rate of Return Method and Profitability Index)
TEXT BOOKS:
1. A R Aryasri, Managerial Economics and Financial Analysis, The McGraw ? Hill companies.
REFERENCES:
1. Varshney R.L, K.L Maheswari, Managerial Economics, S. Chand & CompanyLtd,
2. JL Pappas and EF Brigham, Managerial Economics, Holt, R & W; New editionedition
3. N.P Srinivasn and M. SakthivelMurugan, Accounting for Management, S. Chand & CompanyLtd,
4. MaheswariS.N,AnIntroduction to Accountancy, Vikas Publishing House PvtLtd
5. I.M Pandey, Financial Management , Vikas Publishing House PvtLtd
6. V. Maheswari, Managerial Economics, S. Chand & CompanyLtd.
Course Outcomes:
The Learner is equipped with the knowledge of estimating the Demand and demand
elasticities for aproduct.
The knowledge of understanding of the Input-Output-Cost relationships and estimation of
the least cost combination ofinputs.
The pupil is also ready to understand the nature of different markets and Price Output
determination under various market conditions and also to have the knowledge of different
BusinessUnits.
The Learner is able to prepare Financial Statements and the usage of various Accounting
tools forAnalysis.
The Learner can able to evaluate various investment project proposals with the help of
capital budgeting techniques for decisionmaking.
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
II Year - I Semester
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1.5
ELECTRONIC DEVICES AND CIRCUITS LAB
Note: The students are required to perform the experiment to obtain the V-I characteristics and
to determine the relevant parameters from the obtained graphs.
Electronic Workshop Practice:
1. Identification, Specifications, Testing of R, L, C Components (ColourCodes),
Potentiometers, Coils, Gang Condensers, Relays, BreadBoards.
2. Identification, Specifications and Testing of active devices, Diodes, BJTs, JFETs,LEDs,
LCDs, SCR,UJT.
3. Soldering Practice- Simple circuits using active and passivecomponents.
4. Study and operation of Ammeters, Voltmeters, Transformers, Analog andDigital
Multimeter, Function Generator, Regulated Power Supply andCRO.
List of Experiments: (Minimum of Ten Experiments has to be performed)
1. P-N Junction DiodeCharacteristics
Part A: Germanium Diode (Forward bias& Reverse bias)
Part B: Silicon Diode (Forward Bias only)
2. Zener DiodeCharacteristics
Part A: V-ICharacteristics
Part B: Zener Diode as Voltage Regulator
3. Rectifiers (without and withc-filter)
Part A: Half-waveRectifier
Part B: Full-wave Rectifier
4. BJT Characteristics(CEConfiguration)
Part A: InputCharacteristics
Part B: Output Characteristics
5. FET Characteristics(CSConfiguration)
Part A: DrainCharacteristics
Part B: Transfer Characteristics
6. SCRCharacteristics
7. UJTCharacteristics
8. TransistorBiasing
9. CRO Operation and itsMeasurements
10. BJT-CEAmplifier
11. Emitter Follower-CCAmplifier
12. FET-CSAmplifier
Equipment required:
1. Regulated Powersupplies
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
2. Analog/Digital StorageOscilloscopes
3. Analog/Digital FunctionGenerators
4. DigitalMulti-meters
5. Decade R?sistanceBoxes/Rheostats
6. Decade CapacitanceBoxes
7. Ammeters (Analog orDigital)
8. Voltmeters (Analog orDigital)
9. Active & Passive ElectronicComponents
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
II Year - I Semester
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1.5
SWITCHING THEORY and LOGIC DESIGN LAB
List of Experiments: (Minimum of Twelve Experiments has to be performed)
1. Verification of truth tables of Logicgates
Two input (i) OR (ii) AND (iii) NOR (iv) NAND (v) Exclusive OR (vi) Exclusive
NOR
2. Design a simple combinational circuit with four variables and obtain minimal SOP
expression and verify the truth table using Digital TrainerKit
3. Verification of functional table of 3 to 8 line Decoder /De-multiplexer
4. 4 variable logic function verification using 8 to 1multiplexer.
5. Design full adder circuit and verify its functionaltable.
6. Verification of functional tablesof
(i) J K Edge triggered Flip ?Flop
(ii) J K Master Slave Flip ? Flop
(iii)D Flip -Flop
7. Design a four bit ring counter using D Flip ? Flops / JK Flip Flop and verifyoutput
8. Design a four bit Johnson's counter using D Flip-Flops / JK Flip Flops and verifyoutput
9. Verify the operation of 4-bit Universal Shift Register for different Modes ofoperation.
10. Draw the circuit diagram of MOD-8 ripple counter and construct a circuit using T-Flip-
Flops and Test it with a low frequency clock and Sketch the outputwaveforms.
11. Design MOD ? 8 synchronous counter using T Flip-Flop and verify the result and Sketch
the outputwaveforms.
12. (a) Draw the circuit diagram of a single bit comparator and test theoutput
(b) Construct 7 Segment Display Circuit Using Decoder and 7 Segment LED and testit.
ADD on Experiments:
1. Design BCD Adder Circuit and Test the Same using RelevantIC
2. Design Excess-3 to 9-Complement convertor using only four Full Adders and test the
Circuit.
3. Design an Experimental model to demonstrate the operation of74154 De-Multiplexer
using LEDs foroutputs.
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
II Year-I Semester
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CONSTITUTION OF INDIA
Course Objectives:
To Enable the student to understand the importance ofconstitution
To understand the structure of executive, legislature andjudiciary
To understand philosophy of fundamental rights andduties
To understand the autonomous nature of constitutional bodies like Supreme Court and
high court controller and auditor general of India and election commission ofIndia.
To understand the central and state relation financial andadministrative.
UNIT-I
Introduction to Indian Constitution: Constitution meaning of the term, Indian Constitution -
Sources and constitutional history, Features - Citizenship, Preamble, Fundamental Rights and
Duties, Directive Principles of State Policy.
Learning outcomes:
After completion of this unit student will
Understand the concept of Indianconstitution
Apply the knowledge on directive principle of statepolicy
Analyze the History, features of Indianconstitution
Evaluate Preamble Fundamental Rights andDuties
UNIT-II
Union Government and its Administration Structure of the Indian Union: Federalism, Centre-
State relationship, President: Role, power and position, PM and Council of ministers, Cabinet
and Central Secretariat, LokSabha, RajyaSabha, The Supreme Court and High Court: Powers
andFunctions;
Learning outcomes:-After completion of this unit student will
Understand the structure of Indiangovernment
Differentiate between the state and centralgovernment
Explain the role of President and PrimeMinister
Know the Structure of supreme court and Highcourt
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT-III
State Government and its Administration Governor - Role and Position - CM and Council of
ministers, State Secretariat: Organization, Structure and Functions
Learning outcomes:-After completion of this unit student will
Understand the structure of stategovernment
Analyze the role Governor and ChiefMinister
Explain the role of stateSecretariat
Differentiate between structure and functions of statesecretariat
UNIT-IV
A.Local Administration - District's Administration Head - Role and Importance, Municipalities -
Mayor and role of Elected Representative - CEO of Municipal Corporation PachayatiRaj:
Functions PRI: ZilaPanchayat, Elected officials and their roles, CEO ZilaPanchayat: Block level
Organizational Hierarchy - (Different departments), Village level - Role of Elected and
Appointed officials - Importance of grass root democracy
Learning outcomes:-After completion of this unit student will
Understand the localAdministration
Compare and contrast district administration role andimportance
Analyze the role of Myer and elected representatives ofMunicipalities
Evaluate Zillapanchayat block levelorganisation
UNIT-V
Election Commission: Election Commission- Role of Chief Election Commissioner and Election
Commissionerate State Election Commission:, Functions of Commissions for the welfare of
SC/ST/OBC and women
Learning outcomes:-After completion of this unit student will
Know the role of Election Commission applyknowledge
Contrast and compare the role of Chief Election commissioner andCommissiononerate
Analyze role of state electioncommission
Evaluate various commissions of viz SC/ST/OBC andwomen
References:
1. Durga Das Basu, Introduction to the Constitution of India, Prentice ? Hall of India Pvt.
Ltd.. NewDelhi
2. SubashKashyap, Indian Constitution, National BookTrust
3. J.A. Siwach, Dynamics of Indian Government &Politics
4. D.C. Gupta, Indian Government andPolitics
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
5. H.M.Sreevai, Constitutional Law of India, 4th edition in 3 volumes (Universal Law
Publication)
6. J.C. Johari, Indian Government andPoliticsHans
7. J. Raj IndianGovernment andPolitics
8. M.V. Pylee, Indian Constitution Durga Das Basu, Human Rights in Constitutional Law,
Prentice ? Hall of India Pvt. Ltd.. NewDelhi
9. Noorani, A.G., (South Asia Human Rights Documentation Centre), Challenges to Civil
Right), Challenges to Civil Rights Guarantees in India, Oxford University Press2012
resources:
1. nptel.ac.in/courses/109104074/8
2. nptel.ac.in/courses/109104045/
3. nptel.ac.in/courses/101104065/
4. www.hss.iitb.ac.in/en/lecture-details
5. www.iitb.ac.in/en/event/2nd-lecture-institute-lecture-series-indian-constitution
Course Outcomes:
At the end of the semester/course, the student will be able to have a clear knowledge on the
following:
Understand historical background of the constitution making and its importance for
building a democraticIndia.
Understand the functioning of three wings of the government ie.,executive, legislative
andjudiciary.
Understand the value of the fundamental rights and duties for becoming good citizen of
India.
Analyze the decentralization of power between central, state and localself-government.
Apply the knowledge in strengthening of the constitutional institutions like CAG,
Election Commission and UPSC for sustainingdemocracy.
1. Know the sources, features and principles of IndianConstitution.
2. Learn about Union Government, State government and itsadministration.
3. Get acquainted with Local administration and PachayatiRaj.
4. Be aware of basic concepts and developments of HumanRights.
5. Gain knowledge on roles and functioning of ElectionCommission
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
II Year-II Semester
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3
ELECTRONIC CIRCUIT ANALYSIS
Course Objectives:
The main objectives of this course are:
To learn hybrid-pi parameters at high frequency and compare with low frequency
parameters.
Learn and understand the purpose of cascading of single stage amplifiers and derive
the overall voltagegain.
Analyze the effect of negative feedback on amplifier characteristics and derive the
characteristics.
Learn and understand the basic principle of oscillator circuits and perform the analysis
of different oscillatorcircuits.
Compare and analyze different Power amplifiers like Class A, Class B, Class C, Class
AB and other types ofamplifiers.
Analyze different types of tuned amplifiercircuits.
UNIT-I Small Signal High Frequency Transistor Amplifier models:
BJT: Transistor at high frequencies, Hybrid- common emitter transistor model, Hybrid
conductance, Hybrid capacitances, validity of hybrid model, determination of high-
frequency parameters in terms of low-frequency parameters , CE short circuit current gain,
current gain with resistive load, cut-off frequencies, frequency response and gain bandwidth
product.
FET: Analysis of common Source and common drain Amplifier circuits at high frequencies.
UNIT-II
Multistage Amplifiers: Classification of amplifiers, methods of coupling, cascaded
transistor amplifier and its analysis, analysis of two stage RC coupled amplifier, high input
resistance transistor amplifier circuits and their analysis-Darlington pair amplifier, Cascode
amplifier, Boot-strap emitter follower, Differential amplifier using BJT.
UNIT -III
Feedback Amplifiers : Feedback principle and concept, types of feedback, classification of
amplifiers, feedback topologies, Characteristics of negative feedback amplifiers, Generalized
analysis of feedback amplifiers, Performance comparison of feedback amplifiers, Method of
analysis of feedback amplifiers.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Unit-IV
Oscillators: Oscillator principle, condition for oscillations, types of oscillators, RC-phase
shift and Wien bridge oscillators with BJT and FET and their analysis, Generalized analysis
of LC Oscillators, Hartley and Colpitt's oscillators using BJT, Frequency and amplitude
stability of oscillators.
UNIT-V
Power Amplifiers: Classification of amplifiers(A to H), Class A power Amplifiers, Class B
Push-pull amplifiers, Complementary symmetry push pull amplifier, Class AB power
amplifier, Class-C power amplifier, Thermal stability and Heatsinks.
Tuned Amplifiers: Introduction, Q-Factor, small signal tuned amplifier, capacitance single
tuned amplifier, double tuned amplifiers, , staggered tunedamplifiers
Text Books:
1. Integrated Electronics- J. Millman and C.C. Halkias, Tata McGraw-Hill,1972.
2. Electronic Devices and Circuits Theory ? Robert L. Boylestad and LouisNashelsky,
Pearson/Prentice Hall, Tenth Edition,2009.
3. Electronic Devices and Integrated Circuits ? B.P. Singh,Rekha , Pearson publications,
2006
References:
1. Electronic Circuit Analysis and Design ? Donald A. Neaman, McGrawHill,2010.
2. Microelectronic Circuits-Sedra A.S. and K.C. Smith, Oxford University Press,Sixth
Edition,2011.
3. Electronic Circuit Analysis-B.V.Rao, K.R.Rajeswari, P.C.R.Pantulu,K.B.R.Murthy,
PearsonPublications.
Course Outcomes:
At the end of this course the student can able to
Design and analysis ofsmall signal high frequency transistor amplifier using BJT and
FET.
Designandanalysisofmultistageamplifiersusing BJTandFETandDifferential
amplifier usingBJT.
Derive the expressions for frequency ofoscillation and condition for oscillation of
RC and LC oscillators and their amplitude and frequency stabilityconcept.
Know the classification of the power and tuned amplifiers and their analysiswith
performance comparison.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
II Year-II Semester
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3
LINEAR CONTROL SYSTEMS
Course objectives:
To introduce the concepts of open loop and closed loop systems, mathematical models
of mechanical and electrical systems, and concepts offeedback
To study the characteristics of the given system in terms of the transfer function and
introducing various approaches to reduce the overall system fornecessaryanalysis
To develop the acquaintance in analyzing the system response in time-domain and
frequency domain in terms of variousperformanceindices
To analyze the system in terms of absolute stability and relative stability by
differentapproaches
To design different control systems for different applications as pergivenspecifications
To introduce the concepts of state variable analysis, design and also the concepts of
controllability andobservability.
UNIT I
INTRODUCTION
Concepts of System,Control Systems: Open Loop and closed loop control systems and their
differences. Different examples of control systems, Feed-Back Characteristics, Effects of
feedback.Mathematical models, Differential equations, Impulse Response andtransfer
functions.Translational and Rotational mechanicalsystems
UNIT II
TRANSFER FUNCTION REPRESENTATION
Transfer Function of DC Servo motor - AC Servo motor- Synchro-transmitter and Receiver,
Block diagram representation of systemsconsidering electrical systems as examples -Block
diagram algebra? Representation by Signal flow graph - Reduction using mason'sgain formula.
TIME RESPONSEANALYSIS
Standard test signals - Time response of first order systems ? CharacteristicEquation of Feedback
control systems, Transient response of second ordersystems - Time domain specifications ?
Steady state response - Steady stateerrors and error constants.
UNIT III
STABILITY ANALYSIS IN S-DOMAIN
The concept of stability ? Routh's stability criterion ? qualitative stabilityand conditional
stability ? limitations of Routh's stability100
Root Locus Technique:
The root locus concept - construction of root loci-effects of adding polesand zeros to G(s)H(s) on
the root loci.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT IV
Frequency response analysis: Introduction, Correlation between time and frequency response,
Polar Plots, Bode Plots, Nyquist StabilityCriterion
UNIT V
CLASSICAL CONTROL DESIGN TECHNIQUES
Compensation techniques ? Lag, Lead, Lead-Lag Controllers design infrequency Domain, PID
Controllers. State Space Analysis of ContinuousSystems Concepts of state, state variables and
state model, derivation ofstate models from block diagrams, Diagonalization- Solving the
Timeinvariant state Equations- State Transition Matrix and it's Properties ?Concepts of
Controllability and Observability.
TEXT BOOKS:
1. Automatic Control Systems 8th edition? by B. C. Kuo?John wiley andson's,2003.
2. Control Systems Engineering ? by I. J. Nagrath and M. Gopal,New Age International(P)
Limited, Publishers, 2nd edition,2007
3. Modern Control Engineering?by Katsuhiko Ogata ? Pearson Publications, 5th edition,2015.
REFERENCE BOOKS:
1. Control Systems by A.Nagoorkani, RBA publications,3 edition,2017.
2. Control Systems by A.Anandkumar, PHI, 2 Edition,2014.
Course Outcomes:
This course introduces the concepts of feedback and its advantages to various
controlsystems
The performance metrics to design the control system in time-domain and frequency
domain areintroduced.
Control systems for various applications can be designed using time-domain and
frequency domainanalysis.
In addition to the conventional approach, the state space approach for the analysis of
control systems isalsointroduced.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
II Year-II Semester
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ELECTROMAGNETIC WAVES and TRANSMISSION LINES
Course objectives:
The main objectives of this course are to understand
Fundamentals of steady electric and magnetic fields using variouslaws
Apply the concept of static and time varying Maxwell equations and power flow using
pointingtheorem
Wave characteristics in different media for normal and obliqueincidence
Implement various concepts of transmission lines and impedancemeasurements
SYLLABUS:
Prerequisites: Understanding of Cartesian co-ordinates, spherical & cylindrical systems
UNIT I:
Transmission Lines - I : Types, Parameters, T& Equivalent Circuits, Transmission Line
Equations,Primary & Secondary Constants, Expressions for Characteristic Impedance,
Propagation Constant, Phase and GroupVelocities, Infinite Line, Lossless lines, distortion less
lines, Illustrative Problems.
UNIT II:
Transmission Lines ? II: Input Impedance Relations, SC and OC Lines, Reflection Coefficient,
VSWR. Low loss radio frequency lines and UHF Transmission lines, UHF Lines as Circuit
Elements; ImpedanceTransformations,/8,/4 and /2 Lines ?. Smith Chart ? Construction and
Applications, Quarter wave transformer,Single Stub Matching, Illustrative Problems.
UNIT III:
Review of Co-ordinate Systems, Electrostatics:, Coulomb's Law, Electric Field Intensity,
Electric Flux Density,Gauss Law and Applications, Electric Potential, Maxwell's Two Equations
for Electrostatic Fields, Energy Density,Illustrative Problems. Convection and Conduction
Currents, Dielectric Constant, Poisson's and Laplace's Equations; Capacitance ? Parallel Plate,
Coaxial Capacitors, Illustrative Problems.
UNIT IV:
Magneto Statics : Biot-Savart Law, Ampere's Circuital Law and Applications, Magnetic Flux
Density,Maxwell's Two Equations for Magnetostatic Fields, Magnetic Scalar and Vector
Potentials, Forces due to MagneticFields, Ampere's Force Law, Inductances and Magnetic
Energy. IllustrativeProblems.
Maxwell's Equations (Time Varying Fields): Faraday's Law and Transformer EMF,
Inconsistency of Ampere'sLaw and Displacement Current Density, Maxwell's Equations in
Different Final Forms and Word Statements.Conditions at a Boundary Surface.Illustrative
Problems.
UNIT V:
EM Wave Characteristics : Wave Equations for Conducting and Perfect Dielectric Media,
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UniformPlane Waves ? Definition, All Relations Between E & H, Sinusoidal Variations, Wave
Propagation in Lossydielectrics, lossless dielectrics, free space, wave propagation in good
conductors, skin depth, Polarization & Types,Illustrative Problems.
Reflection and Refraction of Plane Waves ? Normal and ObliqueIncidences, for both Perfect
Conductor and Perfect Dielectrics, Brewster Angle, Critical Angle and Total InternalReflection,
Surface Impedance. Poynting Vector and Poynting Theorem.Illustrative Problems.
TEXT BOOKS:
1. Elements of Electromagnetic ? Matthew N.O. Sadiku, Oxford Univ. Press, 3rd ed.,2001.
2. Electromagnetic Waves and Radiating Systems ? E.C. Jordan and K.G. Balmain, PHI,2nd
Edition,2000.
REFERENCE BOOKS:
1. Electromagnetic Field Theory and Transmission Lines ?GSN Raju, Pearson Education2006
2. Engineering Electromagnetic ? William H. Hayt Jr. and John A. Buck, TMH, 7th ed.,2006.
3. Electromagnetic Field Theory and Transmission Lines: G SasiBhushana Rao,WileyIndia
2013.
4. Networks,LinesandFieldsJohn D. Ryder,Second Edition, PearsonEducation,2015.
Course Outcomes:
At the end of this course the student can able to
Determine E and H using various laws and applications of electric & magneticfields
Apply the Maxwell equations to analyze the time varying behavior of EMwaves
Gain the knowledge in uniform plane wave concept and characteristics of uniformplane
wave invariousmedia
Calculate Brewster angle, critical angle and total internalreflection
Derive andCalculate the expressions for input impedance of transmission lines,reflection
coefficient, VSWR etc. using smithchart
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
II Year-II Semester
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3
ANALOG COMMUNICATIONS
Course Objectives:
Students undergoing this course are expected to
Familiarize with the fundamentals of analog communicationsystems.
Familiarize with various techniques for analog modulation and demodulation of
signals.
Distinguish the figure of merits of various analog modulationmethods.
Develop the ability to classify and understand various functional blocks of radio
transmitters andreceivers.
Familiarize with basic techniques for generating and demodulating various pulse
modulatedsignals.
UNIT I
AMPLITUDE MODULATION : Introduction to communication system, Need for
modulation, Frequency Division Multiplexing , Amplitude Modulation, Definition, Time
domain and frequency domain description, single tone modulation, power relations in AM
waves, Generation of AM waves, square law Modulator, Switching modulator, Detection of
AM Waves; Square law detector, Envelope detector.
UNIT II
DSB & SSB MODULATION: Double side band suppressed carrier modulators, time
domain and frequency domain description, Generation of DSBSC Waves, Balanced
Modulators, Ring Modulator, Coherent detection of DSB-SC Modulated waves, COSTAS
Loop. Frequency domain description, Frequency discrimination method for generation of
AM SSB Modulated Wave, Time domain description, Phase discrimination method for
generating AM SSB Modulated waves. Demodulation of SSB Waves, Vestigial side band
modulation: Frequency description, Generation of VSB Modulated wave, Time domain
description, Envelope detection of a VSB Wave pulse Carrier, Comparison of AM
Techniques, Applications of different AM Systems,FDM.
UNIT III
ANGLE MODULATION: Basic concepts, Frequency Modulation: Single tone frequency
modulation, Spectrum Analysis of Sinusoidal FM Wave, Narrow band FM, Wide band FM,
Constant Average Power, Transmission bandwidth of FM Wave - Generation of FM Waves,
Detection of FM Waves: Balanced Frequency discriminator, Zero crossing detector, Phase
locked loop. Comparison of FM & AM.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT IV
TRANSMITTERS & RECEIVERS: Radio Transmitter - Classification of Transmitter,
AM Transmitter, Effect of feedback on performance of AM Transmitter, FM Transmitter ?
Variable reactance type and phase modulated FM Transmitter, frequency stability in FM
Transmitter. Radio Receiver - Receiver Types - Tuned radio frequency receiver, Super hetro
dyne receiver, RF section and Characteristics - Frequency changing and tracking,
Intermediate frequency, AGC, FM Receiver, Comparison with AM Receiver, Amplitude
limiting. Communication Receivers, extensions of super heterodyne principle and additional
circuits.
UNIT V
NOISE: Review of noise and noise sources, noise figure, Noise in Analog communication
Systems, Noise in DSB& SSB System, Noise in AM System, Noise in Angle Modulation
Systems, Threshold effect in Angle Modulation System, Pre-emphasis & de-emphasis
PULSE MODULATION: Types of Pulse modulation, PAM (Single polarity, double
polarity) PWM: Generation & demodulation of PWM, PPM, Generation and demodulation of
PPM, Time Division Multiplexing, TDM Vs FDM
TEXT BOOKS:
1. Principles of Communication Systems ? H Taub & D. Schilling, Gautam Sahe,TMH,
3rd Edition,2007.
2. Principles of Communication Systems - Simon Haykin, John Wiley, 2nd Edition,2007.
3. Modern Digital and Analog Communication Systems ?B.P.Lathi,Zhi Ding,Hari Mohan
Gupta,Oxford University Press,4th Edition,2017
REFERENCES:
1. Electronics & Communication System ? George Kennedy and Bernard Davis,TMH
2004.
2. Communication Systems? R.P. Singh, SP Sapre, Second Edition TMH,2007.
3. Electronic Communication systems ? Tomasi, Pearson, fourth Edition,2007.
Course Outcomes:
After undergoing the course, students will be able to
Differentiate various Analog modulation and demodulationschemes and their
spectralcharacteristics
Analyze noise characteristics of various analog modulationmethods
Analyze various functional blocks of radio transmitters andreceivers
Design simple analog systems for various modulationtechniques.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
II Year-II Semester
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3
COMPUTER ARCHITECTURE and ORGANIZATION
Course objectives:
To understand the architecture of amodern computer with its variousprocessingunits.
Also the Performance measurement of thecomputersystem.
To understand the memory management systemofcomputer.
To Understand the various instructions, addressingmodes
To Understand the concept of I/Oorganization
UNIT -I:
Basic Structure Of Computers: Functional unit, Basic Operational concepts, Bus structures,
System Software, Performance, The history of computer development.
Machine Instruction and Programs:
Instruction and Instruction Sequencing: Register Transfer Notation, Assembly Language
Notation, Basic Instruction Types,
UNIT -II:
Addressing Modes, Basic Input/output Operations, The role of Stacks and Queues in
computer programming equation. Component of Instructions: Logic Instructions, shift and
Rotate Instructions
Type of Instructions: Arithmetic and Logic Instructions, Branch Instructions, Addressing
Modes, Input/output Operations
UNIT -III:
INPUT/OUTPUT ORGANIZATION: Accessing I/O Devices, Interrupts: Interrupt
Hardware, Enabling and Disabling Interrupts, Handling Multiple Devices, Direct Memory
Access,
Buses: Synchronous Bus, Asynchronous Bus, Interface Circuits, Standard I/O Interface:
Peripheral Component Interconnect (PCI) Bus, Universal Serial Bus (USB)
UNIT -IV:
The MEMORY SYSTEMS: Basic memory circuits, Memory System Consideration, Read-
Only Memory: ROM, PROM, EPROM, EEPROM, Flash Memory,
Cache Memories: Mapping Functions, INTERLEAVING
Secondary Storage: Magnetic Hard Disks, Optical Disks,
UNIT -V:
Processing Unit: Fundamental Concepts: Register Transfers, Performing an Arithmetic Or
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Logic Operation, Fetching A Word From Memory,Execution of Complete Instruction,
Hardwired Control,
Micro programmed Control: Microinstructions, Micro program Sequencing, Wide Branch
Addressing Microinstructions with next ?Address Field
TEXTBOOKS:
1. Computer Organization, Carl Hamacher, ZvonksVranesic, SafeaZaky, 5thEdition,
McGrawHill,2011.
2. Computer Architecture and Organization, John P. Hayes ,3rdEdition, McGrawHill,2002.
REFERENCE BOOKS:
1. Computer Organization and Architecture ? William Stallings SixthEdition,Pearson/PHI
2. Structured Computer Organization ? Andrew S. Tanenbaum, 4th EditionPHI/Pearson, 2012.
3. Fundamentals or Computer Organization and Design, - SivaraamaDandamudiSpringer
Int.Edition,2003.
4. "Computer Organization and Design: The Hardware/Software Interface" by DavidA.
Patterson and John L.Hennessy, 1998.
5. J .P. Hayes, "Computer Architecture and Organization",McGraw-Hill,1998.
Course Outcomes:
Students can understand the architecture ofmoderncomputer.
They can analyze the Performance of a computer usingperformanceequation
Understanding of differentinstructiontypes.
Students can calculate the effective address of an operand byaddressingmodes
They can understand how computer stores positive andnegativenumbers.
Understand the concepts of I/O Organization and Memorysystems.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
II Year-II Semester
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MANAGEMENT and ORGANISATIONAL BEHAVIOUR
Course Objectives:
To familiarize with the process of management, principles, leadership styles andbasic
concepts onOrganization.
To provide conceptual knowledge on functional management that is on Human resource
management and Marketingmanagement.
To provide basic insight into select contemporary management practices and Strategic
Management.
To learn theories of motivationand also deals with individual behavior, their personality
and perception ofindividuals.
To understand about organizations groups that affect the climate of anentire
organizations which helps employees in stressmanagement.
Unit I
Introduction: Management and organizational concepts of management and organization-
Nature and Importance of Management, Functions of Management, System approach to
Management - Taylor's Scientific Management Theory, Fayol's Principles of Management,
Leadership Styles, Social responsibilities of Management. Designing Organizational Structures:
Basic concepts related to Organization - Departmentation and Decentralization, MBO, Process
and concepts.
Unit II
Functional Management: Human Resource Management (HRM) Concepts of HRM, Basic
functions of HR Manager: Manpower planning, Recruitment, Selection, Training and
Development, Wage and Salary Administration Performance Appraisal, Grievance Handling and
Welfare Administration, Job Evaluation and Merit Rating. - Marketing Management: Concepts
of Marketing, Marketing mixelements and marketingstrategies.
Unit III
Strategic Management: Strategic Management and Contemporary Strategic Issues: Mission,
Goals, Objectives, Policy, Strategy, Programmes, Elements of Corporate Planning Process,
Environmental Scanning, Value Chain Analysis, SWOT Analysis, Steps in Strategy Formulation
and implementation, Generic Strategy alternatives. Bench Marking and Balanced Score Card as
Contemporary Business Strategies.
Unit IV
Individual Behavior: Perception-Perceptual process- Impression management- Personality
development ? Socialization ? Attitude- Process- Formation- Positive attitude- Change ?
Learning ? Learning organizations- Reinforcement Motivation ? Process- Motives ? Theories of
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Motivation: Maslow's Theory of Human Needs, Douglas McGregor's Theory X and Theory Y,
Herzberg's Two-Factor Theory of Motivation,
Unit V
Group Dynamics: Types of Groups, Stages of Group Development, Group Behaviour and
Group Performance Factors, Organizational conflicts: Reasons for Conflicts, Consequences of
Conflictsin
Organization, Types of Conflicts, Strategies for Managing Conflicts, Organizational Climate and
Culture, Stress, Causes and effects, coping strategies of stress.
Reference Books:
1. Subba Rao P., Organizational Behaviour, Himalaya Publishing House.Mumbai.
2. Fred Luthans Organizational Behaviour, TMH, NewDelhi.
3. Robins, Stephen P., Fundamentals of Management, Pearson,India.
4. Kotler Philip & Keller Kevin Lane: Marketing Mangement 12/e, PHI,2007
5. Koontz & Weihrich: Essentials of Management, 6/e, TMH,2007
6. Kanishka Bedi, Production and Operations Management, Oxford University Press,2007.
Course Outcomes:
After completion of the Course the student will acquire the knowledge on management
functions, global leadership and organizationalstructure.
Will familiarize with the concepts of functional management that is HRM and Marketing
of new productdevelopments.
The learner is able to think in strategically through contemporary managementpractices.
The learner can develop positive attitude through personality development and can equip
with motivationaltheories.
The student can attain the group performance and grievance handling in managing the
organizationalculture.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
II Year-II Semester
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1.5
ELECTRONIC CIRCUIT ANALYSIS LAB
Note: The students are required to design the circuit and perform the simulation using
Multisim/ Equivalent Industrial Standard Licensed simulation software tool. Further they are
required to verify the result using necessary hardware equipment.
List of Experiments :( Minimum of Ten Experiments has to be performed)
1. Determination of fT of a giventransistor.
2. Voltage-Series FeedbackAmplifier
3. Current-Shunt FeedbackAmplifier
4. RC Phase Shift/Wien BridgeOscillator
5. Hartley/ Colpitt'sOscillator
6. Two Stage RC CoupledAmplifier
7. Darlington PairAmplifier
8. Bootstrapped EmitterFollower
9. Class A Series-fed Power Amplifier
10. Transformer-coupled Class A PowerAmplifier
11. Class B Push-Pull PowerAmplifier
12. Complementary Symmetry Class B Push-Pull PowerAmplifier
13. Single Tuned VoltageAmplifier
14. Double Tuned VoltageAmplifier
Equipment required:
Software:
i. Multisim/ Equivalent Industrial Standard Licensed simulation softwaretool.
ii. Computer Systems with requiredspecifications
Hardware Required:
1. Regulated Powersupplies
2. Analog/Digital StorageOscilloscopes
3. Analog/Digital FunctionGenerators
4. DigitalMultimeters
5. Decade R?sistanceBoxes/Rheostats
6. Decade CapacitanceBoxes
7. Ammeters (Analog orDigital)
8. Voltmeters (Analog orDigital)
9. Active & Passive ElectronicComponents
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
II Year-II Semester
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1.5
ANALOG COMMUNICATIONS LAB
List of Experiments:
(Twelve experiments to be done- The students have to calculate the relevant parameters)?
(a. Hardware, b.MATLABSimulink,c. MATLAB Communication toolbox)
A.
Amplitude Modulation - Modulation &Demodulation
B.
AM - DSB SC - Modulation &Demodulation
C.
Spectrum Analysis of Modulated signal usingSpectrumAnalyzer
D.
DiodeDetector
E.
Pre-emphasis&De-emphasis
F.
Frequency Modulation - Modulation&Demodulation
G.
AGCCircuits
H.
Verification ofSamplingTheorem
I.
Pulse Amplitude Modulation&Demodulation
J.
PWM, PPM ?Modulation&Demodulation
K.
PLL IC-565 as FM demodulator
L.
Radioreceivercharacteristics
M.
Radio Receiver/TV Receiver Demo kits orTrainees.
Note: All the above experiments are to be executed/completed using hardware boards and also
to be simulated on Mat lab.
Equipment& Softwarerequired:
Software :
i)
Computer Systems withlatestspecifications
i )
Connected inLAN(Optional)
i i)
Operating system(Windows/Linuxsoftware)
iv)
Simulations software (Simulink&MATLAB)
Equipment:
1.
RPS
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0 ? 30V
2.
CRO
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0 ? 20 M Hz.
3.
FunctionGenerators
-
0 ? 1 MHz
4.
Components andBreadboards
5.
Multimeters and othermeters
6.
SpectrumAnalyzer
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - I Semester
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3
LINEAR INTEGRATED CIRCUITS and APPLICATIONS
Course objectives::
To understand the basic operation &performance parameters of differentialamplifiers.
To understand & learn the measuring techniques of performance parameters ofOp-Amp
To learn the linear and non-linear applications of operationalamplifiers.
To understand the analysis & design of different types of active filters usingop-amps
To learn the internal structure, operation and applications of different analogICs
To Acquire skills required for designing and testing integratedcircuits
UNIT I
Introduction: InternalBlock Diagram of various stages of Op-Amp and Roll of each Stage.
Differential Amplifier using BJTs and With RE DC and AC Analysis, Basic Current Mirror
Circuit, Improved Version of current mirror circuit, current repeated circuit, Wilson current
source.
OP-Amp Block Diagram (Symbolic Representation), Characteristics of Op-Amp, Ideal and
Practical Op-Amp specifications, DC and AC Characteristics, Definitions of Input and Output
Off-set voltage and currents slow rate, CMRR, PSRR.etc, Measurements of Op-Amp Parameters.
Three-Terminal Voltage Regulators 78xx& 79xx Series, current Booster,adjustable voltage, Dual
Power Supply with 78xx &79xx.
UNIT II
LINEAR and NON-LINEAR APPLICATIONS OF OP-AMPS: Inverting and Non-inverting
amplifier, Integrator and differentiator, Difference amplifier, Instrumentation amplifier,
ACamplifier, V to I, I to V converters, Buffers. Non- Linear function generation, Comparators,
Multivibrators, Triangular and Square wave generators, Log and Anti log Amplifiers, Precision
rectifiers.
UNITIII
ACTIVE FILTERS, ANALOG MULTIPLIERS AND MODULATORS: Design & Analysis
of Butterworth active filters ? 1st order, 2nd order LPF, HPF filters. Band pass, Band reject and
all pass filters.
Four Quadrant Multiplier, IC 1496, Sample & Hold circuits.
UNIT IV
TIMERS & PHASE LOCKED LOOPS: Introduction to 555 timer, functional diagram,
Monostable and Astable operations and applications, Schmitt Trigger; PLL - introduction, block
schematic, principles and description of individual blocks, 565 PLL, Applications of PLL ?
frequency multiplication, frequency translation, AM, FM & FSK demodulators. Applications of
VCO (566).
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT V
DIGITAL TO ANALOG AND ANALOG TO DIGITAL CONVERTERS: Introduction,
basic DAC techniques, weighted resistor DAC, R-2R ladder DAC, inverted R-2R DAC, and
IC 1408 DAC, Different types of ADCs ? parallel Comparator type ADC, counter type
ADC, successive approximation ADC and dual slope ADC.DAC and ADC Specifications,
Specifications AD 574 (12 bit ADC).
TEXT BOOKS:
1. Linear Integrated Circuits ? D. Roy Choudhury, New Age International (p)Ltd,
2ndEdition,2003.
2. Op-Amps & Linear ICs - Ramakanth A. Gayakwad,PHI,1987.
3. Linear Integrated Circuits by Salivahan-3rd-Edition, McGrawHill,2018
REFERENCES:
1. Operational Amplifiers & Linear Integrated Circuits ?Sanjay Sharma ;SK Kataria&
Sons; 2ndEdition,2010
2. Operational Amplifiers & Linear Integrated Circuits?R.F.Coughlin& FredrickDriscoll,
PHI, 6th Edition,2000.
3. Operational Amplifiers & Linear ICs ? David A Bell, Oxford Uni. Press, 3rd
Edition,2011.
4. LinearIntegratedCircuits,byGaneshBabuT.RandSuseelaB.Scitech, 5th-Editon, 2014.
Course Outcomes:
Design circuits using operational amplifiers for variousapplications.
Analyze and design amplifiers and active filters usingOp-amp.
Diagnose and trouble-shoot linear electroniccircuits.
Understand the gain-bandwidth concept and frequency response of the amplifier
configurations.
Understand thoroughly the operational amplifiers with linear integratedcircuits.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - I Semester
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3
MICROPROCESSOR AND MICROCONTROLLERS
Course objectives::
The main objectives of this course are
To acquire knowledge on microprocessors andmicrocontrollers.
To select processors based onrequirements.
To acquire the knowledge on interfacing various peripherals, configure and develop
programs to interfaceperipherals/sensors.
To develop programs efficiently on ARM Cortex processors anddebug.
UNIT?I
Introduction: Basic Microprocessor architecture, Harvard and Von Neumann architectures with
examples, Microprocessor Unit versus Microcontroller Unit, CISC and RISC architectures.
8086 Architecture: Main features, pin diagram/description, 8086 microprocessor family,
internal architecture, bus interfacing unit, execution unit, interrupts and interrupt response, 8086
system timing, minimum mode and maximum modeconfiguration.
UNIT?II
8086 Programming: Program development steps, instructions, addressing modes, assembler
directives, writing simple programs with an assembler, assembly language program development
tools.
UNIT-III
8086 Interfacing: Semiconductor memories interfacing (RAM, ROM), Intel 8255
programmable peripheral interface, Interfacing switches and LEDS, Interfacing seven segment
displays, software and hardware interrupt applications, Intel 8251 USART architecture and
interfacing, Intel 8237a DMA controller, stepper motor, A/D and D/A converters, Need for 8259
programmable interruptcontrollers.
UNIT-IV
Intel 8051 MICROCONTROLLER
Architecture, Hardware concepts, Input/output ports and circuits, external memory,
counters/timers, serial data input/output,interrupts.
Assembly language programming: Instructions, addressing modes, simple programs.
Interfacing to 8051: A/D and D/A Convertors, Stepper motor interface, keyboard, LCD
Interfacing, Traffic light control.
UNIT?V
ARM Architectures and Processors: ARM Architecture, ARM Processors Families, ARM
Cortex-M Series Family, ARM Cortex-M3 Processor Functional Description, functions and
interfaces.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Programmers Model ? Modes of operation and execution, Instruction set summary, System
address map, write buffer, bit-banding, processor core register summary, exceptions.
ARM Cortext-M3 programming ? Software delay, Programming techniques, Loops, Stack and
Stack pointer, subroutines and parameter passing, parallel I/O, Nested Vectored Interrupt
Controller ? functional description and NVIC programmers' model.
TEXTBOOKS:
1. Microprocessors and Interfacing ? Programming and Hardware by Douglas V Hall, SSSP
Rao, Tata McGraw Hill Education Private Limited, 3rdEdition,1994.
2. The 8051 Microcontrollers and Embedded systems Using Assembly and C, Muhammad
Ali Mazidi and Janice Gillespie Mazidi and Rollin D. McKinlay; Pearson 2-Edition,
2011.
3. The Definitive Guide to ARM Cortex-M3 and Cortex-M4 Processors by JosephYou.
REFERENCE BOOKS:
1. Embedded Systems Fundamentals with Arm Cortex-M based Microcontrollers: A
Practical Approach in English, by Dr. Alexander G. Dean, Published by Arm Education
Media,2017.
2. Cortex -M3 Technical ReferenceManual.
Course Outcomes:
At the end of this course the student will be able to:
Understand the architecture of microprocessor/ microcontroller and theiroperation.
Demonstrate programming skills in assembly language for processors andControllers.
Analyze various interfacing techniques and apply them for the design of
processor/Controller basedsystems.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - I Semester
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3
DIGITAL COMMUNICATIONS
Course Objectives:
The student will be able to
? Understand pulse digital modulation systems such as PCM, DPCM andDM.
? Understand various digital modulation techniques and able to analyze various systems for
their performance in terms of probability oferror.
? Study the concepts of information theory and need for sourcecoding.
? Study Block codes, cyclic codes and convolutioncodes.
UNIT I
PULSE DIGITAL MODULATION: Elements of digital communication systems, advantages
of digital communication systems, Elements of PCM: Sampling, Quantization & Coding,
Quantization error, Companding in PCM systems. Differential PCM systems(DPCM). Delta
modulation, its draw backs, adaptive delta modulation, comparison of PCM and DM systems,
noise in PCM and DM systems.
UNIT II
DIGITAL MODULATION TECHNIQUES: Introduction, ASK, FSK, PSK, DPSK, DEPSK,
QPSK, M-ary PSK, ASK, FSK, similarity of BFSK and BPSK.
UNIT III
DATA TRANSMISSION : Base band signal receiver, probability of error, the optimum filter,
matched filter, probability of error using matched filter, coherent reception, non-coherent
detection of FSK, calculation of error probability of ASK, BPSK, BFSK,QPSK.
UNIT IV
INFORMATION THEORY: Discrete messages, concept of amount of information and its
properties. Average information, Entropy and its properties.Information rate, Mutual information
and itsproperties.
SOURCE CODING: Introductions, Advantages, Shannon's theorem, Shanon-Fano coding,
Huffman coding, efficiency calculations, channel capacity of discrete and analog Channels,
capacity of a Gaussian channel, bandwidth ?S/N trade off.
UNIT V
LINEAR BLOCK CODES: Introduction, Matrix description of Linear Block codes, Error
detection and error correction capabilities of Linear block codes, Hamming codes, Binary cyclic
codes, Algebraic structure, encoding, syndrome calculation, BCH Codes.
CONVOLUTION CODES: Introduction, encoding of convolution codes, time domain
approach, transform domain approach. Graphical approach: state, tree and trellis diagram
decoding using Viterbi algorithm.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
TEXT BOOKS:
1. Digital communications - Simon Haykin, John Wiley,2005
2. Digital and Analog Communication Systems - Sam Shanmugam, John Wiley,2005.
REFERENCES:
1. Principles of Communication Systems ? H. Taub and D. Schilling, TMH,2003
2. Digital Communications ? John Proakis, TMH, 1983. Communication Systems Analog&
Digital ? Singh & Sapre, TMH,2004.
3. Modern Digital and Analog Communication Systems ?B.P.Lathi,Zhi Ding,Hari Mohan Gupta,Oxford
University Press,4th Edition,2017
Course Outcomes:
After going through this course the student will be able to
? Analyze the performance of a Digital Communication System for probability of error and
are able to design a digital communicationsystem.
? Analyze various source codingtechniques.
? Compute and analyze Block codes, cyclic codes and convolutioncodes.
? Design a coded communicationsystem.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - I Semester
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3
ELECTRONIC MEASUREMENTS & INSTRUMENTATION
Course Objectives:
Learn and understand functioning of various measuring system and metrics for
performance analysis.
Acquire knowledge of principle of operation, working of differentelectronic
Instruments viz. signal generators, signal analyzers, recorders and measuring
equipment.
To Compare various measuring bridges and their balancingconditions.
Learn and understand the use of various measuring techniques for measurement of
different physical parameters using different classes oftransducers.
UNIT I
Performance characteristics of instruments, Static characteristics; Accuracy, Resolution,
Precision, Expected value, Error, Sensitivity.Dynamic Characteristics; speed of response,
Fidelity, Lag and Dynamic error.Types of errors in measurements and their analysis. Design of
multi-range AC , DC meters (voltmeter &ammeter) and ohmmeter(series &shunt type) using
D'arsonval movement. True rms meter.
UNIT II
Specifications and designing aspects of Signal Generators - AFsine and square wave signal
generators, Function Generators, Random noise generators, Arbitrary waveform generators.
Wave Analyzers, Harmonic Distortion Analyzers, Spectrum Analyzers, Digital
FourierAnalyzers.
UNIT III
Oscilloscopes- general purpose CROs; block diagram , functions and implementation of
various blocks, specifications, various controls and their functions , types of probes used in
CROs. Measurement of frequency and phase difference using Lissajous patterns.
Special purpose CROs; sampling oscilloscope, analog storage oscilloscope, digital storage
oscilloscope.
UNIT IV
Bridge circuits- Wheat stone bridge, measurement of very low resistance, Measurement of
inductance- Maxwell's bridge, Anderson bridge. Measurement of capacitance-Schearing
Bridge.Wien Bridge, Errors and precautions in using bridges.
Q-meter; principle of operation, measurement methods and sources of errors.
Counters : principle of operation -modes of operation- totalizing mode, frequency mode and
time period mode- sources of errors.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT V
Transducers- active & passive transducers: Resistance, Capacitance, inductance; Strain
gauges, LVDT, Piezo Electric transducers.
Measurement of physical parameters temperature, force, pressure, velocity, acceleration and
displacement.
TEXTBOOKS :
1. Electronic instrumentation, second edition - H.S. Kalsi, Tata McGrawHill,2004.
2. Modern Electronic Instrumentation and Measurement Techniques ? A.D. Helfrickand
W.D. Cooper, PHI, 5th Edition, 2002.
REFERENCES :
1. Electronic Instrumentation & Measurements - David A. Bell, PHI, 3rd Edition,2013.
2. Electrical and Electronic Measurement and Instrumentation A.K. Sawhney. Dhanpat Rai
& Co, 12thEdition,2002.
Course Outcomes:
The student will be able to
Select the instrument to be used based on therequirements.
Understand and analyze different signal generators andanalyzers.
Understand the design of oscilloscopes for differentapplications.
Design different transducers for measurement of differentparameters.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - I Semester
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3
INFORMATION THEORY & CODING
(Professional Elective 1)
Course objectives:
The main objectives of this course are given below
Understand the concept of Entropy and sourcecoding
Understand the concept of channel and its capacity
Encoding and Decoding of Digital DataStreams
Be Aware of Compression and DecompressionTechniques
Learn the Concepts of MultimediaCommunication
UNIT I
INFORMATION THEORY AND SOURCE CODING
Uncertainty, information, entropy and its properties, entropy of binary memory less source and
its extension to discrete memory less source, source coding theorem, data compression, prefix
coding, Huffman coding, Lempel-Ziv coding, Source with memory and itsentropy.
UNIT II
DISCRETE CHANNELS
Binary Symmetric Channel, mutual information & its properties, Channel capacity, channel
coding theorem and its application to BSC, Shannon's theorem on channel capacity, capacity of
a channel of infinite bandwidth, bandwidth - S/N trade off, practical communication systems in
light of Shannon's theorem, Fading channel, channels withmemory.
UNIT III
GROUPS, FIELDS AND LINEAR BLOCK CODES
Galois field and its construction in GF(2m) and its basic properties, vector spaces and matrices in
GF(2), Linear block codes, systematic codes and its encoding circuit, syndrome and error
detection, minimum distance, error detecting and correcting capabilities of block code, decoding
circuit, probability of undetected error for linear block code in BSC, Hamming code and their
applications.
UNIT IV
CYCLIC CODES AND BCH CODES
Basic properties of Cyclic codes, Generator and parity check matrix of cyclic codes, encoding
and decoding circuits, syndrome computation and error detection, cyclic Hamming codes,
encoding and decoding of BCH codes, error location andcorrection.
UNIT V
CONVOLUTIONALCODES
Introduction to convolution code, its construction and Viterbi algorithm for maximum likelihood
decoding.Automatic repeat request strategies and their throughput efficiency considerations.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Text Books:
1. Sklar, Digital Communication, Pearson Education Asia, 2nd Edition,2001.
2. Shu Lin and Costello, Error Control Coding: Fundamentals and Applications,
2ndEdition, Pearson,2004.
Reference Books:
1. Haykin Simon, Digital Communication, Wiley Publications,2013.
2. Information theory and coding, Muralidhar Kulkarni, KS AShiva prakash,2015.
3. JS Chithode, Information theory and coding, Technical publishers, 1st Edition,2014.
Course Outcomes:
At the end of this course the student will be able to
Design an Application with Error-Controlcoding
Use Compression and DecompressionTechniques
Perform source coding and channelcoding
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - I Semester
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3
DIGITAL SYSTEM DESIGN USING HDL
(Professional Elective 1)
Course objectives:
The student will be able to
Learn and understand the architectures of Field-programmable GateArrays
Translate a software application into hardware logic for FPGAarchitectures
Design synthesizable systems based on industry-standard codingmethods
Build test benches and create data models to verify bit-true accuratedesigns.
UNIT-I
INTRODUCTION: Hardware Description Languages, FPGA Boards and Software Tools.
Field-Programmable Gate Arrays: Transistor as a Switch, Logic Gates from Switches, FPGA
Building Blocks, Layout of the Xilinx Artix-7 XC7A35T FPGA, Input/output Blocks,
Configurable Logic Blocks, Interconnect
Resources, Block RAM, DSP Slices, Clock
Management, The XADC Block, High-Speed Serial I/O Transceivers, Peripheral Component
Interconnect Express Interface, FPGA-Based Digital System Design Philosophy, How to Think
While Using FPGAs, Advantages and Disadvantages of FPGAs, Usage Areas of FPGAs
Introduction to Verilog: Verilog Fundamentals, Module Representation, Timing and Delays in
Modelling, Hierarchical Module Representation, Test bench Formation in Verilog, Structure of a
Verilog Test bench File, Displaying TestResults.
UNIT-II
VERILOG DATA TYPES AND OPERATORS: Data Types in Verilog, Net and Variable
Data Types, Data Values, Naming a Net or Variable, Defining Constants and Parameters,
Defining Vectors, Operators in Verilog, Arithmetic Operators, Concatenation and Replication
Operators, Application on Data Types and Operators, FPGA Building Blocks Used in Data
Types and Operators, Implementation Details of Vector Operations, Implementation Details of
Arithmetic Operations.
UNIT-III
COMBINATIONAL CIRCUITS: Combinational Circuit Analysis, Logic Function Formation
between Input and Output, Boolean Algebra, Gate-Level Minimization, Combinational Circuit
Implementation, Truth Table-Based Implementation, Combinational Circuit Design.
COMBINATIONAL CIRCUIT BLOCKS: Adders in Verilog, Comparators in Verilog,
Decoders in Verilog, Encoders in Verilog, Multiplexers in Verilog, Parity Generators and
Checkers in Verilog, Applications on Combinational Circuits, Implementing the Home Alarm
System, Implementing the Digital Safe System, Implementing the Car Park Occupied Slot
Counting System, FPGA Building Blocks Used in Combinational Circuits.
DATA STORAGE ELEMENTS: Latches in Verilog, Flip-Flops in Verilog, Register, Memory,
Read-Only Memory, ROM in Verilog, ROM Formation Using IP Blocks, Random Access
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Memory, Application on Data Storage Elements, FPGA Building Blocks Used in Data Storage
Elements.
UNIT-IV
SEQUENTIAL CIRCUITS: Sequential Circuit Analysis, State Table, State Diagram, State
Representation in Verilog, Timing in Sequential Circuits, Synchronous Operation, Asynchronous
Operation, Shift Register as a Sequential Circuit, Shift Registers in Verilog, Multiplication and
Division Using Shift Registers, Counter as a Sequential Circuit, Synchronous Counter,
Asynchronous Counter, Counters in Verilog, Frequency Division Using Counters, Sequential
Circuit Design, Applications on Sequential Circuits.
UNIT-V
DIGITAL INTERFACING: Universal Asynchronous Receiver/Transmitter(UART) in Verilog,
UART Applications, Serial Peripheral Interface (SPI) in Verilog, , SPI Application, Inter-
Integrated Circuit (I2C) in Verilog, , I2C Application, Video Graphics Array (VGA) in Verilog,
VGA Application, Universal Serial Bus (USB) Receiving Module in Verilog, USB Keyboard
Application, Ethernet, FPGA Building Blocks Used in Digital Interfacing.
ADVANCED APPLICATIONS: Vending Machine, Digital Clock, Moving Wave via LEDs,
Translator, Air Freshener Dispenser, Obstacle-Avoiding Tank, Intelligent Washing Machine,
Non-Touch Paper Towel Dispenser, Car Parking Sensor System. Digital Table Tennis Game.
TEXT BOOKS:
1. CemUnsalan, BoraTar"DigitalSystemDesignwithFPGAImplementationUsing
Verilog and VHDL" McGraw-Hill Education,2017
2. Design through Verilog HDL ? T.R. Padmanabhan and B. Bala Tripura Sundari, WSE,
IEEE Press,2004.
REFERENCES:
1. Advanced Digital Design with Verilog HDL ? Michael D. Ciletti, PHI,2005.
2. Fundamentals of Logic Design with Verilog ? Stephen. Brown andZvonkoVranesic,
TMH,2005.
3. A Verilog Primer ? J. Bhasker, BSP,2003.
Course Outcomes:
At the end of this course the student will be able to
Understand the architecture of FPGAs, tools used in modelling of digitaldesign
Analyze and design basic digital circuits with combinatorial and sequential logic circuits
using VerilogHDL.
Model complex digital systems at several levels ofabstractions.
Design real time applications such as vending machine and washing machinesetc.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - I Semester
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DATASTRUCTURES and ALGORITHMS
(Professional Elective 1)
Course objectives:
Explain the systematic methods of efficiently organizing and accessing data in data
structures andalgorithms.
Identify the properties and structural patterns in datastructures.
Apply abstract data types to the design of datastructures.
Analyze algorithms using a mathematical notation and experimentalstudies.
Perform comparative analysis of the typical data structures andalgorithms.
Design and analyze recursive algorithms in datastructures
UNIT ? I:
Data Structures Basics: Structure and Problem Solving, Data structures, Datastructure
Operations, Algorithm: complexity, Time- spacetrade-off.
Linked List: Introduction, Linked lists, Representation of linked lists in Memory, traversing a
linked list, Searching a linked list, Memory allocation and Garbage collection, insertion into
linked list, Deletion from a linked list, Types of linkedlist.
UNIT ? II:
Stack and Queue: Introduction, Array Representation of Stack, Linked List Representation of
stack, Application of stack, Queue, Array Representation of Queue, Linked List Representation
of Queue.
Trees: Definitions and Concepts, Operations on Binary Trees, Representation of binary tree,
Conversion of General Trees to Binary Trees, Sequential and Other Representations of Trees,
Tree Traversal.
UNIT ? III:
Graphs: Matrix Representation of Graphs, List Structures, Other Representations of Graphs,
Breadth First Search, Depth First Search, Spanning Trees. Directed Graphs Types of Directed
Graphs; Binary Relation as a Digraph; Euler's Digraphs; Matrix Representation of Digraphs.
Applications of Graphs: Topological Sorting, Shortest-Path Algorithms ? Weighted Shortest
Paths ? Dijkstra's Algorithm, Minimum spanning tree- Prim's Algorithm, Introduction to NP-
Completeness.
UNIT ? IV:
Searching and Sorting Techniques: Sorting Techniques ? Bubblesort, Merge sort, Selection
sort, Heap sort, Insertion Sort, Searching Techniques ? SequentialSearching, Binary Searching,
Search Trees.
Elementary Algorithms: Notation for Expressing Algorithms; Role and Notation for
Comments; Example of an Algorithm; Problems and Instances; Characteristics of anAlgorithm;
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KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Building Blocks of Algorithms; Procedure and Recursion ? Procedure, Recursion; Outline of
Algorithms; Specification Methods for Algorithms.
UNIT ? V:
Mathematical Functions and Notations: Functions and Notations; Modular Arithmetic / Mod
Function; Mathematical Expectation in Average Case Analysis; Efficiency of an Algorithm;
Well Known Asymptotic Functions and Notations; Analysis of Algorithms ? Simple Examples;
Well Known Sorting Algorithms ? Insertion sort, Bubble sort, Selection sort, Shell sort, Heap
sort.
Divide and Conquer: Divide and Conquer Strategy; Binary Search; Max. And Min.; Merge
sort; Quick sort. Greedy Method: Greedy Method Strategy; Optimistic Storage on Tapes;
Knapsack Problem; Job Sequencing with Deadlines; Optimal Merge Pattern; Single Source
ShortlistPaths.
Dynamic Programming: Dynamic Programming Strategy; Multistage Graphs; All Pair Shortest
Paths; Travelling Salesman Problems. Backtracking Strategy, 8-Queens Problem, Sum of
Subsets, Knapsack Problem.
TEXTBOOKS:
1. Data structures and Algorithm Analysis in C++, M. A. Weiss, 3rdEdition, Addison-
Wesley,2005.
2. Data structures in C++, Malik D.S, 2nd Edition, Cengage Learning,2009.
3. Data structures, Richard F.Gilberg andBehrouz A. Forouzan, 2nd Edition, Cengage
Learning,2007.
REFERENCE BOOKS:
1. Data Structures and Algorithms: Concepts ? Techniques and Applications, G. A. V. Pai,
1st Edition, McGraw HillEducation,2017.
2. Classic Data Structures, Debasis Samanta, 2nd Edition, PHI,2009.
3. Data structures, Seymour Lipschutz, 1st Edition, McGraw Hill Education,2014.
Course Outcomes:
At the end of the course, students will be able to
Demonstrate analytical comprehension of concepts such as abstract datatypes
Analyze various generic programmingtechniques,
Compare various sorting algorithms and perform their efficiencyanalysis.
Demonstrate the ability to analyze, design, apply and use data structures and algorithms
to solve engineering problems and evaluate theirsolutions.
Demonstrate the ability of using generic principles for data representation &
manipulation with a view for efficiency, maintainability, andcode-reuse.
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - I Semester
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SOFT COMPUTING TECHNIQUES AND PYTHON PROGRAMMING
(Professional Elective 1)
Course Objectives:
The objectives of this course include
Teach an example of scripting and interpretative language and compare it with classical
compiled programminglanguages
Introduce the student to Python programmingfundamentals
Expose students to application development and prototyping usingPython
Learn to apply fundamental problem solvingtechnique
Introduce the student to soft computing and genetic algorithms with relevantapplications
UNIT-I:
Introduction: History of Python, Need of Python Programming, how a program works,
Variables, Operators in python, type conversions, expressions, if, if-elif-else, for, while, break,
continue, pass.
UNIT ? II:
Types, Data structures and functions: Types - Integers, Strings, Booleans; Lists - Operations,
Slicing, Methods; Tuples, Sets, Dictionaries, Sequences. Comprehensions. Defining Functions,
Calling Functions, Passing Arguments, types of arguments, Anonymous Functions, Scope of the
Variables in a Function - Global and Local Variables, introduction to modules, creating modules,
name spacing.
UNIT ?III: Design with classes and GUI - Classes, 'self-variable', Methods, Constructor
Method, Inheritance, Overriding Methods, Data hiding, polymorphism, working with instances.
GUI Programming, using the tkinter module, display text with label widgets, widgets with
frames, button widgets and info dialog boxes, getting input with entry widget, check buttons,
radio buttons, Turtle Graphics.
UNIT ? IV: Introduction to soft computing and fuzzy systems: Evolutionary computing, soft
computing vs hard computing, soft computing methods, recent trends in soft computing,
characteristics of soft computing, applications of soft computing, fuzzy sets, fuzzy relations,
fuzzy logic, fuzzy rule-based systems
UNIT ? V: Genetic Algorithms: Basic concepts, basic operators for genetic algorithms,
crossover and mutation properties, genetic algorithm cycle, fitness function. Rough sets, rule
induction and discernibility matrix, integration of soft computing techniques.
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
TEXT BOOKS :
1. Kenneth A. Lambert, The Fundamentals of Python: First Programs, 2011, Cengage
learning.
2. Think Python First Edition, by Allen B. Downey, O'rielly publishing,2001.
3. Python Programming, vamsi kurama, Pearson,2017.
4. Soft Computing ? Advances and applications ? Jan 2015 by B.K. Tripathy and
J.Anuradha CengageLearning
REFERENCE BOOKS:
1. Introduction to Computation and programming using python. John v. guttag, the MIT
press, 2nd Edition,2016.
2. James Payne, beginning python using python 2.6 and python 3, Wrox publishing,2010.
Course Outcomes:
Understand and comprehend the basics of pythonprogramming.
Demonstrate the principles of structured programming and be able to describe,design,
implement, and test structured programs using currently acceptedmethodology.
Explain the use of the built-in data structures list, sets, tuples anddictionary.
Make use of functions and itsapplications.
Identify real-world applications using oops, files and exceptionhandling
provided by python.
Formulate and implement a program to solve a real-world problem using GUI and Turtle
graphics.
Understand soft computing applications
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - I Semester
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SIMULATION & MATHEMATICAL MODELING
(Professional Elective 1)
OBJECTIVE:
To introduce various system modelling and simulation techniques and highlight their
applications in different areas. It includes modelling, design, simulation, planning, verification
andvalidation.
UNIT ? I:
Introduction to Simulation
When simulation is the appropriate tool and when it is not appropriate; Advantages and
disadvantages of Simulation; Areas of application; Systems and system environment;
Components of a system; Discrete and continuous systems; Model of a system; Types of Models;
Discrete-Event System Simulation; Steps in a Simulation Study. The basics of Spreadsheet
simulation, Simulation example: Simulation of queuing systems in a spreadsheet. General
Principles, Simulation software: Concepts in Discrete-Event Simulation: The Event-Scheduling /
Time-Advance Algorithm, World Views, Manual simulation Using Event Scheduling; List
processing.
UNIT ?II:
Mathematical Models
Statistical Models in simulation ? Concepts, Discrete Distribution, Continuous Distribution,
Poisson Process, Empirical Distributions, Queuing Models ? Characteristics, Notation, Queuing
Systems, Markovian Models, Generation of Pseudo Random numbers, Properties of random
numbers, Techniques for generating random numbers, Testing random number generators,
Generating Random-Variates, Inverse Transform technique, Acceptance- Rejection technique,
Composition & Convolution Method
UNIT ? III:
Analysis of Simulation Data
Input modelling: Data Collection; Identifying the distribution with data, Parameter estimation,
Goodness of Fit Tests, fitting a non-stationary Poisson process, Selecting input models without
data, Multivariate and Time-Series input models.
Estimation of Absolute Performance: Types of simulations with respect to output analysis;
Stochastic nature of output data; Absolute measures of performance and their estimation; Output
analysis for terminating simulations; Output analysis for steady-state simulations.
UNIT ? IV:
Verification, Calibration, and Validation
Optimization: Model building, verification and validation; Verification of simulation models;
Calibration and validation of models, Optimization via Simulation
Simulation of computer systems and case studies
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Simulation tools, Model input, high level computer system simulation, comparison of systems
via simulation, simulation programming techniques, development of simulationmodels.
UNIT ? V:
Case Studies
City traffic simulation, Indoor air quality simulation of a building, machine health simulation
(DC motorhealth)
TEXTBOOKS:
1. Discrete Event System Simulation, Jerry Banks and John S. Carson II, 5thEdition,
Pearson,2010.
2. Simulation Modelling and Analysis, Averill M. Law, 4thEdition, McGraw Hill,2007.
3. Introduction to probability models, Sheldon M. Ross, 7th Edition, Academic Press,2000.
REFERENCE BOOKS:
1. Simulation, Sheldon M. Ross, 5th Edition, Elsevier,2012.
2. System Modelling and Simulation ? An Introduction, Frank L. Severance, Wiley,2001.
3. System Simulation, Geoffrey and Gordon, 2nd Edition, PHI,2002.
4. Handbook of simulation: Principles, Methodology, Advances, Applications and Practice,
Jerry Banks, 1st Edition, Wiley,1998.
Course Outcomes:
At the end of the course, students will be able to
Solve real world problems which cannot be solved strictly by mathematicalapproaches.
Understand the principles within mathematic modelling of materialsscience.
Demonstrate the ability describe the mathematical components in mechanical and thermal
analyses.
beable to describe the conditions in numerical code for solving stress loadingproblems.
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - I Semester
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1.5
LINEAR INTEGRATED CIRCUITS and APPLICATIONS LAB
List of Experiments: (Minimum Twelve Experiments to be conducted)
1. Study of OP AMPs ? IC 741, IC 555, IC 565, IC 566, IC 1496 ? functioning,parameters
andSpecifications.
2. OP AMP Applications ? Adder, Subtractor, ComparatorCircuits.
3. A. Integrator and DifferentiatorCircuits.
4. B. Waveform Generator using single OP-AMP with variable dutycycle
5. Active Filter Applications ? LPF, HPF (firstorder)
6. Active Filter Applications ? BPF, Band Reject (Wideband) and NotchFilters.
7. Oscillator Circuits ? Phase Shift and Wien Bridge Oscillators using singleOP-AMP
8. Function Generator using OPAMPs.
9. IC 555 Timer ? Monostable Operation Circuit, Astable OperationCircuit
10. Design Schmitt Trigger Circuits ? using Single OP-AMP with Referencevoltage.
11. PLL Operation and Estimation of Capture and Lockrange.
12. IC 566 ? VCOApplications.
13. Design of Dual Power Supply using 78XX and 79XX (use full wave BridgeRectifier
14. with shunt capacitancefilters.
Equipment required for Laboratories:
1. DualTRPS
2. CRO
3. Function Generators1MHz
4. Multi Meters (Digital, FET inputVoltmeters)
5. Analog IC TrainerKits
7. Bread Boards
8. Components: - IC741, IC555, IC565, IC1496, IC723, 7805, 7809, 7912,8038 and other
Essential components:
1. Analog IC Tester.
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Add on Experiments:
1. Design a 4-bit R-2R Ladder network with OP-AMP Buffer and Measure theoutput
waveform for various inputcombinations.
2. Construct Waveform Generator using 8038 for a fixed frequency and trace theoutput
waveform.
3. Design and Construct ? 12V DC Power Supply using Three terminal VoltageRegulators
7812and7912.
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - I Semester
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1.5
DIGITAL COMMUNICATIONS LAB
List of Experiments: Minimum Twelve Experiments to be conducted:
1. Time divisionmultiplexing.
2. Pulse codemodulation.
3. Differential pulse codemodulation.
4. Deltamodulation.
5. Frequency shiftkeying.
6. Phase shiftkeying.
7. Differential phase shiftkeying.
8. Companding
9. Source Encoder andDecoder
10. Linear Block Code-Encoder andDecoder
11. Binary Cyclic Code - Encoder andDecoder
12. Convolution Code - Encoder andDecoder
13. BCH Codes
Equipment required for Laboratories:
1. RPS - 0 ? 30 V
2. CRO - 0 ? 20 MHz.
3. Function Generators - 0 ? 1 MHz
4. RF Generators - 0 ? 1000 M Hz./0 ? 100 MHz.
5. Rated Voltmeters andAmmeters
6. Lab Experimental kits for DigitalCommunication
7. Components
8. Breadboards and Multimeters
9 Spectrum Analyzer
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - I Semester
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1.5
MICROPROCESSOR and MICROCONTROLLERS LAB
List of Experiments:
PART- A: (Minimum of 5 Experiments has to be performed)
8086 Assembly Language Programming and Interfacing
1. Programs for 16 -bit arithmetic operations (using Various AddressingModes).
a. Addition of n-BCDnumbers.
b. Multiplication and Divisionoperations.
2. Program for sorting anarray.
3. Program for Factorial of givenn-numbers.
4. Interfacing ADC to8086
5. Interfacing DAC to8086.
6. Interfacing stepper motor to8086.
PART-B: (Minimum of 5 Experiments has to be performed)
8051 Assembly Language Programming and Interfacing
1. Finding number of 1's and number of 0's in a given 8-bit number
2. Average ofn-numbers.
3. Program and verify Timer/ Counter in8051.
4. Interfacing Traffic Light Controller to8051.
5. UART operation in8051
6. Interfacing LCD to8051.
PART-C (Minimum of 2 Experiments has to be performed)
Conduct the following experiments using ARM CORTEX M3 PROCESSOR USING KEIL
MDK ARM
1. Write an assembly program to multiply of 2 16-bit binarynumbers.
2. Write an assembly program to find the sum of first 10 integersnumbers.
3. Write a program to toggle LED every second using timerinterrupt.
Equipment Required:
1. Regulated Powersupplies
2. Analog/Digital StorageOscilloscopes
3. 8086 Microprocessorkits
4. 8051 microcontrollerkits
5. ADCmodule
6. DACmodule
7. Stepper motormodule
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
8. Keyboardmodule
9. LED, 7-SegemtUnits
10. DigitalMultimeters
11. ROM/RAM Interfacemodule
12. Bread Boardetc.
13. ARM CORTEX M3
14. KEIL MDKARM
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - I Semester
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1.5
MINI PROJECT WITH HARDWARE DEVELOPMENT
Mini Project is introduced during V semester. The student may execute the mini project during summer vacation for
a period of 6 weeks i.e. between IV and V Semesters. The student shall submit a diary and a technical report for
evaluation. This shall be evaluated in the V semester for 50 marks by a committee consisting of external examiner,
Head of the Department along with supervisor and two senior faculty members of the Department. Mini Project
work may involve carrying out a detailed feasibility study, literature survey along with the implementation results
and preparing a work plan for major project. A student shall acquire 1.5 credits assigned, when he/she secures 40%
or more marks for the total of 50 marks. In case, if a student fails, he/she shall reappear as and when the VII
semester supplementary examinations are conducted.
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - I Semester
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ESSENCE OF INDIAN TRADITIONAL KNOWLEDGE
Course Objectives:
To facilitate the students with the concepts of Indian traditional knowledge and to make them
understand the Importance of roots of knowledge system
The course aim of the importing basic principle of third process reasoning and inference
sustainability is at the course of Indian traditional knowledgesystem
To understand the legal framework and traditional knowledge and biological diversity act
2002 and geographical indication act2003
The courses focus on traditional knowledge and intellectual property mechanism of
traditional knowledge andprotection
To know the student traditional knowledge in differentsector
Course Outcomes:
After completion of the course, students will be able to:
Understand the concept of Traditional knowledge and itsimportance
Know the need and importance of protecting traditionalknowledge
Know the various enactments related to the protection of traditionalknowledge
Understand the concepts of Intellectual property to protect the traditionalknowledge
UNIT I
Introduction to traditional knowledge: Define traditional knowledge, nature and characteristics,
scope and importance, kinds of traditional knowledge, the physical and social contexts in which
traditional knowledge develop, the historical impact of social change on traditional knowledge
systems. Indigenous Knowledge (IK), characteristics, traditional knowledge vis-?-vis indigenous
knowledge, traditional knowledge Vs western knowledge traditional knowledge vis-?-vis formal
knowledge
Learning Outcomes:
At the end of the unit, the student will able to:
Understand the traditionalknowledge.
Contrast and compare characteristics importance kinds of traditionalknowledge.
Analyze physical and social contexts of traditionalknowledge.
Evaluate social change on traditionalknowledge.
UNIT II
Protection of traditional knowledge: the need for protecting traditional knowledge Significance
of TK Protection, value of TK in global economy, Role of Government to harness TK.
Learning Outcomes:
At the end of the unit, the student will able to:
Know the need of protecting traditionalknowledge.
Apply significance of tkprotection.
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Analyze the value of tk in globaleconomy.
Evaluate role ofgovernment
UNIT III
Legal framework and TK: A: The Scheduled Tribes and Other Traditional Forest Dwellers
(Recognition of Forest Rights) Act, 2006, Plant Varieties Protection and Farmers Rights Act,
2001 (PPVFR Act);B:The Biological Diversity Act 2002 and Rules 2004, the protection of
traditional knowledge bill, 2016. Geographical indications act 2003.
Learning Outcomes:
At the end of the unit the student will able to:
Understand legal framework ofTK.
Contrast and compare the ST and other traditional forestdwellers
Analyze plant variantprotections
Evaluate farmers rightact
UNIT IV
Traditional knowledge and intellectual property: Systems of traditional knowledge protection,
Legal concepts for the protection of traditional knowledge, Certain non IPR mechanisms of
traditional knowledge protection, Patents and traditional knowledge, Strategies to increase
protection of traditional knowledge, global legal FORA for increasing protection of Indian
Traditional Knowledge.
Learning Outcomes:
At the end of the unit, the student will ableto:
Understand TK andIPR
Apply systems of TKprotection.
Analyze legal concepts for the protection ofTK.
Evaluate strategies to increase the protection ofTK.
UNIT V
Traditional knowledge in different sectors: Traditional knowledge and engineering, Traditional
medicine system, TK and biotechnology, TK in agriculture, Traditional societies depend on it for
their food and healthcare needs, Importance of conservation and sustainable development of
environment, Management of biodiversity, Food security of the country and protection of TK.
Learning Outcomes:
At the end of the unit, the student will able to:
Know TK in differentsectors.
Apply TK inengineering.
Analyze TK in varioussectors.
Evaluate food security and protection of TK in thecountry.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Reference Books:
1) Traditional Knowledge System in India, by Amit Jha,2009.
2) Traditional Knowledge System and Technology in India by Basanta Kumar Mohanta and
Vipin Kumar Singh, PratibhaPrakashan2012.
3) Traditional Knowledge System in India by Amit Jha Atlantic publishers,2002
4) "Knowledge Traditions and Practices of India" Kapil Kapoor, MichelDanino
e-Resources:
1) https://www.youtube.com/watch?v=LZP1StpYEPM
2) http://nptel.ac.in/courses/121106003/
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - II Semester
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WIRED and WIRELESS TRANSMISSION DEVICES
Course objectives:
The student will be able to
understand the applications of the electromagnetic waves in freespace.
introduce the working principles of various types ofantennas
discuss the major applications of antennas with an emphasis on how antennas are
employed to meet electronic systemrequirements.
understand the concepts of radio wave propagation in theatmosphere.
UNIT I
MICROWAVE TRANSMISSION LINES: Introduction, Microwave Spectrum and Bands,
Applicationsof
Microwaves. Rectangular Waveguides ? TE/TM mode analysis,
Expressions for Fields, Characteristic Equation and Cut-off Frequencies, Filter
Characteristics, Dominant and Degenerate Modes, Sketches of TE and TM mode fields in the
cross-section, Mode Characteristics ? Phase and Group Velocities, Wavelengths and Impedance
Relations; Power Transmission and Power Losses in Rectangular Guide, Impossibility of TEM
mode.Related
Problems, Excitation techniques-waveguides
MICROSTRIP LINES? Introduction, Z0 Relations, Effective Dielectric Constant, Losses, Q
factor
UNIT II
ANTENNA FUNDAMENTALS: Introduction, Radiation Mechanism ? single wire, 2 wire,
dipoles, Current Distribution on a thin wire antenna. Antenna Parameters - Radiation
Patterns, Patterns in Principal Planes, Main Lobe and Side Lobes, Beam widths, Polarization,
Radiation Intensity, Directivity, Gain Antenna Apertures, Aperture Efficiency, Effective
Height, illustrated Problems.
UNIT III
THIN LINEAR WIRE ANTENNAS: Retarded Potentials, Radiation from Small Electric
Dipole, Quarter wave Monopole and Half wave Dipole ? Current Distributions, Evaluation of
Field Components, Power Radiated, Radiation Resistance, Beam widths, Directivity,
Effective Area and Effective Height, Antenna Theorems ? Applicability and Proofs for
equivalence of directional characteristics, Loop Antennas: Small Loops - Field Components,
Concept of short magnetic dipole, D and Rr relations for smallloops.
ANTENNA ARRAYS: Principle of Pattern Multiplication, N element Uniform Linear
Arrays ? Broadside, End-fire Arrays, Binomial Arrays, Arrays with Parasitic Elements. Yagi-
Uda Arrays, Folded Dipoles and theircharacteristics.
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT IV
NON-RESONANT RADIATORS: Introduction, Traveling wave radiators, Long wire
antennas, Rectangular Patch Antennas ?Geometry and Parameters, Impact of different
parameters on characteristics. Helical Antennas, Geometry, basic properties
VHF, UHF AND MICROWAVE ANTENNAS: Reflector Antennas: Corner Reflectors.
Parabolic Reflectors ? Geometry, characteristics, types of feeds, F/D Ratio, Spill Over, Back
Lobes, Aperture Blocking, Cassegrain Feeds.
Horn Antennas ? Types, Optimum Horns, Lens Antennas ? Geometry, Features, Dielectric
Lenses and Zoning, Applications.
UNIT V
WAVE PROPAGATION: Concepts of Propagation ? frequency ranges and types of
propagations. Ground Wave Propagation?Characteristics, Fundamental Equation for Free-
Space Propagation, Basic Transmission Loss Calculations, Space Wave Propagation?
Mechanism, LOS and Radio Horizon, Tropospheric Wave Propagation ? Radius of Curvature
of path, Effective Earth's Radius, Effect of Earth's Curvature, Field Strength Calculations.
ANTENNA MEASUREMENTS ? Patterns, Set Up, Distance Criterion, Directivity, VSWR,
Impedance and Gain Measurements (Comparison, Absolute and 3-Antenna Methods)
TEXT BOOKS
1. Electromagnetic Waves and Radiating Systems ? E.C. Jordan and K.G. Balmain, PHI,
2nd Edition,2000.
2. Antennas and wave propagation- Sisir K Das, Annapurna Das, TMH,2013.
REFERENCES
1. Antennas ? John D. Kraus, McGraw-Hill, 2nd Edition,1988.
2. Transmission and Propagation ? E.V.D. Glazier and H.R.L. Lamont, The Services Text
Book of Radio, vol. 5, Standard Publishers Distributors,Delhi,2009.
3. Antennas and wave propagation by Prof G S N Raju, Pearsion Publications, First
impression,2016
Course Outcomes:
After going through this course the student will be able to
Identify basic antennaparameters.
Design and analyze wire antennas, loop antennas, reflector antennas, lens antennas,
horn antennas and micro stripantennas
Quantify the fields radiated by various types ofantennas
Design and analyze antennaarrays
Analyze antenna measurements to assess antenna'sperformance
Identify the characteristics of radio wavepropagation
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - II Semester
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VLSI DESIGN
OBJECTIVES:
The main objectives of this course are:
To learn the MOS Process Technology
To understand the operation of MOS devices
Understand and learn the characteristics of CMOS circuit construction.
Describe the general steps required for processing of CMOS integrated circuits.
To impart in-depth knowledge about analog and digital CMOS circuits.
UNIT-I:
INTRODUCTION AND BASIC ELECTRICAL PROPERTIES OF MOS CIRCUITS: VLSI Design Flow,
Introduction to IC technology, Fabrication process: nMOS, pMOS and CMOS. Ids versus Vds Relationships,
Aspects of MOS transistor Threshold Voltage, MOS transistor Trans, Output Conductance and Figure of Merit.
nMOS Inverter, Pull-up to Pull-down Ratio for nMOS inverter driven by another nMOS inverter, and through one
or more pass transistors. Alternative forms of pull-up, The CMOS Inverter, Latch-up in CMOS circuits, Bi-CMOS
Inverter, Comparison between CMOS and BiCMOS technology, MOS Layers, Stick Diagrams, Design Rules and
Layout, Layout Diagrams for MOS circuits
UNIT-II:
BASIC CIRCUIT CONCEPTS: Sheet Resistance, Sheet Resistance concept applied to MOS transistors and
Inverters, Area Capacitance of Layers, Standard unit of capacitance, some area Capacitance Calculations, The
Delay Unit, Inverter Delays, driving large capacitive loads, Propagation Delays, Wiring Capacitances, Choice of
layers.
SCALING OF MOS CIRCUITS: Scaling models and scaling factors, Scaling factors for device parameters,
Limitations of scaling, Limits due to sub threshold currents, Limits on logic levels and supply voltage due to noise
and current density. Switch logic, Gate logic.
UNIT-III:
BASIC BUILDING BLOCKS OF ANALOG IC DESIGN: Regions of operation of MOSFET, Modelling of
transistor, body bias effect, biasing styles, single stage amplifier with resistive load, single stage amplifier with
diode connected load, Common Source amplifier, Common Drain amplifier, Common Gate amplifier, current
sources and sinks.
UNIT-IV:
CMOS COMBINATIONAL AND SEQUENTIAL LOGIC CIRCUIT DESIGN:
Static CMOS Design: Complementary CMOS, Rationed Logic, Pass-Transistor Logic.
Dynamic CMOSDesign: Dynamic Logic-Basic Principles, Speed and Power Dissipation of Dynamic Logic,
Issues in Dynamic Design, Cascading Dynamic Gates, Choosing a Logic Style,
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Gate Design in the Ultra Deep-Submicron Era, Latch Versus Register, Latch based design, timing decimation,
positive feedback, instability,Metastability, multiplexerbased latches, Master-Slave Based Edge Triggered Register,
clock to q delay, setup time, hold time, reduced clock load master slave registers, Clocked CMOSregister. Cross
coupled NAND and NOR, SR Master Slave register, Storage mechanism, pipelining
UNIT-V:
FPGA DESIGN: FPGA design flow, Basic FPGA architecture, FPGA Technologies, Introduction to FPGA
Families.
INTRODUCTION TO ADVANCED TECHNOLOGIES: Giga-scale dilemma, Short channel effects, High?k,
Metal Gate Technology, FinFET, TFET.
TEXTBOOKS:
1. Essentials of VLSI Circuits and Systems - Kamran Eshraghian, Douglas and A. Pucknell
And SholehEshraghian, Prentice-Hall of India Private Limited, 2005 Edition.
2. Design of Analog CMOS Integrated Circuits by BehzadRazavi , McGraw Hill, 2003
3. Digital Integrated Circuits, Jan M. Rabaey, Anantha Chandrakasan and Borivoje Nikolic,2nd edition,2016.
REFERENCES:
1. "Introduction to VLSI Circuits and Systems", John P. Uyemura, John Wiley & Sons, reprint 2009.
2. Integrated Nanoelectronics: Nanoscale CMOS, Post-CMOS and Allied Nanotechnologies
Vinod Kumar Khanna, Springer India, 1st edition, 2016.
3. FinFETs and other multi-gate transistors, ColingeJP, Editor New York, Springer,2008.
OUTCOMES:
At the end of this course the student will be able to:
Demonstrate a clear understanding of CMOS fabrication flow and technology scaling.
Apply the design Rulesand draw layout of a given logic circuit.
Design MOSFET based logic circuit.
Design basic building blocks in Analog IC design.
Analyze the behaviour of amplifier circuits with various loads.
Design various CMOS logic circuits for design of Combinational logic circuits.
Design amplifier circuits using MOS transistors.
Design MOSFET based logic circuits using various logic styles like static and dynamic CMOS.
Analyze the behaviour of static and dynamic logic circuits.
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - II Semester
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DIGITAL SIGNAL PROCESSING
Course Objectives:
The student will be able to
Analyze the discrete-time signals and systems in time and frequencydomains.
Know the importance of FFT algorithm for computation of Discrete FourierTransform
Understand the various implementations of digital filterstructures
Learn the FIR and IIR Filter designprocedures
Learn the concepts of DSPProcessors
UNIT I INTRODUCTION: Introduction to Digital Signal Processing: Discrete-time
signals & sequences, Classification of discrete-time systems, stability and causality of LTI
systems, Response of LTI systems to arbitrary inputs. Solution of linear constant coefficient
difference equations. Discrete-time Fourier Transform (DTFT), Frequency domain
representation of discrete-time signals and systems. Review of Z-transforms, solution of
difference equations using Z-transforms, Systemfunction.
UNIT II DISCRETE FOURIER SERIES & FOURIER TRANSFORMS: Properties of
discrete Fourier series, DFS representation of periodic sequences, Discrete Fourier
transforms: Properties of DFT, linear filtering methods based on DFT, Fast Fourier
transforms (FFT)-Radix-2 decimation-in-time and decimation-in-frequency FFT Algorithms,
Inverse FFT, Circular convolution and linear convolution using DFT.
UNIT III DESIGNOF IIRDIGITAL FILTERS& REALIZATIONS: Analog filter
approximations ? Butterworth and Chebyshev, Design of IIR Digital filters from analog
filters, Design Examples, Analog and Digital frequency transformations. Basic structures of
IIR systems, Transposed forms.
UNIT IV DESIGN OF FIR DIGITAL FILTERS & REALIZATIONS:
Characteristics of FIR Digital Filters, Frequency response. Design of FIR Digital Filters
using Window technique and Frequency Sampling technique, Comparison of IIR & FIR
filters. Basic structures of FIR systems.
UNIT V INTRODUCTION TO DSP PROCESSORS: Introduction to programmable
DSPs: Multiplier and Multiplier Accumulator, Modified bus structures and memory access
schemes in P-DSPs, Multiple Access Memory, Multiported memory, VLIW architecture,
Pipelining, Special addressing modes, On-Chip Peripherals.
Architecture of ARM processors: Technical details of ARM Processors, Introduction to
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Cortex-M3 and cortex M4 processors - Processor type, processor architecture, instruction
set, block diagram, memorysystems.
TEXT BOOKS:
1. Digital
Signal Processing, Principles, Algorithms and Applications: John G.
Proakis, Dimitris G. Manolakis, Pearson Education/PHI,2007.
2. Discrete Time Signal Processing, A. V. Oppenheim and R. W. Schaffer,PHI,2010.
3. Digital Signal Processors, Architecture, Programming andApplications,
B.Venkataramani, M. Bhaskar, TMH,2002.
4. Digital Signal Processing Using the ARM Cortex M4, Donald S.Reay,2015.
REFERENCE BOOKS:
1 Digital Signal Processing: MH Hayes, Schaum's Outlines, TMH,2007.
2 Fundamentals of Digital Signal Processing using MATLAB ? Robert J. Schilling,Sandra
L. Harris, Thomson, 2007.
3 Digital Signal Processing, Alan V. Oppenheim, Ronald W. Schafer, PHI Ed.,2006
4 Digital Signal Processing, Tarun Kumar Rawat by OXFORD Publishers
Course Outcomes:
After going through this course the student will be able to
Formulate engineering problems in terms of DSPoperations
Analyze digital signals andsystems
Analyze discrete time signals in frequencydomain
Design digital filters and implement with differentstructures
Understand the keyarchitectural
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - II Semester
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CELLULAR & MOBILE COMMUNICATION
(Professional Elective 2)
Course Objectives:
The student will be introduced to:
?
Understand the basic cellular concepts like frequency reuse, cell splitting, cell sectoring
etc and various cellularsystems.
?
Understand the different types of interference s influencing cellular andmobile
communication.
?
Understand the frequency management, channel assignment and variouspropagation
effects in Cellularenvironment.
?
Understand the different types antennas used at cell site andmobile.
?
Understand the concepts of handoff and types ofhandoffs.
?
Understand the architectures of GSM and 3G cellularsystems.
UNIT I
CELLULAR MOBILE RADIO SYSTEMS: Introduction to Cellular Mobile System,
uniqueness of mobile radio environment, operation of cellular systems, consideration of the
components of Cellular system, Hexagonal shaped cells, Analog and Digital Cellular systems.
CELLULAR CONCEPTS: Evolution of Cellular systems, Concept of frequency reuse,
frequency reuse ratio, Number of channels in a cellular system, Cellular traffic: trunking and
blocking, Grade of Service; Cellular structures: macro, micro, pico and femto cells; Cell
splitting, Cell sectoring.
UNIT II
INTERFERENCE: Types of interferences, Introduction to Co-Channel Interference, real time
Co-Channel interference, Co-Channel measurement, Co-channel Interference Reduction Factor,
desired C/I from a normal case in a omni-directional Antenna system, design of Antenna system,
antenna parameters and their effects, diversity receiver, non-cochannel interference-different
types.
UNIT III
FREQUENCY MANAGEMENT AND CHANNEL ASSIGNMENT: Numbering and
grouping, setup access and paging channels, channel assignments to cell sites and mobile units:
fixed channel and non-fixed channel assignment, channel sharing and borrowing, overlaidcells.
CELL COVERAGE FOR SIGNAL AND TRAFFIC: Signal reflections in flat and hilly
terrain, effect of human made structures, phase difference between direct and reflected paths,
straight line path loss slope, general formula for mobile propagation over water and flatopen
area, near and long distance propagation, antenna height gain, form of a point to pointmodel.
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT IV
HANDOFF STRATEGIES:
Concept of Handoff, types of handoff, handoff initiation, delaying handoff, forced handoff,
mobile assigned handoff, intersystem handoff, soft and hard hand offs, vehicle locating methods,
dropped call rates and their evaluation.
UNIT V
DIGITAL CELLULAR NETWORKS: GSM architecture, GSM channels, multiple access
schemes; TDMA, CDMA, OFDMA.3G and 4G Wireless Standards GSM , GPRS , WCDMA ,
LTE , Wi-MAX, Introduction to 5G standards.
TEXT BOOKS:
1. Mobile Cellular Telecommunications ? W.C.Y. Lee, Tata McGraw Hill, 2nd Edn.,2006.
2. Principles of Mobile Communications ? Gordon L. Stuber, Springer International2nd
Edition,2007.
3. Advanced Wireless Communications-4G By. Savo G Glisic, John Wiley & Sons
Publication 2ndEdition
REFERENCES:
1. Wireless Communications ? Theodore. S. Rapport, Pearson education, 2nd Edn.,2002.
2. Wireless Communication and Networking ? Jon W. Mark and WeihuaZhqung, PHI,2005.
3. Fundamentals of Wireless CommunicationBy. David Tse and Pramod Viswanath,
Cambridge UniversityPress
Course Outcomes:
At the end of this course the student can able to:
Identify the limitations of conventional mobile telephone systems; understandthe
concepts of cellularsystems.
Understand the frequency management, channel assignment strategies and antennasin
cellularsystems.
Understand the concepts of handoff and architectures of various cellularsystems.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - II Semester
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DIGITAL IC DESIGN
(Professional Elective-2)
Course objectives:
The main objectives of this course are:
The student will be able to understand theMOSDesign.
In this course, students can study Combinational MOS Logic Circuits and Sequential
MOSLogicCircuits.
Another main object of this course is to motivate the graduate students to design
andto develop the Digital Integrated Circuits for differentApplications.
The concepts of Semiconductor Memories, Flash Memory, RAMarrayorganization
UNIT-I
MOS DESIGN: Pseudo NMOS Logic ? Inverter, Inverter threshold voltage, output high
voltage, Output Low voltage, gain at gate threshold voltage, Transient response, Rise time,
Fall time, Pseudo NMOS logic gates, Transistor equivalency, CMOS Inverter logic.
UNIT-II
COMBINATIONAL MOS LOGIC CIRCUITS: MOS logic circuits with NMOS loads,
Primitive CMOS logic gates ? NOR & NAND gate, Complex Logic circuits design ?
Realizing Boolean expressions using NMOS gates and CMOS gates, AOI and OIA gates,
CMOS full adder, CMOS transmission gates, Designing with Transmission gates.
UNIT-III
SEQUENTIAL MOS LOGIC CIRCUITS: Behaviour of bistable elements, SR Latch,
Clocked latch and flip flop circuits, CMOS D latch and edge triggered flip-flop.
DYNAMIC LOGIC CIRCUITS: Basic principle, Voltage Bootstrapping, Synchronous
dynamic pass transistor circuits, Dynamic CMOS transmission gate logic, High performance
Dynamic CMOS circuits.
UNIT-IV
INTERCONNECT: Capacitive Parasitics, Resistive Parasitics, InductiveParasitics, Advanced
Interconnect Techniques.
UNIT-V
SEMICONDUCTOR MEMORIES: Memory Types, RAM array organization, DRAM ?
Types, Operation, Leakage currents in DRAM cell and refresh operation, SRAM operation
Leakage currents in SRAM cells, Flash Memory- NOR flash and NANDflash.
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
TEXTBOOKS:
1. Digital Integrated Circuits ? A Design Perspective, Jan M. Rabaey,
AnanthaChandrakasan, Borivoje Nikolic,2ndEd.,PHI,2016.
2. Digital Integrated Circuit Design ? Ken Martin, Oxford UniversityPress,2011.
REFERENCES:
1. CMOS Digital Integrated Circuits Analysis and Design ? Sung-Mo Kang, Yusuf
Leblebici, TMH, 3rd Ed.,2011.
2. CMOS VLSI Design ? Neil H.E Weste, David harris, Ayan Banerjee
3rdEdition,Pearson,2006.
Course Outcomes:
At the end of this course the student will be able to:
Understand the concepts ofMOSDesign.
Design and analysis of Combinational and SequentialMOSCircuits.
Extend the Digital IC Design toDifferentApplications.
Understand the Concepts of Semiconductor
Memories, Flash Memory, RAM
arrayorganization
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - II Semester
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BUSINESS INTELLIGENCE & ANALYTICS
(Professional Elective 2)
OBJECTIVE:
To make students to extract insights from large volumes of data in various forms, by employing
statistical mathematics techniques for drawing conclusions about that information
UNIT ? I
Essentials of Data analysis - Data Collection, Data Cleansing, Data Exploration, Statistical
Analysis, Reporting, Decision
Statistical Methods: Arithmetic mean, The Arithmetic mean of grouped Data, The Median, The
mode; The variance and standard deviation, Interpretation of SD, Chebyshev's Lemma or Rule
(for sample), Skewness and Kurtosis, Skewness and its measurement, Kurtosis and its
measurements.
Probability Distribution & Statistical Inference: Elements of Probability, Random Variable,
Probability distribution/density functions (Normal, Binomial, Poisson), Point Estimate, Interval
Estimate, Testing of hypothesis
UNIT ? II
Visualization: Comparison, Distribution, Relationship, Composition, Visual Charts ? Bar chart,
Column chart, variable width column chart, Line chart, Column histogram, Line histogram,
Scatter chart, stacked column chart, stacked 100% column chart, waterfall chart, pie chart,
stacked area chart, 3D area chart, stacked 100% area chart, Bubble chart, Geometric Forms,
Pictorial Diagrams, ParetoDiagrams
Applications: Graphical representation of data from Battery health monitoring, Indoor Air
Quality, CO2 emissions by country/region (Practice using MS-Excel & R/Python)
UNIT ? III
Time series Analysis: Characteristics Movements in a time series; Time series models;
Measurement of Trend; Secular Trend; Seasonal Movements; Cyclical Movements; Irregular
Movements; Long Cycles,
Applications: Analyze the trends of population growth, global temperatures, solar radiation,
wind patterns. (Practice using MS-Excel &R/Python).
UNIT ? IV
Business Intelligence and Analytics: What is Business Intelligence and Analytics? The need for
BI and analytics, how to determine requirements, Using the BI tools for extracting insights for
data driven decisions
Microsoft Power BI - Part I: Understanding key concepts in business intelligence, data analysis,
and data visualization. Getting Started with Power BI and Analytics - Creating account, Power
BI Desktop, Working with Data - Connect, Import, Shape and Transform data, Creating
Visualization,AuthorReportsandScheduleautomatedrefreshofreports,PublishingDatatoBI
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
online, Using Quick Insights, Use natural language queries, Create real-time dashboards, Create
custom visualizations which can be re-usable in reports and dashboards, Sharing dashboard
effectively based on needs.
UNIT ? V
Microsoft Power BI - Part II: Exploring live connections to data with Power BI, connecting
directly to data bases, Introduction to Power BI Development API, Leveraging custom visuals in
Power BI, Introduction to DAX
TEXTBOOKS:
1. Statistics Concepts and applications, Nabendu pal & Sahadeb sarkar, PHI Learning Pvt.
Ltd.,2008.
2. Effective Data Visualization: The Right Chart for the Right Data 1st Edition, Dr.
Stephanie D. H. Evergreen, SAGEPublications
3. Introducing Microsoft Power BI, Alberto Ferrari and Marco Russo,2016.
REFERENCE BOOKS
1. Applied Microsoft Power BI: Bring your data to life! Teo Lachev,2015
2. Microsoft Power BI guidedlearning.
CourseOutcomes:
The student will be ableto
Understand the essentials of data analytics and the correspondingterminologies
Determine the relevance of data tobusiness
Be familiar with the steps involved in the analyticsprocess
Understand and use statistical and graphical analysis to bring insights out from thedata
Understand and use BI tools to present data in the form of Dashboards andreports
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - II Semester
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PATTERN RECOGNITION
(Professional Elective 2)
Course Objectives
To equip students with basic mathematical and statistical techniques commonly
used in Patternrecognition.
To introduce students to a variety of pattern recognitionalgorithms.
Enable students to apply machine learning concepts in real lifeproblems.
Unit I
Introduction to Pattern Recognition: Problems, applications, design cycle, learning and
adaptation, examples, Probability Distributions, Parametric Learning - Maximum likelihood and
Bayesian Decision Theory- Bays rule, discriminate functions, loss functions and Bayesian error
analysis
Unit II
Linear models: Linear Models for Regression, linear regression, logistic regression Linear
Models for Classification
Unit III
Neural Network: perception, multi-layer perception, back propagation algorithm, error surfaces,
practical techniques for improving back propagation, additional networks and training methods,
Ad boost, Deep Learning
Unit IV
Linear discriminate functions - decision surfaces, two-category, multi-category, minimum-
squared error procedures, the Ho-Kashyap procedures, linear programming algorithms, Support
vector machine
Unit V
Algorithm independent machine learning ? lack of inherent superiority of any classifier, bias
and variance, re-sampling for classifier design, combining classifiers
Unsupervised learning and clustering ? k-means clustering, fuzzy k-means clustering,
hierarchical clustering
TEXT BOOKS:
1. Richard O. Duda, Peter E. Hart, David G. Stork, "Pattern Classification", 2nd Edition
John Wiley & Sons,2001.
2. Machine learning by Saikat Dutt, S. Chandramouli and A.K.Das , Pearson
publishing,2018.
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
REFERENCE BOOKS:
1. C. Bishop, "Pattern Recognition and Machine Learning", Springer,2006
2. Trevor Hastie, Robert Tibshirani, Jerome H. Friedman, "The Elements of Statistical
Learning", 2nd Edition, Springer,2009.
Course Outcomes:
At the end of this course, students will be able to
Study the parametric and linear models forclassification
Design neural network and SVM forclassification
Develop machine independent and unsupervised learningtechniques.
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - II Semester
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ROBOTICS and AUTOMATION
(Professional Elective 2)
OBJECTIVE:
To impart knowledge about basic mathematics related to industrial robots for their control,
design and application in robotics & automationIndustries.
UNIT ? I
Introduction to Robotics
Types and components of a robot, classification of robots
Study components of an industrial robot (PUMA, KUKA, FANUC, MTAB, UR, etc.) and its DH
parameters.
UNIT ? II
Robot Kinematics and Dynamics:
Kinematic Modelling: Translation and Rotation Representation, Coordinate transformation, DH
parameters, Forward and inverse kinematics, Jacobian, Singularity, and Statics.
Dynamic Modelling: Forward and inverse dynamics, Equations of motion using Euler-Lagrange
formulation, Newton Euler formulation.
Sensors
Sensor: Contact and Proximity, Position, Velocity, Force, Tactile etc. Introduction to Cameras,
Camera calibration, Geometry of Image formation, Euclidean / Similarity / Affine / Projective
transformations, Vision applications in robotics
UNIT ? III
Robot Actuation Systems
Actuators: Electric, Hydraulic and Pneumatic; Transmission: Gears, Timing Belts and Bearings,
Parameters for selection of actuators.
Robot Control:
Robot control, Independent joint control, PD and PID feedback, actuator models, nonlinearity of
manipulator models, issues in nonlinear control, force feedback, hybrid control, Motion
Planning, Obstacle avoidance, configuration space, road map methods, graph search algorithms,
potential fieldmethods
UNIT ? IV
Control Hardware and Interfacing:
Embedded systems: Microcontroller Architecture and integration with sensors, actuators,
components, Programming Applications for Industrial robot - programming in ? VAL II
Case Study: Bin Picking in Industrial Warehouse.
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT ? V
AI in Robotics:
Applications in unmanned systems, defence, medical, industries, Robotics and Automation for
Industry 4.0 Robot safety and social robotics
TEXTBOOKS:
1. Introduction to Robotics ? Mechanics and Control, John J. Craig, 3rd Edition, Pearson
Prentice Hall,2004.
2. Industrial Robots, Groover M. P. and Ashish Dutta, McGrawHill,2012
3. Robots Dynamics & Control, Spong M. W. and Vidyasagar M., John Wiley & Sons
(ASIA) PteLtd.
REFERENCE BOOKS
1. Introduction to Robotics: Analysis, Control, Applications, Saeed B. Niku, 3rdEdition,
Wiley,2019
2. Robotics Engineering, R. Klafter,PHI.
3. Robotics, Subir K. Saha, McGrawHill.
Course Outcomes:
The student will be able to:
Perform kinematic and dynamic analyses withsimulation.
Design control laws for a simplerobot.
Integrate mechanical and electrical hardware for a real prototype of roboticdevice.
Select a robotic system for given industrialapplication.
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - II Semester
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Data Mining
Open Elective (OE1)
Course objectives:
The main objectives of this course are:
Students will be enabled to understand and implement classical models and algorithms in
data warehousing and datamining.
They will learn how to analyze the data, identify the problems, and choose the relevant
models and algorithms to apply.
They will further be able to assess the strengths and weaknesses of various methods and
algorithms and to analyze theirbehavior.
UNIT?I:
INTRODUCTION: Need of Data Warehouse, Need and Usage of Data Mining Technologies,
Types of Data and Patterns to be mined, In Real Time Applications. Brief Introduction of Pattern
Recognition: Pattern, Feature, Database Query Vs Mining, Curse of Dimensionality, Need for
Efficiency. Major Issues in Data Mining. Data Objects and Attribute Types, Basic Statistical
Descriptions of Data, Data Visualization, Measuring Data Similarity and Dissimilarity
UNIT?II:
DATA PRE-PROCESSING: Data Preprocessing: An Overview, Data Cleaning, Data
Integration, Data Reduction, Data Transformation and Data Discretization
UNIT?III:
CLASSIFICATION: Basic Concepts, General Approach to solving a classification problem,
Decision Tree Induction: Working of Decision Tree, building a decision tree, methods for
expressing an attribute test conditions, measures for selecting the best split, Algorithm for
decision tree induction. Bayes' Theorem, Na?ve Bayesian Classification, Bayesian Belief
Networks
UNIT?IV:
ASSOCIATION ANALYSIS: BASIC CONCEPTS AND ALGORITHMS: Problem
Defecation, Frequent Item Set generation, Rule generation, compact representation of frequent
item sets, FP-Growth Algorithm. (Tan &Vipin)
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT?V:
CLUSTER ANALYSIS: BASIC CONCEPTS AND ALGORITHMS: OVERVIEW: Basics
and Importance of Cluster Analysis, Clustering techniques, Different Types of Clusters; K-
means: The Basic K-means Algorithm, K-means Additional Issues, Bisecting K-means,
Strengths and Weaknesses; Agglomerative Hierarchical Clustering: Basic Agglomerative
Hierarchical Clustering Algorithm DBSCAN:Traditional Density Center-Based Approach,
DBSCAN Algorithm, Strengths and Weaknesses. (Tan&Vipin)
TEXT BOOKS:
1. Introduction to Data Mining: Pang-Ning Tan & Michael Steinbach, Vipin Kumar,Pearson.
2. Data Mining concepts and Techniques, 3/e, Jiawei Han, Michel Kamber,Elsevier.
REFERENCE BOOKS:
1. Data Mining Techniques and Applications: An Introduction, Hongbo Du, CengageLearning.
2. Data Mining:VikramPudi and P. Radha Krishna,Oxford.
3. Data Mining and Analysis - Fundamental Concepts and Algorithms; Mohammed J.Zaki,
Wagner Meira, Jr,Oxford
4. Data Warehousing Data Mining & OLAP, Alex Berson, Stephen Smith,TMH.
5. http://onlinecourses.nptel.ac.in/noc18_cs14/preview
(NPTEL course by Prof.PabitraMitra)
6. http://onlinecourses.nptel.ac.in/noc17_mg24/preview
(NPTEL course by Dr. Nandan Sudarshanam& Dr. Balaraman Ravindran)
http://www.saedsayad.com/data_mining_map.htm
Course Outcomes:
At the end of this course the student will be able to:
Understand Data MiningPrinciples
Identify appropriate data mining algorithms to solve real world problems
Compare and evaluate different data mining techniques like classification, prediction,
clustering and association rulemining
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - II Semester
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POWER ELECTRONICS
Open Elective (OE1)
Course objectives:
The main objectives of this course are:
? To study the characteristics of various power semiconductor devices and gate drivecircuits.
? To understand the operation of single phase full?wave converters and analyze harmonics in the
inputcurrent.
? To study the operation of three phase full?waveconverters.
? To understand the operation of different types of DC-DCconverters.
? To understand the operation of inverters and application of PWM techniques forvoltage
control and harmonicmitigation.
UNIT?I:
Power Semiconductor Devices: Operation of SCR, power MOSFET and power IGBT and their
characteristics?Gate drive circuits for SCR, IGBT and MOSFET-protection circuits for power
IGBT and power MOSFETs.
UNIT?II:
AC-DC Single-Phase Converters: 1-phase fully-controlled bridge rectifiers feeding R load,
RL, RLE loads (continuous and discontinuous current conduction mode of operation)? 1-phase
semi-controlled bridge rectifiers feeding R, RL and RLE loads (continuous and discontinuous
current conduction mode of operation)? HarmonicAnalysis.
UNIT?III:
AC-DC Three-Phase Converters: 3-phase Full converter feeding R, RL and RLE loads
(continuous current conduction mode only)? 3-phase semi-converter feeding R, RL and RLE
loads (continuous current conduction mode only)?Harmonic analysis -Dual converter.
UNIT?IV:
DC?DC Converters: Analysis of Buck, boost, buck-boost converters in Continuous
Conduction Mode (CCM) and Discontinuous Conduction Modes (DCM) ? Output voltage
equations using volt-sec balance in CCM & DCM- output voltage ripple & inductor current
ripple for CCM only ? Principle operation of forward and fly back converters inCCM.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT ? V:
DC?AC Converters and AC-AC converters: 1- phase half-bridge and full bridge inverters
with R and RL loads ? Unipolar and bipolar switching-Quasi-square wave pulse width
modulation-3-phase square wave inverters ? 1200 conduction and 1800 conduction modes of
operation ? Sinusoidal pulse width modulation ?single-phase Current Source Inverter (CSI)-
single-phase AC-AC voltage regulator with R and RLload.
TEXT BOOKS:
1. Power Electronics: converters, applications & design -by Nedmohan, Tore M.Undeland,
Robbins by Wiley India Pvt.Ltd.
2. Power Electronics- by Daniel W.Hart, Mc Graw Hillpublications
3. Power Electronics: Circuits, Devices and Applications ? by M. H. Rashid, Prentice Hallof
India
REFERENCE BOOKS:
1. Power Electronics: Essentials & Applications by L.Umanand, Wiley, Pvt. Limited, India,2009
2. Elements of Power Electronics?Philip T.Krein. Oxfordpublishers.
3. Power Electronics ? by P.S.Bhimbra, KhannaPublishers.
Course Outcomes:
At the end of this course the student will be able to:
Explain the characteristics of various power semiconductor devicesand understand the
gate drivercircuits.
Explain the operation of single-phase full wave converters and performharmonic
analysis.
Explain the operation of three phase full?wave converters and performharmonic
analysis.
Analyze the operation of different types of DC-DCconverters.
Explain the operation of inverters and application of PWM techniques for voltagecontrol
and harmonicmitigation.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - II Semester
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MEMS and its applications
Open Elective (OE1)
Course objectives:
To introduce the basic concepts of micro systems and advantages ofminiaturization.
To study the various materials and their properties used for micromachiningtechniques.
To analyze the fundamentals of micromachining and micro fabricationtechniques.
To impart knowledge ofthe basic concept of electromechanical effects, thermal effects
Micro fluidics and Integratedfluidicsystems.
To study the fundamentals of pressure sensors and accelerometer sensors throughdesign
andmodeling.
UNIT I: Overview of MEMS and Microsystems: MEMS and Microsystems, Typical MEMS and
Microsystem products, Evolution of Microfabrication, Microsystem and Microelectronics, The
Multidisciplinary nature of microsystem design and manufacture, Microsystem and
Miniaturization. Application of Microsystems in the automotive industry, Application of
Microsystems in other industries: Health care industry, Aerospace industry, Industrial products,
Consumer products, Telecommunications. Markets for Microsystems.
UNIT II: Working Principles of Microsystems: Introduction, Microsensors: Acoustic Wave
Sensors, Biomedical sensors and Biosensors, Chemical sensors, Pressure sensors, Thermal
sensors. Micro actuation: Actuation using thermal forces, shaped memory alloys, Piezoelectric
crystals, Electrostatic forces. MEMS with Micro actuators: Microgrippers, Micromotors,
Microvalves, Micropumps, Micro accelerators, Microfluidics.
UNIT III: Scaling Laws in Miniaturization: Introduction to scaling, Scaling in Geometry,
Scaling in Rigid-Body Dynamics, Scaling in Electrostatic Forces, Scaling in Electromagnetic
Forces, Scaling in Electricity, Scaling in Fluid Mechanics, Scaling in Heat Transfer.
Materials for MEMS and Microsystems: Introduction, Substrates and wafers, Active substrate
materials, Silicon as a substrate material. Silicon compounds, Silicon piezo resistors, Gallium
Arsenide, Quartz, Piezoelectric crystals, Polymers, Packing materials.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT IV: Micro system Fabrication Process: Photolithography, Ion Implantation, Diffusion,
Oxidation,ChemicalVapourDeposition,PhysicalVapourDeposition,DepositionbyEpitaxy,
Etching.
Overview of Micro manufacturing and Applications: Bulk Micro manufacturing- any one
example of application, Surface Micromachining- any one example of application. LIGA
Process- any one example of application.
UNIT V:Applications of MEMS-Switching: Introduction, Switch parameters, Basics of
switching, Mechanical switches, Electronic switches for RF and microwave applications,
Mechanical RF switches, PIN diode RF switches.
Text Books:
1. Tai-Ran Hsu, "MEMS and Microsystems: Design and Manufacture", Tata McGraw Hill,
(2002).
2. Gabriel M. Rebeiz, "RF MEMS Theory, Design and Technology", Wiley India PvtLtd.
Reference Books:
1. Stephen D. Senturia, "Microsystem Design", Springer International Edition,(2010).
2. Mohamed Gad-el-Hak, "The MEMS Handbook", CRC Press,(2002).
3. Chang Liu, "Foundations of MEMS", Second Edition, PearsonPublication.
E-resources:
1. https://nptel.ac.in/courses/117105082/4
2. https://ocw.mit.edu/courses/electrical-engineering-and-computer-science/6-777j-design-
and-fabrication-of-microelectromechanical-devices-spring-2007/lecture-notes/
3. https://www.edx.org/course/micro-nanofabrication-mems-epflx-memsx-0
Course Outcomes:
Understand the basic overview of MEMS and Microsystems with broad category ofMEMS
& Micro systemapplications.
Understanding the working principles ofMicrosystems
Understand the Scaling Laws in Miniaturization and Materials for MEMS andMicrosystems
Understand the Micro system Fabrication Process and Analyze the different Micro
manufacturing process andApplications.
Study and Analyze the different types of RF switches, Various Switching Mechanismand
theirapplications..
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - II Semester
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3
Artificial Neural Networks
Open Elective (OE1)
Course objectives:
The main objectives of this course are:
To provide an introduction to thefield of artificial neural networks and machinelearning.
To teach students how to solve practical problems via implementation of these techniques
via simulation.
To promote further independent learning on the topics of artificial neural networks and
machinelearning.
UNIT-I:
INTRODUCTION: History of Neural Networks, Structure and Functions of Biological and
Artificial Neuron, Neural Network Architectures, Characteristics of ANN, Basic Learning Laws
and Methods.
UNIT-II:
SUPERVISED LEARNING: Single Layer Neural Network and architecture, McCulloch-Pitts
Neuron Model, Learning Rules, Perceptron Model, Perceptron Convergence Theorem, Delta
learning rule, ADALINE, Multi-Layer Neural Network and architecture, MADALINE, Back
Propagation learning, Back Propagation Algorithm.
UNIT-III:
UNSUPERVISED LEARNING-1: Outstar Learning, Kohenen Self Organization Networks,
Hamming Network And MAXNET, Learning Vector Quantization, Mexican hat.
UNIT-IV:
UNSUPERVISED LEARNING-2: Counter Propagation Network -Full Counter Propagation
network, Forward Only Counter Propagation Network, Adaptive Resonance Theory (ART) -
Architecture, Algorithms.
UNIT V:
ASSOCIATIVE MEMORY NETWORKS: Introduction, Auto Associative Memory, Hetero
Associative Memory, Bidirectional Associative Memory(BAM) -Theory and Architecture, BAM
Training Algorithm, Hopfield Network: Introduction, Architecture of Hopfield Network.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
TEXT BOOKS:
1. B. Yegnanarayana" Artificial neural networks" PHI, New Delhi.
2. S.N. Sivanandam, S.N. Deepa, "Introduction to Neural Networks using MATLAB6.0",
TATA MCGraw- Hillpublications.
3. J.M. Zurada," Introduction to Artificial neural systems" ?Jaicopublishing.
REFERENCE BOOKS:
1. S.Rajasekaran and G.A.Vijayalakshmipai "Neural Networks.Fuzzy Logicand genetic
Algorithms".
2. James A Freeman and Davis Skapura" Neural Networks Algorithm, applications and
programming Techniques", Pearson Education,2002.
3. Simon Hakins "Neural Networks " PearsonEducation.
Course Outcomes:
At the end of this course the student will be able to:
Survey of attractive applications of Artificial NeuralNetworks.
practically approach for using Artificial Neural Networks in various technical,
organizational and economicapplications
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - II Semester
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3
INTERNET OF THINGS
Course Objectives:
To learn and understand elements of IoTsystem.
Acquire knowledge about various protocols ofIoT.
To learn and understand design principles and capabilities ofIoT.
UNIT I: Introduction to IoT
Introduction to IoT, Architectural Overview, Design principles and needed capabilities, Basics of
Networking, M2M and IoT Technology Fundamentals- Devices andgateways, Data
management, Business processes in IoT, Everything as a Service (XaaS), Role ofCloud in IoT,
Security aspects inIoT.
UNIT II: Elements of IoT
Hardware Components- Computing- Arduino, Raspberry Pi, ARM Cortex-A class processor,
Embedded Devices ? ARM Cortex-M class processor, Arm Cortex-M0 Processor Architecture,
Block Diagram, Cortex-M0 Processor Instruction Set, ARM and Thumb Instruction Set.
UNIT III: IoT Application Development
Communication, IoT Applications, Sensing, Actuation, I/O interfaces.
Software
Components-
Programming
API's
(using
Python/Node.js/Arduino)
for
CommunicationProtocols-MQTT, ZigBee, CoAP, UDP, TCP, Bluetooth.
Bluetooth Smart Connectivity
Bluetooth overview, Bluetooth Key Versions, Bluetooth Low Energy (BLE) Protocol, Bluetooth,
Low Energy Architecture, PSoC4 BLE architecture and Component Overview.
UNIT IV: Solution framework for IoT applications
Implementation of Device integration, Data acquisitionand integration, Device data storage-
Unstructured data storage on cloud/local server,Authentication, authorization of devices.
UNIT V: IoT Case Studies
IoT case studies and mini projects based on Industrial automation, Transportation,
Agriculture,Healthcare, HomeAutomation.
Text Books:
1. Raj Kamal, "Internet of Things: Architecture and Design Principles", 1st Edition,
McGraw Hill Education,2017.
2. The Definitive Guide to the ARM Cortex-M0 by JosephYiu,2011
3. Vijay Madisetti, ArshdeepBahga, Internet of Things, "A Hands on Approach",
UniversityPress,2015.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
References:
1. Cypress Semiconductor/PSoC4 BLE (Bluetooth Low Energy) Product TrainingModules.
2. Pethuru Raj and Anupama C. Raman, "The Internet of Things: EnablingTechnologies,
Platforms, and Use Cases", CRC Press,2017.
Course Outcomes:
The student will be able to:
Understand internet of Things and its hardware and softwarecomponents.
Interface I/O devices, sensors &communicationmodules.
Remotely monitor data and controldevices.
Design real time IoT basedapplications
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - II Semester
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1.5
VLSI LAB
List of Experiments
PART (A): FPGA Level Implementation (Any Seven Experiments)
Note 1: The students need to develop Verilog /VHDLSource code, perform simulation using
relevant simulator and analyze the obtained simulation results using necessary
Synthesizer.
Note 2: All the experiments need to be implemented on the latest FPGA/CPLD Hardware in the
Laboratory
1. Realization of Logic gates
Design and Implementation of the following:
2. 4-bit ripple carry and carry look ahead adder using behavioural, dataflow and structural modeling
3. a) 16:1 mux through 4:1 mux
b) 3:8 decoder realization through 2:4 decoder
4. 8:3 encoder
5. 8-bit parity generator and checker
6. Flip-Flops
7. 8-bit synchronous up-down counter
8. 4-bit sequence detector through Mealy and Moore state machines.
EDA Tools/Hardware Required:
1. EDA Tool that supports FPGA programming including Xilinx Vivado /Altera (Intel)/
Cypress/Equivalent Industry standard tool along with corresponding FPGA hardware.
2. Desktop computer with appropriate Operating System that supports the EDA tools.
PART (B): Back-end Level Design and Implementation (Any Five Experiments)
Note: The students need to design the following experiments at schematic level using CMOS
logic and verify the functionality. Further students need to draw the corresponding
layout and verify the functionality including parasites. Available state of the art
technology libraries can be used while simulating the designs using Industry standard
EDA Tools.
Design and Implementation of the following
a. Universal Gates
b. An Inverter
2. Full Adder
3. Full Subtractor
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
4. Decoder
5. D-Flip-flop
EDA Tools/Hardware Required:
Mentor Graphics Software / Cadence/Synopsys/Tanner or Equivalent Industry Standard/CAD Tool.
Desktop computer with appropriate Operating System that supports the EDA tools.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - II Semester
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1.5
DIGITAL SIGNAL PROCESSING LAB
(Note: Students have to perform at least FOUR experiments from each part.)
PART-A
List of the Experiments
1. Generation of DTsignals.
2. Verify the Linear Convolution of two DT signals
a) UsingMATLAB
b) Using Code ComposerStudio(CCS)
3. Verify the Circular Convolution of two DTsignals
a) UsingMATLAB
b) Using Code ComposerStudio(CCS)
4. Find the sum of DT sinusoidalsignals.
5. Computation of Discrete Fourier Transform (DFT) and Inverse DiscreteFourier
Transform(IDFT)
a) UsingMATLAB
b) Using Code ComposerStudio(CCS)
6. Transfer Function Stability Analysis: using pole-zero plot, bode plot and Nyquist
plot.
PART-B
Following Experiments are to be done using a TI DSP Starter Kit.
7. Generation of a sinusoidalsignal.
8. Linear and circular convolution of DTsequences.
9. Compute N-point DFT of a given DTsequence.
10. Design and implementation of FIRfilters.
11. Design and implementation of IIRfilters.
PART-C
Following Experiments are to be done using Cypress FM4 Starter Kit.
12. Verification of samplingtheorem.
13. Implementation of FFTalgorithm.
14. Implementation of FIRfilters.
15. Implementation of IIRfilters.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
III Year - II Semester
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Intellectual Property Rights (IPR) & Patents
UNIT I
Introduction to Intellectual Property Rights (IPR): Concept of Property - Introduction to IPR ?
International Instruments and IPR - WIPO - TRIPS ? WTO -Laws Relating to IPR - IPR Tool
Kit - Protection and Regulation - Copyrights and Neighboring Rights ? Industrial Property ?
Patents - Agencies for IPR Registration ? Traditional Knowledge ?Emerging Areas of IPR -
Layout Designs and Integrated Circuits ? Use and Misuse of Intellectual PropertyRights.
UNIT II
Copyrights and Neighboring Rights: Introduction to Copyrights ? Principles of Copyright
Protection ? Law Relating to Copyrights - Subject Matters of Copyright ? Copyright Ownership
? Transfer and Duration ? Right to Prepare Derivative Works ?Rights of Distribution ? Rights of
Performers ? Copyright Registration ? Limitations ? Infringement of Copyright ? Relief and
Remedy ? Case Law - Semiconductor Chip ProtectionAct.
UNIT III
Patents: Introduction to Patents - Laws Relating to Patents in India ? Patent Requirements ?
Product Patent and Process Patent - Patent Search - Patent Registration and Granting of Patent -
Exclusive Rights ? Limitations - Ownership and Transfer ?? Revocation of Patent ? Patent
Appellate Board - Infringement of Patent ? Compulsory Licensing ?? Patent Cooperation Treaty
? New developments in Patents ? Software Protection and Computer relatedInnovations
UNIT IV
Trademarks: Introduction to Trademarks ? Laws Relating to Trademarks ? Functions of
Trademark ? Distinction between Trademark and Property Mark ? Marks Covered under
Trademark Law - Trade Mark Registration ? Trade Mark Maintenance ? Transfer of rights -
Deceptive Similarities
Likelihood of Confusion - Dilution of Ownership ? Trademarks Claims and Infringement ?
Remedies ? Passing Off Action.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT V
Trade Secrets & Cyber Law and Cyber Crime: Introduction to Trade Secrets ? General Principles
- Laws Relating to Trade Secrets?
Maintaining Trade Secret ? Physical Security ? Employee Access Limitation ? Employee
Confidentiality Agreements ? Breach of Contract ?Law of Unfair Competition ? Trade Secret
Litigation ? Applying State Law.
Cyber Law ? Information Technology Act 2000 - Protection of Online and Computer
Transactions ?
E-commerce - Data Security ? Authentication and Confidentiality - Privacy - Digital Signatures
? Certifying Authorities - Cyber Crimes - Prevention and Punishment ? Liability of Network
Providers.
References:
1) Intellectual Property Rights (Patents & Cyber Law), Dr. A. Srinivas. Oxford University
Press, NewDelhi.
2) Deborah E.Bouchoux: Intellectual Property, Cengage Learning, NewDelhi.
3) PrabhuddhaGanguli: Intellectual Property Rights, Tata Mc-Graw ?Hill, NewDelhi
4) Richard Stim: Intellectual Property, Cengage Learning, NewDelhi.
5) Kompal Bansal &Parishit Bansal Fundamentals of IPR for Engineers, B. S. Publications
(Press).
6) Cyber Law - Texts & Cases, South-Western's Special TopicsCollections.
7) R.Radha Krishnan, S.Balasubramanian: Intellectual Property Rights, Excel Books. New
Delhi.
8) M.Ashok Kumar and MohdIqbal Ali: Intellectual Property Rights, SerialsPub.
Course Outcomes:
IPR Laws and patents pave the way for innovative ideas which are instrumental for
inventions to seekPatents
Student get an insight on Copyrights, Patents and Software patents which are instrumental
for furtheradvancements
advanced Technical and Scientific disciplines
Imparting IPR protections and regulations for further advancement, so that the students
can familiarize with the latestdevelopments
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
IV Year - I Semester
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MICROWAVE and OPTICAL COMMUNICATION ENGINEERING
Course Objectives:
The student will able to
Understand fundamental characteristics of waveguides and Micro strip lines through
electromagnetic fieldanalysis.
Understand the basic properties of waveguide components and Ferrite materials
composition
Understand the function, design, and integration of the major microwave components
oscillators, poweramplifier.
Understand a Microwave test bench setup formeasurements.
UNIT I
MICROWAVE TUBES (Qualitative treatment only): Cavities, Re-entrant Cavities, Two
Cavity Klystrons-Structure, Velocity Modulation and Bunching process, Reflex Klystrons-
Structure, principle of working.
HELIX TWTS: Significance, Types and Characteristics of Slow Wave Structures; Structure of
TWT.
M-TYPE TUBES
Introduction, Cross-field effects, Magnetrons ? 8-Cavity Cylindrical Travelling
Wave
Magnetron.
MICROWAVE SOLID STATE DEVICES: Introduction, Classification, Applications. TEDs ?
Introduction, Gunn Diode ? Principle, RWH Theory, Characteristics, LSA Mode of operation
UNIT II
WAVEGUIDE COMPONENTS AND APPLICATIONS- I (Qualitative treatment only):
Waveguide Attenuators ? Resistive Card, Rotary Vane types, Scattering matrix parameters:
Definition, Properties, Salient Features -S- parameters of two port, three port, four port
networks. 2 Hole, Bethe Holetypes.
UNIT III Over view of optical fiber communication, Total Internal Reflection, Numerical
Aperture, Graded index fibers, Cut off wavelength.
OPTICAL FIBER CONNECTORS-Connector types, Single mode fiber connectors, Connector
return loss, Fiber Splicing- Splicing techniques, Splicing single mode fibers, Multimode fiber
joints, single mode fiber joints.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT I V
OPTICAL SOURCES and Detectors: Qualitative treatment, Structures, Materials, Quantum
efficiency, Physical principles and comparison of: Optical sources and detectors, Related
problems.
Optical system design- Point to point links ? Component Choice and considerations, Link power
budget, Line coding in Optical links, WDM, Necessity, Principles, Eye pattern.
UNIT ?V: MEASUREMENTS:
a. MICROWAVE MEASUREMENTS: Description Of Microwave Bench- Different Blocks,
Microwave Power Measurement- Bolometer Method. Measurement of Attenuation by Reflection
Method, VSWR, ImpedanceMeasurement
b. OPTICAL MEASUREMENTS: OTDR, Attenuation, DetectorCharacteristics
TEXT BOOKS :
1. Microwave Devices and Circuits ? Samuel Y. Liao, PHI, 3rdEdition,1994.
2. Foundations for Microwave Engineering ? R.E. Collin, IEEE Press, John Wiley,2nd
Edition,2002.
3. Optical Fiber Communications ? Gerd Keiser, Mc Graw-Hill International edition,3rd
Edition,2000.
REFERENCES :
1. Microwave Engineering- Annapurna Das and Sisir K.Das, Mc Graw HillEducation,
3rdEdition,2014.
2. Microwave Engineering ? G S N Raju , I K International Publishing House Pvt.
Limited,2008.
3. Fiber Optic Communication Systems ? Govind P. Agarwal , John Wiley, 3rd Ediition,
2004.
Course Outcomes: After going through this course the student will be able to
Design different modes in waveguidestructures
Calculate S-matrix for various waveguide components and splitting the microwave
energy in a desireddirection
Distinguish between Microwave tubes and Solid State Devices, calculation of efficiency
devices.
Measure various microwave parameters using a Microwave testbench
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
IV Year - I Semester
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DATA COMMUNICATIONS & COMPUTER NETWORKS
Course Objectives:
To introduce the Fundamentals of data communicationnetworks
To demonstrate the Functions of various protocols of Data linklayer.
To demonstrate Functioning of various Routingprotocols.
To introduce the Functions of various Transport layer protocols.
To understand the significance of application layerprotocols
UNIT I:
Introduction to Data Communications: Components, Data Representation, Data Flow, Networks-
Distributed Processing, Network Criteria, Physical Structures, Network Models, Categories of
Networks Interconnection of Networks, The Internet - A Brief History, The Internet Today, Protocol
and Standards - Protocols, Standards, Standards Organizations, Internet Standards. Network Models,
Layered Tasks, OSI model, Layers in OSI model, TCP/IP Protocol Suite, Addressing Introduction,
Wireless Links and Network Characteristics, WiFi: 802.11 Wireless LANs -The 802.11 Architecture,
UNIT II:
Data Link Layer: Links, Access Networks, and LANs- Introduction to the Link Layer, The Services
Provided by the Link Layer, Types of errors, Redundancy, Detection vs Correction, Forward error
correction Versus Retransmission Error-Detection and Correction Techniques, Parity Checks, Check
summing Methods, Cyclic Redundancy Check (CRC) , Framing, Flow Control and Error Control
protocols , Noisy less Channels and Noisy Channels, HDLC, Multiple Access Protocols, Random
Access ,ALOHA, Controlled access, Channelization Protocols. 802.11 MAC Protocol, IEEE 802.11
Frame.
UNIT III:
The Network Layer: Introduction, Forwarding and Routing, Network Service Models, Virtual
Circuit and Datagram Networks-Virtual-Circuit Networks, Datagram Networks, Origins of VC and
Datagram Networks, Inside a Router-Input Processing, Switching, Output Processing, Queuing, The
Routing Control Plane, The Internet Protocol(IP):Forwarding and Addressing in the Internet-
Datagram format, Ipv4 Addressing, Internet Control Message Protocol(ICMP), IPv6
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT IV:
Transport Layer: Introduction and Transport Layer Services : Relationship Between Transport and
Network Layers, Overview of the Transport Layer in the Internet, Multiplexing and Demultiplexing,
Connectionless Transport: UDP -UDP Segment Structure, UDP Checksum, Principles of Reliable
Data Transfer-Building a Reliable Data Transfer Protocol, Pipelined Reliable Data Transfer
Protocols, Go-Back-N(GBN), Selective Repeat(SR), Connection Oriented Transport: TCP - The TCP
Connection, TCP Segment Structure, Round-Trip Time Estimation and Timeout, Reliable Data
Transfer, Flow Control, TCP Connection Management, Principles of Congestion Control - The Cause
and the Costs of Congestion, Approaches to CongestionControl
UNIT V:
Application Layer: Principles of Networking Applications ? Network Application Architectures,
Processes Communicating, Transport Services Available to Applications, Transport Services
Provided by the File Transfer: FTP,- FTP Commands and Replies, Electronic Mail in the Internet-
STMP, Comparison with HTTP, DNS-The Internet's Directory Service ? Service Provided by DNS,
Overview of How DNS Works, DNS Records andmessages.
TEXT BOOKS:
1. Computer Networking A Top-Down Approach ? Kurose James F, Keith W, 6thEdition ,
Pearson,2017.
2. Data Communications and Networking Behrouz A.Forouzan4th Edition McGraw Hill
Education,2017.
REFERENCES:
1. Data communication and Networks - Bhusan Trivedi, Oxford university press,2016
2. Computer Networks -- Andrew S Tanenbaum, 4th Edition, PearsonEducation,2003.
3. Understanding Communications and Networks,3rdEdition,W.A.Shay,CengageLearning,2003.
Course Outcomes:
Upon completing this course, the student will be able to
Know the Categories and functions of various Data communication Networks
Design and analyze various error detectiontechniques.
Demonstrate the mechanism of routing the data in networklayer
Know the significance of various Flow control and Congestion controlMechanisms
Know the Functioning of various Application layerProtocols.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
IV Year - I Semester
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3
DIGITAL IMAGE and VIDEO PROCESSING
Course Objectives:
To study the image fundamentals and mathematical transforms necessary for image
Processing.
To study the image enhancement techniques
To study image restoration procedures.
To study the image compression procedures.
To study the basics of Video processing and 2-D Motion estimation
UNIT I:
Fundamentals of Image Processing and Image Transforms:
Introduction, Image sampling, Quantization, Resolution, Image file formats, Elements of image
processing system, Applications of Digital image processing. Introduction, Need for transform,
image transforms, Fourier transform, 2 D Discrete Fourier transform and its transforms,
Importance of phase, Walsh transform, Hadamard transform, Haar transform, slant transform
Discrete cosine transform, KL transform, singular value decomposition, comparison of different
image transforms.
UNIT II:
Image Enhancement:
Spatial domain methods: point processing techniques, Histogram processing, Fundamentals of
Spatial filtering, smoothing spatial filters, sharpening spatial filters. Frequency domain methods:
Basics of filtering in frequency domain, image smoothing, image sharpening, Selective filtering.
Image Restoration:
Introduction to Image restoration, Image degradation, Types of image blur, Classification of
image restoration techniques, Image restoration model, Linear and Nonlinear image restoration
techniques, Blind de-convolution.
UNIT III:
Image Segmentation:
Introduction to image segmentation, Point, Line and Edge Detection, Region based
segmentation., Classification of segmentation techniques, Region approach to image
segmentation, clustering techniques, Image segmentation based on thresholding, Edge based
segmentation, Edge detection and linking, Hough transform.
Image Compression:
Introduction, Need for image compression, Redundancy in images, Classification of redundancy
in images, image compression scheme, Classification of image compression schemes,
Fundamentals of information theory, Run length coding, Shannon ? Fano coding, Huffman
coding, Arithmetic coding, Predictive coding, Transformed based compression, Image
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
compression standard, Wavelet-based image compression, JPEG Standards.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT IV:
Basic Steps of Video Processing:
Analog Video, Digital Video. Time-Varying Image Formation models: Three-Dimensional
Motion Models, Geometric Image Formation, Photometric Image Formation, Sampling of Video
signals, filtering operations.
UNIT V:
Motion Estimation: Optical flow, General Methodologies, Pixel Based Motion Estimation,
Block-Matching Algorithm, Mesh based Motion Estimation, Global Motion Estimation, Region
based Motion Estimation, Multi resolution motion estimation, Waveform based coding, Block
based transform coding, Predictive coding, Application of motion estimation in Videocoding.
TEXT BOOKS
1. Digital Image Processing ? Gonzaleze and Woods, 3rdEd,Pearson,2008.
2. Digital Video Processing ? M. Tekalp, Prentice Hall International.2ndEd.2015.
REFERENCE BOOKS
1. Digital Image Processing ? S.Jayaraman, S.Esakkirajan, T.Veera Kumar ? TMH,2009.
2. Video Processing and Communication ? Yao Wang, JoemOstermann and Ya?quin
Zhang.1st Ed., PH Int,2017
3. Digital Image Processing and Analysis-Human and Computer Vision Applicationwith
CVIP Tools ? ScotteUmbaugh, 2nd Ed, CRC Press,2011.
Course Outcomes:
Defining the digital image, representation of digital image, importance of image
resolution, applications in imageprocessing.
Know the advantages of representation of digital images in transform domain, application
of various imagetransforms.
Know how an image can be enhanced by using histogram techniques, filtering techniques
etc
Understand image degradation, image restoration techniques using spatial filtersand
frequencydomain
Know the detection of point, line and edges in images, edge linking through local
processing, globalprocessing.
Understand the redundancy in images, various image compressiontechniques.
Know the video technology from analog color TV systems to digital video systems,how
video signal is sampled and filtering operations in videoprocessing.
Know the general methodologies for 2D motion estimation, various coding used invideo
processing.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
IV Year - I Semester
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3
COMMUNICATION STANDARDS and PROTOCOLS
(Professional Elective 3)
Objective:
Acquire knowledge about transferring data into cloud using variousWired/Wireless
communicationtechnologies.
Prerequisites:
Basic knowledge on Digital numbering system; Micro Controller Peripheral Programming,
interfacing different types of sensors using I2C,SPI, UART ; wired and wireless
communications.
Unit-I:
Introduction to Communication and Networking : Communications, Signal Types and its
characteristics (Analog/Digital), Data Transmission Types (Serial/Parallel), Communication
Techniques (Asynchronous, Synchronous),Data Transmission Modes (Simplex, Half/Full
Duplex), Network Topologies (Star, Ring, Mesh, Point to Point, Tree, Bus, Daisy chain, Multi
drop) and its applications, Modulation need and types.
Unit-II:
OSI Layers: Communication Layers and its applications, Communication media (Twisted Pair,
Coaxial, Fiber Optics), Introduction to Errors (Error types, Detection, Correction) and Flow
Control and its applications.
Unit-III:
Wired Communication Protocols: Ethernet (Types, Socket, MAC, IP, ARP, ICMP, TCP,
UDP, DHCP), CAN, Mod-bus(RTU, ASCII), UART (RS485,RS232), OFC and Advantages,
Disadvantages and its applications, Introduction to Dial up Modems, Leased line modems.
Unit-IV:
Wireless Communication Protocols: Zigbee, Bluetooth, Wi-Fi, GPRS, GSM , NFC , IR,
Satellite Communication. Advantages, Disadvantages and its applications.
Unit-V:
Network Types: Introduction to LAN,WAN,PAN, Internet and Intranet, sensor networks
(wired/wireless) and its applications.
Network Security :Introduction to NAT, PAT, DNS, Network Routing algorithms, Introduction
to Switch, Hub, Bridges and its working, Network Security and Introduction to Firewall and its
applications.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Text books:
1. Introduction to data communication and networking by Wayne Tomasi, PearsonPrentice
Hall,2005
2. Introduction to data communication and networking by Behrouz Forouzan ,4thEdition
McGraw HillEducation,2017.
3. Basics of data communications by WilliamStallings.
Reference books:
1. Basics of computer networking by Thomas Robertazzi Stony BrookUniversity,2011
2. Wireless Networking Absolute Beginner's Guide by MichaelMiller:
3. Designing and Deploying 802.11n Wireless Networks by Jim Geier 2nd Edition, Kindle
Edition.
4. CAN System Engineering from Theory to Practical Applications,2nd
Edition,Springer,2013
Course Outcomes:
Able to develop sensornetworks
Able to communicate data via Wired/Wirelesscommunication
Configure and test communicationtechnologies
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
IV Year - I Semester
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3
ANALOG IC DESIGN
(Professional Elective 3)
Course Objectives:
The student will be able to
Understand the behavior of MOS Devices and Small-Signal & Large-Signal Modeling of
MOS Transistor and AnalogSub-Circuits.
Learn and understand CMOS Amplifiers like Differential Amplifiers, Cascode
Amplifiers, Output Amplifiers, and OperationalAmplifiers.
Design and Develop the Analog CMOS Circuits for different Analogoperations.
Learn and understandthe concepts of Open-Loop Comparators and Different Types of
Oscillators like Ring Oscillator, LC Oscillatoretc.
UNIT -I:
MOS Devices and Modelling: The MOS Transistor, Passive Components- Capacitor &
Resistor, Integrated circuit Layout, CMOS Device Modelling - Simple MOS Large-Signal
Model, Other Model Parameters, Small-Signal Model for the MOS Transistor, Computer
Simulation Models, Sub-threshold MOSModel.
UNIT -II:
Analog CMOS Sub-Circuits: MOS Switch, MOS Diode, MOS Active Resistor, Current Sinks
and Sources, Current Mirrors-Current mirror with Beta Helper, Degeneration, Cascode current
Mirror and Wilson Current Mirror, Current and Voltage References, Band gap Reference.
UNIT -III:
CMOS Amplifiers: Inverters, Differential Amplifiers, Cascode Amplifiers, Current Amplifiers,
Output Amplifiers, High Gain Amplifiers Architectures.
CMOS Operational Amplifiers: Design of CMOS Op Amps, Compensation of Op Amps,
Design of Two-Stage Op Amps, Power- Supply Rejection Ratio of Two-Stage Op Amps,
Cascode Op Amps, Measurement Techniques of OP Amp.
UNIT -IV:
Comparators: Characterization of Comparator, Two-Stage, Open-Loop Comparators, Other
Open-Loop Comparators, Improving the Performance of Open-Loop Comparators, Discrete-
Time Comparators.
UNIT -V:
Oscillators & Phase-Locked Loops: General Considerations, Ring Oscillators, LC Oscillators,
Voltage Controlled Oscillators.
Simple PLL, Charge Pump PLLs, Non-Ideal Effects in PLLs, Delay Locked Loops,
Applications.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
TEXT BOOKS:
1. Design of Analog CMOS Integrated Circuits-
Behzad Razavi,
TMH
Edition,SecondEdition.
2. CMOS Analog Circuit Design - Philip E. Allen and Douglas R. Holberg, Oxford
University Press, International Second Edition/Indian Edition,2010.
REFERENCES:
1. Analysis and Design of Analog Integrated Circuits- Paul R. Gray, Paul J. Hurst, S. Lewis
and R. G. Meyer, Wiley India, Fifth Edition,2010.
2. Analog Integrated Circuit Design- David A.Johns, Ken Martin, Wiley Student Edn,2013.
Course Outcomes:
After going through this course, the student will be able to
Model and simulate different MOS Devices using small signalModel.
Design and analyze any Analog Circuits in real timeapplications.
Apply the concepts Analog Circuit Design to develop various Applications in RealTime.
Analyze and comparedifferentOpen-Loop Comparators andOscillators.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
IV Year - I Semester
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3
SMART SENSORS
(Professional Elective 3)
OBJECTIVE:
To make student to acquire the knowledge on types of sensors/transducers, working principles,
selection procedure, applications of sensing systems
UNIT ? I
Introduction to Measurement: Measurement units, applications, elements, choosing
appropriate measuring instruments. Instrument Types and Performance Characteristics: Review
of instrument types, Static characteristics, dynamiccharacteristics
Error during measurement process: Sources of systematic error, reduction and quantification
of systematic errors, random errors, aggregation of measurement system errors.
Calibration: Calibration of measuring instruments, Primary calibration, secondary calibration
and field calibration. Calibration methods for different parameters (temperature, pressure,
humidity, flow...etc.). Automatic Calibration mechanisms.
UNIT ? II
Temperature Sensors: Thermo-resistive, Resistance Temperature Detectors, Silicon Resistive,
Thermistors, Semiconductor, Optical, Acoustic, Piezoelectric
Humidity and Moisture Sensors: Capacitive, Electrical Conductivity, Thermal Conductivity,
Optical Hygrometer, Time Domain Reflectometer.
Pressure and Force Sensors: Mercury Pressure, Bellows, Membranes, and Thin Plates,
Piezoresistive, Capacitive, Optoelectronic, Vacuum, Strain Gauges, Tactile, Piezoelectric Force
Applications: Case studies in processing industries, indoor environment monitoring in offices,
cold storages
UNIT ? III
Occupancy and Motion Detectors: Ultrasonic, Microwave Motion, Capacitive Occupancy,
Visible and Near-Infrared Light, Far-Infrared Motion, PIR Motion, Position, Displacement, and
Level Sensors: Potentiometric, Gravitational, Capacitive, Inductive and Magnetic, Optical,
Ultrasonic, Radar
Velocity and Acceleration Sensors: Capacitive Accelerometers, Piezoresistive Accelerometers,
Piezoelectric Accelerometers, Thermal Accelerometers, Heated-Plate Accelerometer, Heated-
Gas Accelerometer, Gyroscopes, Piezoelectric Cables
Applications: Case studies in manufacturing industries, robotics
UNIT ? IV
Flow Sensors: Pressure Gradient Technique, Thermal Transport, Ultrasonic, Electromagnetic,
and Micro flow, Coriolis Mass Flow, Acoustic Sensors: Resistive Microphones, Fiber-Optic,
Piezoelectric, Solid-State microphone, Light & Radiation Sensors: Photodiodes, Phototransistor,
Photo resistors, Thermal detectors
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Chemical Sensors: Metal-Oxide Chemical, ChemFET, Electro-chemical, Potentiometric,
Conduct metric, Amperometric, Optical Chemical, Mass Detector
Applications: Case studies in processing industries, oil and gas industries, water SCADA,
pharmaceutical industries
UNIT ? V
Introduction to wireless sensor networks, Challenges for wireless sensor networks,
Applications for wireless sensor networks, enabling technologies for wireless sensor networks.
Single node architecture ? Hardware components, Energy consumption of Sensor nodes (only
Operation states with different power consumption, Relationship between computation and
communication, Power consumption of sensor and actuators is included), Deployment
environments
Sensor Network Architecture - Sensor Network Scenarios, Optimization goals and figures of
merit, Design principles of WSN, Service interfaces of WSNs, Gateway-concepts.
TEXT BOOKS:
1. Measurement and Instrumentation Principles - Morris, AlanS
2. An Introduction to Error Analysis by John R.Taylor
3. Sensor Technology Handbook, John S.Wilson
4. Holger Karl & Andreas Willig, "Protocols and Architectures for Wireless Sensor
Networks" John-Wiley,First-Edition-2014.
REFERENCE BOOKS
1. Mechanical Measurements ? Beckwith, Marangoni,Lienhard
2. Measurement of Systems - Application and design - Earnest O.Doeblin
3. Electronic Instrumentation and Measurement Technique - Albert DHelfrick
4. Kazem Sohraby, Daniel Minoli, &Taieb Znati, "Wireless Sensor Networks- Technology,
Protocols, AndApplications", John Wiley,2007.
Course Outcomes :The student will be able to
Understand measuring parameters, measuring systems, effects ofenvironment,
characteristics and parameters to be considered for designing aninstrument
Understand different types of sensors/transducers, working principles,selection
procedure, applications of sensingsystems
Understand Challenges and applications of sensors and sensornetworks
Select a sensor/sensing system for arequirement
Test, install and collect the data from a group ofsensors.
Derive sensor-based solution for differentapplications.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
IV Year - I Semester
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3
ADVANCED DIGITAL SIGNAL PROCESSING
(Professional Elective 3)
Course Objectives:
The main objectives of the course are
To study about discrete time systems and to learn about FFTalgorithms.
To study the design techniques for FIR and IIR digitalfilters
To study the finite word length effects in signalprocessing
To study the properties of random signal, Multirate digital signal processing andabout
QMFfilters
UNIT ?I: Review of DFT, FFT, IIR Filters and FIR Filters: Introduction to filter structures (IIR
& FIR). Implementation of Digital Filters, specifically 2nd Order Narrow Band Filter and 1st
Order All Pass Filter. Frequency sampling structures of FIR, Lattice structures, Forward
prediction error, Back ward prediction error, Reflection coefficients for lattice realization,
Implementation of lattice structures for IIR filters, Advantages of lattice structures.
UNIT - II: Non-Parametric Methods: Estimation of spectra from finite duration observation of
signals, Nonparametric Methods: Bartlett, Welch & Blackman-Tukey methods, Comparison of
all Non-Parametricmethods
UNIT ? III: Parametric Methods: Autocorrelation & Its Properties, Relation between auto
correlation & model parameters, AR Models ? Yule-Walker & Burg Methods, MA & ARMA
models for power spectrum estimation, Finite word length effect in IIR digital Filters ? Finite
word-length effects in FFT algorithms.
UNIT ?IV: Multi Rate Signal Processing: Introduction, Decimation by a factor D, Interpolation
by a factor I, Sampling rate conversion by a rational factor I/D, Multistage Implementation of
Sampling Rate Conversion, Filter design & Implementation for sampling rate conversion.
Examples of up-sampling using an All Pass Filter.
UNIT ?V: Applications of Multi Rate Signal Processing: Design of Phase Shifters, Interfacing
of Digital Systems with Different Sampling Rates, Implementation of Narrow Band Low Pass
Filters, Implementation of Digital Filter Banks, Sub-band Coding of Speech Signals, Quadrature
Mirror Filters, Transmultiplexers, Over Sampling A/D and D/AConversion.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
TEXT BOOKS:
1. J.G.Proakis & D. G. Manolakis, "Digital Signal Processing: Principles, Algorithms &
Applications", 4th Edition,PHI,2008.
2. Alan V Oppenheim & Ronald W Schaffer, "Discrete Time signal processing ", PHI. 2nd
Edition,1999.
3. Emmanuel C. Ifeacher, Barrie. W. Jervis, "DSP ? A Practical Approach", 2nd Edition,
PearsonEducation,2000.
REFERENCE BOOKS:
1. S. M .Kay, "Modern spectral Estimation: Theory & Application ", 1988,PHI.
2. P.P.Vaidyanathan, "Multi Rate Systems and Filter Banks", PearsonEducation.
3. Kaluri V. Rangarao, Ranjan K. Mallik, "Digital Signal Processing: A Practitioner's
Approach", ISBN: 978-0-470-01769-2, 210 pages, November 2006 JohnWeley.
4. S.Salivahanan, A.Vallavaraj, C.Gnanapriya, "Digital Signal Processing",2000,TMH
Course Outcomes:
On completion of the course, students will be able to:
Comprehend the DFT, FFT and IIRfilters.
To study the modern digital signal processing algorithms andapplications.
Have an in-depth knowledge of use of digital systems in real timeapplications
Acquire the basics of multi rate digital signal processing and apply the algorithms for
wide area of recentapplications.
Analyze the power spectrum estimation and Comprehend the Finite word length effects
in Fixed point DSPSystems.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
IV Year - I Semester
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3
AUGMENTED REALITY
(Professional Elective 3)
OBJECTIVE:
The course is designed to impart the fundamentals of augmented reality (AR), and teach how to
build an AR experience.
UNIT ? I:
Introduction to Augmented Reality: Definition and Scope, a brief history of Augmented Reality,
Examples, Other related fields: Virtual Reality, Mixed Reality Continuum, Ubiquitous
Computing.
Understanding Virtual Space: Defining visual space and content, defining position and
orientation in three dimensions, navigation
UNIT ? II:
Understanding human senses and their relationship to Output/Input Devices: The mechanics of
sight ? visual pathway, spatial vision and depth cues, The mechanics of hearing, mechanics of
feeling, Multimodal displays, Visual perception, Requirements and Characteristics, Spatial
display model, Visual displays
UNIT ? III:
Sensors for tracking position, orientation and motion ? Tracking, calibration and registration,
coordinate systems, characteristics of tracking technology, Stationary tracking systems, Mobile
sensors, optical tracking, sensor fusion, Computer vision for augmented reality ? market
tracking, multiple-camera infrared tracking, natural feature tracking by detection, incremental
tracking, simultaneous localization and mapping, outdoortracking
Devices to enable navigation and interaction ? 2D versus 3D interaction and navigation, the
importance of a manual interface, hand and gesture tracking, whole body tracking, gaming and
entertainment interfaces, navigating with mind.
UNIT ? IV:
Software architectures ? AR application requirements, software engineering requirements,
Distributed object systems, dataflow, scene graphs, developer support.
Applications of Augmented and Virtual Reality: Gaming and Entertainment, Architecture and
construction, Health and medicine, Aerospace and defence, education, information control and
big data visualization, Tele-robotics and telepresence.
UNIT ? V:
Human factors, legal and social considerations ? human factor considerations, legal and social
considerations, The future of AR ? what may drive business cases, an AR developer's wish list,
taking AR outdoors, interfacing with smart objects, confluence of VR and AR, augmented
humans, AR as dramatic medium, AR as social computing platform.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
TEXTBOOKS:
1. Augmented Reality ? Principles and Practice, Dieter Schmalstieg and Tobias H?llerer, 1st
Edition,Addison-Wesley
2. Practical Augmented Reality ? A guide to the technologies, applications, and human
factors for AR and VR, Steve Aukstakalnis, 1st Edition,Addison-Wesley
3. Understanding Augmented Reality, Concepts and Applications, Alan B. Craig,1st
Edition, Morgan Kaufman
REFERENCE BOOKS:
1. Handbook of Virtual Environments: Design, Implementation, and Applications, Kelly S.
Hale and Kay M. Stanney, 2nd Edition, CRCPress
2. Designing Virtual Systems: The Structured Approach, Gerard Jounghyun Kim,Springer
3. Spatial Augmented Reality: Merging Real and Virtual Worlds, Oliver Bimber and
Ramesh Raskar, 1st Edition, A K Peters/CRC press.
Course Outcomes:
At the end of the course, students will
Understand the basics of AugmentedReality
Understand human senses and their relationship todevices
Understand various application scenarios of AR
Understand softwarearchitecture
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
IV Year - I Semester
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3
SOFTWARERADIO
(Professional Elective4)
Pre-requisite(s): Basic knowledge of signal processing, concepts in wireless Communication
and networks.
Course Objectives: This course enables the students to:
Understand the basic components of software definedradio.
Understand the distortion parameters and nonlinear Distortion in TransmittedSignals.
Calculate power requirement in power amplifier forSDR.
Understand Digital Pre-distortion Techniques for Linear/NonlinearDistortion.
Appraise Digital Pre-distortionTechniques.
UNIT 1: Basic components of software defined radios, Software defined radio architectures Part
A, Software defined radio architectures- Part B.
UNIT 2: Distortion parameters, Sources and metrics of distortion in a transceiver, Nonlinear
distortion and nonlinearity specifications, Power amplifiers: Nonlinear Distortion in Transmitted
Signals.
UNIT 3: Power amplifier Line-up for linearity & power requirement calculations, Linearization
Techniques for nonlinear distortion in SDR.
UNIT 4: Predistortion Techniques for nonlinear distortion in SDR.
UNIT 5: Digital Predistortion Techniques for Linear/Nonlinear Distortion.
Textbook:
1. Jeffrey H. Reed "Software Radio: A Modern Approach to radio Engineering", Pearson
EducationAsia,2002
References:
1. Sanjay Kumar, "Wireless Communication the Fundamental and AdvancedConcepts"
River Publishers, Denmark, 2015 (Indianreprint)
2. https://onlinecourses.nptel.ac.in/noc18_ec01/preview.
Course Outcomes: After the completion of this course, students will be to:
Able to analyze the basic components of software definedradio.
Demonstrate understanding about distortion parameters and nonlinear Distortionin
TransmittedSignals
Able to calculate power requirement in power amplifier forSDR
Demonstrate understanding about Digital Pre-distortion Techniques forLinear/Nonlinear
Distortion
Design and analyze the various algorithms used for software definedradio.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
IV Year - I Semester
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3
LOW POWER VLSI DESIGN
(Professional Elective 4)
Course Objectives:
Known the low power low voltage VLSIdesign
Understand the impact of power onsystemperformances.
Known about differentDesignapproaches.
Identify suitable techniques to reduce power dissipation in combinational and
sequentialcircuits.
UNIT ?I:
Fundamentals: Need for Low Power Circuit Design, Sources of Power Dissipation ?
Switching Power Dissipation, Short Circuit Power Dissipation, Leakage Power Dissipation,
Glitching Power Dissipation, Short Channel Effects ?Drain Induced Barrier Lowering and
Punch Through, Surface Scattering, Velocity Saturation, Impact Ionization, Hot
ElectronEffect.
UNIT ?II:
Supply Voltage Scaling for Low Power:Device Feature Size Scaling, Constant-Field
Scaling, Constant-Voltage Scaling, Architectural-Level Approaches: Parallelism for Low
Power, Pipelining for Low Power, Combining Parallelism with Pipelining, Voltage Scaling
Using High-Level Transformations: Multilevel Voltage Scaling Challenges in MVS
Voltage Scaling Interfaces, Static Timing Analysis Dynamic Voltage and Frequency
Scaling
UNIT -III
Low-Power Design Approaches: Low-Power Design through Voltage Scaling ?
VTCMOS circuits, MTCMOS circuits, Architectural Level Approach ?Pipelining and
Parallel Processing Approaches.Power Gating, Clock Gating Versus Power Gating, Power-
Gating Issues, Isolation Strategy, State Retention Strategy, Power-Gating Controller, Power
Management, Combining DVFS and PowerManagement.
UNIT ?IV:
Low-Voltage Low-Power Adders: Introduction, Standard Adder Cells, CMOS Adder's
Architectures ? Ripple Carry Adders, Carry Look- Ahead Adders, Carry Select Adders,
Carry Save Adders, Low-Voltage Low-Power Design Techniques ?Trends of Technology
and Power Supply Voltage.
Low-Voltage Low-Power Multipliers: Introduction, Overview of Multiplication, Types of
Multiplier Architectures, Braun Multiplier, Baugh- Wooley Multiplier, Introduction to
Wallace Tree Multiplier.
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT ?V:
Low-Voltage Low-Power Memories: Basics of ROM, Low-Power ROM Technology,
Future Trend and Development of ROMs, Basics of SRAM, Memory Cell, Pre-charge and
Equalization Circuit, Low-Power SRAM Technologies, Basics of DRAM, Self-Refresh
Circuit, Future Trend and Development of DRAM.
TEXT BOOKS:
1. CMOS Digital Integrated Circuits ? Analysis and Design ? Sung-Mo Kang,
Yusuf Leblebici,TMH,2011.
2. Low-Voltage, Low-Power VLSI Subsystems ? Kiat-Seng Yeo, Kaushik Roy,
TMH ProfessionalEngineering,1st edition,2004
REFERENCE BOOKS:
1. Introduction to VLSI Systems: A Logic, Circuit and System Perspective ?
Ming-BO Lin, CRCPress,2011
2. Low Power CMOS VLSI Circuit Design ? Kaushik Roy, Sharat C. Prasad,
John Wiley & Sons,2000.
3. Practical Low Power Digital VLSI Design ? Gary K. Yeap, Kluwer Academic
Press,2002.
4. Leakage in Nanometer CMOS Technologies? Siva G. Narendran, Anatha
Chandrakasan,Springer,2005.
Course Outcomes:
Upon completing this course, the student will be able to
Understand the need of Low power circuitdesign.
Attain the knowledge of architecturalapproaches.
Analyze and design Low-Voltage Low-Power combinationalcircuits.
Known the design of Low-Voltage Low-PowerMemories
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
IV Year - I Semester
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3
EMBEDDED SYSTEMS
(Professional Elective 4)
Course Objectives:
The main objectives of this course are given below:
The basic concepts of an embedded system areintroduced.
The various elements of embedded hardware and their design principles areexplained.
Different steps involved in the design and development of firmware for embedded
systems iselaborated.
Internals of Real-Time operating system and the fundamentals of RTOS based embedded
firmware design isdiscussed.
Fundamental issues in hardware software co-design were presented andexplained.
Familiarize with the different IDEs for firmware development for different family of
processors/controllers and embedded operatingsystems.
Embedded system implementation and testing tools are introduced anddiscussed.
UNIT-I
INTRODUCTION: Embedded system-Definition, history of embedded systems, classification
of embedded systems, major application areas of embedded systems, purpose of embedded
systems, the typical embedded system-core of the embedded system, Memory, Sensors and
Actuators, Communication Interface, Embedded firmware, Characteristics of an embedded
system, Quality attributes of embedded systems, Application-specific and Domain-Specific
examples of an embedded system.
UNIT-II
EMBEDDED HARDWARE DESIGN: Analog and digital electronic components, I/O types
and examples, Serial communication devices, Parallel device ports, Wireless devices, Timer and
counting devices, Watchdog timer, Real time clock.
UNIT-III
EMBEDDED FIRMWARE DESIGN: Embedded Firmware design approaches, Embedded
Firmware development languages, ISR concept, Interrupt sources, Interrupt servicing
mechanism, Multiple interrupts, DMA, Device driver programming, Concepts of C versus
Embedded C and Compiler versusCross-compiler.
UNIT-IV
REAL TIME OPERATING SYSTEM: Operating system basics, Types of operating systems,
Tasks, Process and Threads, Multiprocessing and Multitasking, Task Scheduling, Threads,
Processes and Scheduling, Task communication, Task synchronization.
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
HARDWARE SOFTWARE CO-DESIGN: Fundamental Issues in Hardware Software Co-
Design, Computational models in embedded design, Hardware software Trade-offs, Integration
of Hardware andFirmware.
UNIT-V:
EMBEDDED SYSTEM DEVELOPMENT, IMPLEMENTATION AND TESTING:The
integrated development environment, Types of files generated on cross-compilation,
Deassembler/Decompiler, Simulators, Emulators and Debugging, Target hardware debugging,
Embedded Software development process and tools, Interpreters, Compilers and Linkers,
Debugging tools, Quality assurance and testing of the design, Testing on host machine,
Simulators, Laboratory Tools.
Text Books:
1. Embedded Systems Architecture- By Tammy Noergaard, Elsevier Publications,2013.
2. Embedded Systems-By Shibu. K.V-Tata McGraw Hill Education Private Limited,2013.
References:
1. Embedded System Design, Frank Vahid, Tony Givargis, John Wiley Publications,2013.
2. Embedded Systems-Lyla B.Das-Pearson Publications,2013.
Course Outcomes:
At the end of this course the student can able to:
Understand the basic concepts of an embedded system and able to know an embedded
system design approach to perform a specificfunction.
The hardware components required for an embedded system and the design approach of
an embeddedhardware.
The various embedded firmware design approaches on embeddedenvironment.
Understand how to integrate hardware and firmware of an embedded system using real
time operatingsystem.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
IV Year - I Semester
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3
DSP PROCESSORS and ARCHITECTURES
(Professional Elective 4)
Course Objectives:
To recall the various techniques of digital signalprocessing.
To introduce the architectural features of programmable DSP Processors ofTexas
Instruments (TI) and Analog devices(AD).
To understanding the practical examples of DSP Processorarchitectures.
To develop programming knowledge by using Instruction set of DSPProcessors.
To know the interfacing techniques to I/O devices andmemory.
UNIT-I:
Introduction to Digital Signal Processing
Introduction, a Digital signal-processing system, the sampling process, discrete time sequences,
Discrete Fourier Transform (DFT) and Fast Fourier Transform (FFT), Linear time-invariant
systems, Digital filters, Decimation andinterpolation.
Computational Accuracy in DSPImplementations
Number formats for signals and coefficients in DSP systems, Dynamic Range and Precision,
Sources of error in DSP implementations, A/D Conversion errors, DSP Computational errors,
D/A Conversion Errors, Compensating filter.
UNIT-II:
Architectures for Programmable DSP Devices
Basic Architectural features, DSP Computational Building Blocks, Bus Architecture and
Memory, Data Addressing Capabilities, Address Generation UNIT, Programmability and
Program Execution, Speed Issues, Features for External interfacing.
UNIT-III:
Programmable Digital Signal Processors
Commercial Digital signal-processing Devices, Data Addressing modes of TMS320C54XX
DSPs, Data Addressing modes of TMS320C54XX Processors, Memory space of
TMS320C54XX Processors, Program Control, TMS320C54XX Instructions and Programming,
On-Chip Peripherals,
Interrupts of TMS320C54XX
Processors, Pipeline Operation of
TMS320C54XX Processors.
UNIT-IV:
Analog Devices Family of DSP Devices
Analog Devices Family of DSP Devices ? ALU and MAC block diagram, Shifter Instruction,
Base Architecture of ADSP 2100, ADSP-2181 high performance Processor.
Introduction to Black fin Processor - The Black fin Processor, Introduction to Micro Signal
Architecture, Overview of Hardware Processing Units and Register files, Address Arithmetic
Unit, Control Unit, Bus Architecture and Memory, Basic Peripherals
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT-V:
Interfacing Memory and I/O Peripherals to Programmable DSP Devices
Memory space organization, External bus interfacing signals, Memory interface, Parallel I/O
interface, Programmed I/O, Interrupts and I/O, Direct memory access (DMA).
TEXT BOOKS:
1. Digital Signal Processing ? Avtar Singh and S. Srinivasan, Thomson Publications,2004.
2. A Practical Approach To Digital Signal Processing - K Padmanabhan,R.
Vijayarajeswaran, Ananthi. S, New Age International,2006/2009
3. Embedded Signal Processing with the Micro Signal Architecture: Woon-SengGan,Sen
M.Kuo, Wiley-IEEE Press,2007
REFERENCE BOOKS:
1. Digital Signal Processors, Architecture, Prog and Applications-B.Venkataramani
and M. Bhaskar, 2002,TMH.
2. DSP Processor Fundamentals, Architectures & Features ? Lapsley et al. 2000, S. Chand
&Co.
3. Digital Signal Processing App Using the ADSP-2100 Family by TheApplications
Engineering Staff of Analog Devices, DSP Division, Edited by Amy Mar,PHI
4. The Scientist and Engineer's Guide to Digital Signal Processing bySteven W. Smith,
Ph.D., California Technical Publishing, ISBN 0-9660176-3-3,1997.
Course Outcomes:
Upon the completion of course, student able to
Understand the basic concepts of Digital SignalProcessing.
To differentiate the architectural features of General purpose processors and DSP
processors.
Understand the architectures of TMS320C54xx devices and ADSP 2100 DSPdevices.
Write the simple assembly language programs by using instruction set ofTMS320C54xx.
To interface the various devices to DSPProcessors.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
IV Year - I Semester
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3
MULTI MEDIA COMMUNICATION
(Professional Elective 4)
Course objectives: This course will enable students to
Define the Multimedia CommunicationModels
Explain Multimedia Transport in WirelessNetworks
Solve the Security issues in multimedianetworks
Illustrate real-time multimedia networkapplications.
Explain different network layer basedapplication.
Unit-I: Introduction and tools used for MM content development , Media interaction,
bimodality of human speech, Lip reading, speech driven talking heads, Lip synchronization, Lip
tracking, Audio to visual mapping.
Unit-II: Biomodal person verification, Joint AV coding, Multimedia processing, Digital media,
Signal processing elements, Challenges in MM processing, Perceptual coding of Digital Audio.
Unit-III: Transform audio coders, Image coding, video coding, Water marking techniques,
Organization, Storage and retrieval, ANNs for MMSP.
Unit-IV: Distributed MM systems, Multimedia processors, Multimedia OS, Multimedia
communication standards, MPEG-1, MPEG-2, MPEG-4, MPEG-7.
Unit?V: Real time multimedia across Internet, packet audio/video multimedia transport across
IP/ATM Network, Wireless multimedia, mobile multimedia access for internet, multimedia
PCS.
Text Book:
1. Multimedia Communication Systems: Techniques and Standards, KR RAO et al, Pearson,
2002.
2. Insight into Mobile Multimedia Communication : D. BULL et al, Academic Press,1999
3. Multimedia Systems Design : PK ANDLEIGH , K. THAKKAR,PHI,2002
4. Multimedia, TAY VAUGHAN,5/e, TMH,2001
Course Outcomes:
Develop the multimedia content using multimediatools
Understand various audio, video and joint codingtechniques.
Identify the requirements of real time multimedia transfer on IPnetworks.
Study different types of multimediaprocessors
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
IV Year - I Semester
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3
1.5
INTERNET OF THINGS LAB
List of Experiments:
1. Introduction to Raspberry Pi Board/ Arduino/NodeMCU.
2. Familiarization with ARM keil MDK for programming and debugging an application on
the PSoC 4 BLE chip and perform necessary softwareinstallation.
3. To interface Push button/Digital sensor (IR/LDR) with ARM keil MDK on PSoC 4 BLE
chip and write a program to turn ON LED when push button is pressed or at sensor
detection.
4. Set up a Bluetooth Low Energy (namely Bluetooth Smart) connection between the PSoC
BLE kit and a smart phone and use an app to send and receive data to and from the BLE
Pioneerkit.
5. To interface capacitor sensor (touch sensor) with smart phone and write a program to turn
RGB LED ON/OFF when `1'/'0' is received from smart phone usingBluetooth.
6. Automatic street light control to control the street light (Turn on and off based on the
light) using Arduino/ Node MCU/RaspberryPi
7. Smoke Detection using MQ-2 GasSensor
8. Detecting obstacle with IR Sensor and Arduino/ Node MCU/RaspberryPi
9. Arduino board interfacing with the temperature and humidity sensor and prints theoutput
on LCD / serialmonitor
10. Write an Arduino program for interfacing Arduino board with the Ultrasonicsound
sensor and print the output on Serialmonitor.
Equipment required for Laboratories:
Arduino/Node MCU/Raspberry Pi + PSoC 4 BLE Bluetooth Low Energy Pioneer Kit +
Hardware, MQ-2 Gas Sensor, Ultrasonic sound sensor.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
IV Year - I Semester
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1.5
MICROWAVE AND OPTICAL COMMUNICATION ENGINEERING LAB
Minimum Twelve Experiments to be conducted:
Part-A (Any 7 Experiments (8 & 9 Compulsory))
1. Reflex Klystron Characteristics.
2. Gunn DiodeCharacteristics.
3. AttenuationMeasurement.
4. Directional CouplerCharacteristics.
5. Impedance and FrequencyMeasurement.
6. Scattering parameters ofCirculator.
7. Scattering parameters of MagicTee.
8. Radiation Pattern of Horn and ParabolicAntennas.
9. Synthesis of Microstip antennas (Rectangular Structure) Using any Industrystandard
SimulationSoftware.
Part ? B (Any 5 Experiments) :
10. Characterization ofLED.
11. Characterization of LaserDiode.
12. Intensity modulation of Laser output through an opticalfiber.
13. Measurement of Data rate for Digital Opticallink.
14. Measurement ofNA.
15. Measurement of losses for Analog Opticallink.
Equipment required for Laboratories:
1. Regulated Klystron Power Supply, Klystronmount
2. VSWRMeter
3. MicroAmmeter
4. Multimeter
5. CRO
6. GUNN Power Supply, PinModulator
7. Crystal Diodedetector
8. Micro wave components(Attenuation)
9. FrequencyMeter
10. Slotted linecarriage
11. Probe detector
12. Wave guideshorts
13. SSTuner
14. DirectionalCoupler
15. E, H, MagicTees
16. Circulators, Isolator
17. MatchedLoads
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
18. Pyramidal Horn and ParabolicAntennas
19. Turntable for AntennaMeasurements
20. Fiber Optic Analog Trainer basedLED
21. Fiber Optic Analog & Trainer basedlaser
22. Fiber OpticTrainer
23. Fiber cables - (Plastic,Glass)
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
IV Year - II Semester
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3
WIRELESS COMMUNICATION
(Professional Elective 5)
Course Objectives:
The student will be introduced to:
The Aim of this course is to introduce the fundamental technologies forwireless
Communication andnetworking
Introducing the concepts of Multiple AccessSchemes
Introducing the comprehensive exposure to the fast-evolving high-tech fields of
Wirelesscommunications
It introduces the latest technologies such as CDMA, OFDM, and MIMO, whichform
The bedrock of 3G/4G wirelessnetworks
UNIT I
Introduction to 3G/4G Wireless Communications: Introduction, 2G Wireless Standards,
3GWireless Standards, 4G Wireless Standards, Overview of Cellular Service
ProgressionPrinciples of Wireless Communications: The Wireless Communication
Environment,Modeling of Wireless Systems, System Model for Narrowband Signals, Rayleigh
FadingWireless Channel, BER Performance of Wireless Systems: SNR in a Wireless System,
BER inWireless Communication System, Rayleigh BER at High SNR. Intuition for BER in a
FadingChannel. Channel Estimation in Wireless Systems, Diversity in Wireless Communication.
UNIT II
Code Division for Multiple Access (CDMA): Introduction to CDMA, Basic CDMAMechanism,
Fundamentals of CDMA Codes, Spreading Codes based on Pseudo-Noise (PN)Sequences,
Correlation Properties of Random CDMA Spreading Sequences, Multi-UserCDMA, Advantages
of CDMA.
UNIT III
Multiple-Input Multiple-Output Wireless Communications: Introduction to MIMOWireless
Communications, MIMO System Model, MIMO Zero-forcing (ZF) Receiver, MIMOMMSE
Receiver, Singular Value Decomposition (SVD) of the MIMO Channel,Singular Value
Decomposition (SVD) and MIMO Capacity
UNIT IV
Orthogonal Frequency-Division Multiplexing: Introduction, Motivation and MulticarrierBasics,
OFDM Example, Bit-Error Rate (BER) for OFDM, MIMO-OFDM, Effect ofFrequency Offset in
OFDM, OFDM ? Peak-to-Average Power Ratio (PAPR), SC-FDMA.
UNIT V
Satellite-Based Wireless Systems: Introduction, Satellite Orbits, Use of Satellites
forCommunication, Satellites and Transponders, Signal and Noise Calculations,Systems
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UsingGeostationary Satellites, Systems Using Low-Earth-Orbit Satellites, Systems Using
MediumEarth-Orbit Satellites.
TEXTBOOKS:
1. Principles of Modern Wireless Communication Systems ? Aditya K Jagannathan,Mc
Graw Hill publishers,2017
2. Wireless Communication Technology ? Blake,Delmar/Cengage Learning India, first
Edition,2012
REFERENCES:
1. Wireless Communications and Networking ? Vijay K. Garg,MorganKaufmann,2007
Course Outcomes:
After going through this course, the student will be able to
Know about the Wireless systems and Standards (1G/2G/3Gsystems).
Concept and analysis of CDMA-based wirelessnetworks.
Understand the concepts of Multiple-Input Multiple-Output(MIMO).
Understand the modern wireless systems usingOFDM.
Analysis of Satellite-Based Wirelesssystems.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
IV Year - II Semester
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3
VLSI TESTING & TESTABILITY
(Professional Elective 5)
Course Objectives:
To impart knowledge on the basic faults that occur in digitalsystems
To describe fault detection techniques in combinationalcircuits.
To outline procedures to generate test patterns for detecting single stuck faults in
combinational and sequentialcircuits.
To explain design for testability techniques with improved faultcoverage.
To introduce BIST concepts and specificarchitectures.
To give exposure to approaches for introducing BIST into logic circuits, memories
and embeddedcores.
UNIT I
Introduction to Test and Design for Testability (DFT) Fundamentals Modelling: Modelling
digital circuits at logic level, register level and structural models, Levels of modelling. Logic
Simulation: Types of simulation, Delay models, Element evaluation, Hazard detection, Gate
level event driven simulation.
UNIT II
Fault Modelling ? Logic fault models, Fault detection and redundancy, Fault equivalence and
fault location. Single stuck and multiple stuck ? Fault models. Fault simulation applications,
General techniques for Combinationalcircuits.
UNIT III
Testing for single stuck faults (SSF), Automated test pattern generation (ATPG/ATG) for SSFs
in combinational and sequential circuits, Functional testing with specific fault models, Vector
simulation ? ATPG vectors, formats, Compaction and compression, Selecting ATPGTool.
UNIT IV
Design for testability ? testability trade-offs, techniques. Scan architectures and testing ?
controllability and Observability generic boundary scan, full integrated scan, storage cells for
scan design. Board level and system level DFT approaches. Boundary scan standards.
Compression techniques ? different techniques, syndrome test and signature analysis
UNIT V
Built-in self-test (BIST): BIST Concepts and test pattern generation. Specific BIST Architectures
? CSBL, BEST, RTS, LOCST, STUMPS, CBIST, CEBS, RTD, SST, CATS, CSTP, BILBO,
Brief ideas on some advanced BIST concepts and design for self-test at board level. Memory
BIST (MBIST): Memory test architectures and techniques ? Introduction to memory test, Types
of memories and integration, Embedded memory testing model. Memory test requirements for
MBIST, Brief ideas on embedded coretesting
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
TEXT BOOKS:
1. Miron Abramovici, Melvin A. Breur, Arthur D. Friedman, Digital Systems Testing and
Testable Design, Jaico Publishing House,2001.
2. Alfred Crouch., Design for Test for Digital ICs & Embedded Core Systems, Prentice
Hall.
REFERENCES:
1. Robert J. Feugate, Jr., Steven M. Mentyn, Introduction to VLSI Testing, Prentice Hall,
Englehood Cliffs, 1998.
2. Bushnell, M., and Agrawal, Vishwani D, Essentials of Electronic Testing for Digital,
Memory and Mixed-Signal VLSI Circuits, Kluwer AcademicPublishers,2002
Course Outcomes:
Model digital circuits at logic and RTLlevels
Simulate digital ICs in the presence of faults and evaluate the given test set for fault
coverage
Generate test patterns for detecting single stuck faults in combinational and sequential
circuits
Identify schemes for introducing testability into digital circuits with improved fault
coverage
Compare different approaches for introducing BIST into logic circuits, memories and embedded
cores
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
IV Year - II Semester
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3
MACHINE LEARNING & ARTIFIICIAL INTELLIGENCE
(Professional Elective 5)
OBJECTIVE:
To familiarize students with basic concepts, theories and advancements in ML and AI
and help them in understanding the mathematics behind algorithms and apply them in real world
scenarios
UNIT ? I
Introduction to ML/AI - AI Foundation, history of AI, latest advancements and
applicationsMachine Learning ? I: Linear Regression - Learn to implement linear regression and
predict continuous data values, Clustering - Learn how to create segments based on similarities
using K-Means and Hierarchical clustering
UNIT ? II
Machine Learning ? II:Na?ve Bayes and Logistic regression - Understand how supervised
learning is used for classification, Support vector machines - Learn to classify data points using
support vectors, decision trees - Tree-based model that is simple and easy to use. Learn the
fundamentals on how to implement them
Natural Language Processing: Basics of text processing, lexical processing - Learn to extract
features from unstructured text and build machine learning models on text data, syntax and
semantics - Conduct sentiment analysis, learn to parse English sentences and extract meaning
from them
UNIT ? III
Deep learning & Neural Networks: Information flow in neural networks - Understand the
components and structure of artificial neural networks, Training a neural network - Learn the
latest techniques used to train highly complex neural networks, Convolutional neural networks -
Use CNN's to solve complex image classification problems, Recurrent neural networks - Study
LSTMs and RNN's applications in text analytics, Creating and deploying networks using
TensorFlow and Keras (Deep Learning Library) - Build and deploy your own deep neural
networks on a website, learn to use Tensor Flow API and Keras.
UNIT ? IV
Graphical Models: Introduction to Bayesian methods, Graphical models - Study probabilistic
way of modelling systems - Markov properties, Factor Graphs and Bayesian belief networks,
Learning and Inference - Learn how graphics models are used for supervised and unsupervised
learning
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT ? V
Reinforcement Learning: Introduction to RL, understand how machines can be programmed to
learn by themselves, Exact methods - Learn the math behind Exact Statistics - Dynamic
Programming, Monte Carlo methods, Temporal Difference Learning, Approximate Methods -
Learn policy gradient methods and their applications in learning
TEXTBOOKS:
1. Machine Learning, by Tom M Mitchell, Indian Edition, McGraw Hill, first Edition2017.
2. Deep Learning by Goodfellow, Bengio, Courville. The MIT Press,2016
3. Elaine Rich and Kevin Knight, "Artificial Intelligence", Tata McGraw Hill,3rd Edition
2008.
REFERENCE BOOKS
1. UnderstandingMachine Learning: From Theory to Algorithms, by Shai Shalev-
Shwartzand Shai Ben-David, 1st Edition, Cambridge UniversityPress,2014.
2. Artificial Intelligence - A Modern Approach by Stuart Russell & Peter Norvig, Prentice
Hall,3rdEdition,2009.
Course Outcomes:
The student should be able to:
Understand machine learning concepts and range of problems that can be handled by
machinelearning.
Apply the machine learning concepts in real lifeproblems.
Understand artificial neural networks concept and apply techniques to train the neural
networks
Understand how graphical models are used for supervised and unsupervisedlearning
Understand Reinforcement Learning concept andapplications
Modify the algorithms based onneed
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
IV Year - II Semester
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3
SPEECH PROCESSING
(Professional Elective 5)
Course Objectives:
The main objectives of the course are as follows:
Understand the mechanism of human speech production andarticulation
Understand time and frequency domain methods of speechprocessing
Understand linear predictive analysis for speech signals andLPC
Study the algorithms and models involved for speaker and speech recognitionsystems
Unit I
Mechanics of speech
Speech production: Mechanism of speech production, Acoustic phonetics, The Acoustic Theory
of Speech Production: Uniform lossless tube, Effects of losses in the vocal tract, Digital models
for speech signals: Vocal tract, Radiation, Excitation, Auditory perception: psycho acoustics.
Representations of speech waveform: Sampling of speech signals, Quantization.
Unit II
Time and frequency domain methods for speech processing
Time domain parameters of Speech signal: Short-Time Energy, Average Magnitude, Average
Zero crossing Rate, Silence Discrimination using ZCR and energy, Short Time Auto Correlation
Function, Pitch period estimation using Auto Correlation Function.
Short Time Fourier analysis: Fourier transform and linear filtering interpretations, Sampling rates
in time and frequency, Pitch detection, Analysis by Synthesis, Analysis synthesis systems: Phase
vocoder, Channel Vocoder, Median Smoothing, Spectrographic displays
Unit III
Linear predictive analysis of speech
Basic Principles of linear predictive analysis: Auto correlation method, Covariance method,
Solutionof LPC equations: Cholesky method, Durbin's Recursive algorithm, Application of LPC
parameters: Pitch detection using LPC parameters, Formant analysis using LPC parameters,
VELP. Relations Between the Various Speech Parameters,CELP.
Unit IV
Application of speech processing
Voice response systems: General considerations in the design of voice response systems, A
multiple output digital voice response system, Speaker recognition systems: Speaker verification
system, Speaker identification system.
UNIT V
Speech recognition systems: Isolated digit recognition system, Continuous digit recognition
system. Typical applications of computer voice response systems: Wiring communication
equipment, Information retrieval systems
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Text books:
1. L. R. Rabiner and R. W. Schaffer, Digital Processing of Speech signals, Prentice Hall,2004
2. Ben Gold and Nelson Morgan, Speech and Audio Signal Processing, John Wiley andSons
Inc., Singapore,2004
References:
1. Quatieri, Discrete-time Speech Signal Processing, Prentice Hall,2001
2. L.R. Rabiner and B. H. Juang, Fundamentals of speech recognition, Prentice Hall, 1999.
Course Outcomes:
At the end of this course the student will be able to:
Summarize the mechanism of human speech production andarticulation
Identify the time domain speech signalparameters
Differentiate time and frequency domain methods of speechprocessing
Attribute linear predictive analysis for speechsignals
Explain the solutions for LPCequations
Implement the different algorithms and models involved for speaker andspeech
recognitionsystems
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
IV Year - II Semester
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INDUSTRIAL INTERNET OF THINGS
(PROFESSIONAL ELECTIVE-5)
Course Objectives:
The main objectives of this course are:
Learn and understand the Importance of IoT in industrialapplications
Know how IoT has become a game changer in the new economy where the customersare
looking for integratedvalue.
Apply the IoT concepts in building solutions to Industrialproblems
Learn and understand the tools and techniques that enable IoT solution andSecurity
aspects.
UNIT-I
INTRODUCTION: Introduction to IoT, IoT Vs. IIoT, History of IIoT, Components of IIoT -
Sensors, Interface, Networks, People &Process, Hype cycle, IOT Market, Trends& future Real
life examples, Key terms of IoT? IoT Platform, Interfaces, API, clouds, Data Management
Analytics, Mining &Manipulation; Role of IIoT in Manufacturing Processes Use of IIoT in plant
maintenance practices, Sustainability through Business excellence tools Challenges and Benefits
in implementing IIoT.
UNIT-II
ARCHITECTURES:Overview of IoTcomponents,Various Architectures of IoT and IIoT,
Advantages & disadvantages, Industrial Internet - Reference Architecture; IIoT System
components: Sensors, Gateways, Routers, Modem, Cloud brokers, servers and its integration,
WSN, WSN network design for IoT.
SENSORS AND INTERFACING:Introduction to sensors, Transducers, Classification, Roles
of sensors in IIoT, Various types of sensors, Design of sensors, sensor architecture, special
requirements for IIoT sensors, Role of actuators, types of actuators. Hardwire the sensors with
different protocols such as HART, MODBUS-Serial & Parallel, Ethernet, BACnet, Current,
M2M etc.
UNIT-III
PROTOCOLS AND CLOUD:Need of protocols; Types of Protocols, Wi-Fi, Wi-Fi direct,
Zigbee, Z wave, BACnet, BLE, Modbus, SPI, I2C, IIoT protocols ?COAP, MQTT, 6LoWPAN,
LWM2M, AMPQ IIoT cloud platforms: Overview of COTS cloud platforms, Predix, PTC Thing
Worx, Microsoft Azure etc. Data analytics, cloud services, Business models: SaaS, PaaS, IaaS.
UNIT-IV
SECURITY:Introduction to web security, Conventional web technology and relationship with
IIoT, Vulnerabilities of IoT, Privacy, Security requirements, Threat analysis, Trust, IoT security
tomography and layered attacker model, Identity establishment, Access control, Message
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
integrity, Non-repudiation and availability, Security model for IoT, Network security techniques
Management aspects of cyber security.
ANALYTICS: IoT Analytics: Role of Analytics in IoT, Data visualization Techniques.
UNIT-V
DIGITAL TWIN: Introduction to Digital Twin, need for Digital Twin, Elements of Digital
Twin, Digital Twin process design and information requirements, Digital twin conceptual
architecture - create, communicate, Aggregate, Analyze, Insight, Act, driving business value
through digital twin.
DIGITAL TWIN FOR ASSET: Digitalizing asset behaviour using simulated mathematical
modelling and building Digital Twin - Need, Benefits, Architecture, Models and Use cases -
Predictive and Prescriptive maintenance.
TEXT BOOKS:
1. Building the Internet of Things with IPv6 and MIPv6: The EvolvingWorld of M2M
Communications, by Daniel Minoli,.Bernd Scholz-Reiter, Florian,WillyPublication
2. Digital Twin Technologies and Smart Cities by Farsi, M., Daneshkhah, A.,Hosseinian-
Far, A., Jahankhani, H., Springer International Publishing,2020.
3. Architecting the Internet of Things ,by Michahelles, Springer,2011
REFERENCES:
1. The Internet of Things Connecting Objects to the Web" by HakimaChaouchi,,
WillyPublications
2. The Internet of Things: Key Applications and Protocols, Olivier Hersent,David
Boswarthick, Omar Elloumi,, 2nd Edition, WillyPublications
3. Inside the Internet of Things (IoT), Deloitte UniversityPress
4. Internet of Things- From Research and Innovation toMarket
Deployment; By Ovidiu& Peter; River PublishersSeries
5. Five thoughts from the Father of the Internet of Things; by Phil Wainewright - Kevin
Ashton
6. How Protocol Conversion Addresses IIoT Challenges: White Paper By RedLion.
7. https://www.ge.com/digital/applications/digital-twin
8. https://www2.deloitte.com/us/en/insights/focus/industry-4-0/digital-twin-technology-
smart-factory.html
Course Outcomes:
At the end of this course the student will be able to:
Understand the elements of IoT to build a total control plane in an Industrialapplication
Apply M2M protocols for development of IoT Applications.
Learn and understand the concept of digitalization and dataacquisition.
Build smart factory based on the IoTconcepts
Build Industrial DigitalTwins.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
IV Year - II Semester
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3D PRINITING
Open Elective (OE2)
Course Objectives:
The main objectives of this course are:
The course aims at the importance of Additive Manufacturing, classifications, models,
specifications of various Additive ManufacturingTechniques.
Principles and operation of 3Dp, Various types of3DP
Techniques of printingelectronics
To learn the data formats and soft-waresrequired
The applications ofRP
UNIT-I
Introduction to Prototyping, Traditional Prototyping Vs Rapid Prototyping (RP), Need for time
compression in product development, Distinction between RP and CNC and other related
technologies, Classification of RP, commonly used terms, advantages and limitations of rapid
prototyping.
UNIT-II
Three-Dimensional Printing (3DP)
Overview of 3DP, 3D Printer, 3D Systems, and Z Corporation, ExOne - Metal and Molding
Sand Printer, Metal Line: Direct Metal Printer, Molding Sand Line: Direct Core and Mold-
Making Machine, Soligen - Direct Shell Production Casting (DSPC), Voxel jet- 3D Printing
System, Optomec - Maskless Mesoscale Material Deposition (M3D),
UNIT-III
Techniques for printing electronics,printing electronics,2D-printing technologies-
Flexographic, Offset, Gravure, screen printing, Processes in 3D-printing electronics - Improved
building process for 3D devices, Fictionalization of 3D surfaces, Current trends in 3D-printed
electronics- antennas, flexible electronics, batteries, The market for 3D-printed electronics
And integrated machines
UNIT ? IV
RAPID PROTOTYPING DATA FORMATS: STL Format, STL File Problems, consequence
of building valid and invalid tessellated models, STL file Repairs: Generic Solution, other
Translators, Newly Proposed Formats.
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
RAPID PROTOTYPING SOFTWARE'S: Features of various RP software's like Magics,
Mimics, Solid View, View Expert, 3 D View, Velocity 2, STL View 3 Data Expert and 3 D
doctor.
UNIT ?V
RP APPLICATIONS: Application in engineering, analysis and planning, aerospace industry,
automotive industry, jewelry industry, coin industry, GIS application, arts and architecture. RP
medical and bioengineering applications: planning and simulation of complex surgery,
customized implants & prosthesis, design and production of medical devices, forensic science
and anthropology, visualization of bimolecular.
TEXT BOOKS:
1. Chua Chee Kai., Leong Kah Fai., Chu Sing Lim, Rapid Prototyping: Principles and
Applications in Manufacturing, World Scientific,2010.
2. Andreas Gebhardt Jan-Steffen Hotter, Additive Manufacturing: 3D Printing for
prototyping and Manufacturing, Hanser Publications, 6915 Valley Avenue, Cincinnati,
Ohio.
3. Ian Gibson., David W Rosen., Brent Stucker, Additive Manufacturing Technologies:
Rapid Prototyping to Direct Digital Manufacturing, Springer,2010.
REFERENCE BOOKS:
1. Rapid Manufacturing / D.T. Pham and S.S.Dimov/Springer
2. Wohlers Report 2000 /Terry T Wohlers/WohlersAssociates
3. Rapid Prototyping & Manufacturing / Paul F.Jacobs/ASMEPress
4. Rapid Prototyping / Chua&Liou
Course Outcomes:
At the end of this course the student will be able to:
Identify the importance of RP in presentscenario.
Gain the knowledge on3DP
Application of 3DP in electronics.
Minimize various errors that are occurring during conversion of CADmodels.
Applications ofRP.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
IV Year - II Semester
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BLOCKCHAIN TECHNLOGY
Open Elective (OE2)
Course Objectives:
The main objectives of this course are:
Understand how block chain systems (mainly Bit coin and Ethereum) work and to securely
interact withthem,
Design, build, and deploy smart contracts and distributedapplications,
Integrate ideas from block chain technology into their ownprojects.
Unit I:
Introduction: Scenarios, Challenges Articulated, Blockchain, Blockchain Characteristics,
Opportunities Using Blockchain, History of Blockchain.
Evolution of Blockchain: Evolution of Computer Applications, Centralized Applications,
Decentralized Applications, Stages in Blockchain Evolution, Consortia, Forks, Public
Blockchain Environments, Type of Players in Blockchain Ecosystem, Players inMarket.
Unit II:
Blockchain Concepts: Introduction, Changing of Blocks, Hashing, Merkle-Tree, Consensus,
Mining and Finalizing Blocks, Currency aka tokens, security on blockchain, data storage on
blockchain, wallets, coding on blockchain: smart contracts, peer-to-peer network, types of
blockchain nodes, risk associated with blockchain solutions, life cycle of blockchain transaction.
Unit III:
Architecting Blockchain solutions:Introduction, Obstacles for Use of Blockchain, Blockchain
Relevance Evaluation Framework, Blockchain Solutions Reference Architecture, Types of
Blockchain Applications, Cryptographic Tokens, Typical Solution Architecture for Enterprise
Use Cases, Types of Blockchain Solutions, Architecture Considerations, Architecture with
Blockchain Platforms, Approach for Designing Blockchain Applications.
Unit IV:
Ethereum Blockchain Implementation: Introduction, Tuna Fish Tracking Use Case, Ethereum
Ecosystem, Ethereum Development, Ethereum Tool Stack, Ethereum Virtual Machine, Smart
Contract Programming, Integrated Development Environment, Truffle Framework, Ganache,
Unit Testing, Ethereum Accounts, MyEtherWallet, Ethereum Networks/Environments, Infura,
Etherscan, Ethereum Clients, Decentralized Application, Metamask, Tuna Fish Use Case
Implementation, OpenZeppelinContracts
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
Unit V:
Hyperledger Blockchain Implementation: Introduction, Use Case ? Car Ownership Tracking,
Hyperledger Fabric, Hyperledger Fabric Transaction Flow, FabCar Use Case Implementation,
Invoking Chaincode Functions Using Client Application.
Advanced Concepts in Blockchain: Introduction, InterPlanetary File System (IPFS),
Zero-Knowledge Proofs, Oracles, Self-Sovereign Identity, Blockchain with IoT and AI/ML
Quantum Computing and Blockchain, Initial Coin Offering, Blockchain Cloud Offerings,
Blockchain and its Future Potential.
TEXT BOOKS:
1) "Blockchain for Enterprise Application Developers", Ambadas, Arshad SarfarzAriff, Sham -
Wiley
2) "Mastering Bitcoin: Programming the Open Blockchain", Andreas M. Antonpoulos,O'Reilly
REFERENCES:
1) Blockchain: A Practical Guide to Developing Business, Law, and Technology Solutions,
Joseph Bambara, Paul R. Allen, Mc GrawHill.
2) Blockchain: Blueprint for a New Economy, Melanie Swan,O'Reilly
E-RESOURCES:
https://github.com/blockchainedindia/resources
Course Outcomes:
At the end of this course the student will be able to:
Demonstrate the foundation of the Block chain technology and understand the processes
in payment andfunding.
Identify the risks involved in building Block chainapplications.
Review of legal implications using smartcontracts.
Choose the present landscape of Blockchain implementations and Understand Crypto
currencymarkets
Examine how to profit from trading cryptocurrencies.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
IV Year - II Semester
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CYBER SECURITY & CRYPTOGRAPHY
Open Elective (OE2)
Course Objectives:
Able to identify security risks and take preventive steps
To understand the forensicsfundamentals.
To understand the evidence capturingprocess.
To understand the preservation of digitalevidence.
Unit I : Introduction to Cybercrime: Introduction, Cybercrime: Definition and Origins of the
Word, Cybercrime and Information Security, Cybercriminals, Classifications of
Cybercrime, Cyberstalking, Cybercafe and Cybercrimes, Botnets. Attack Vector,? Proliferation
of Mobile and Wireless Devices, Security Challenges Posed by Mobile Devices, Attacks on
Mobile/Cell Phones, Network and Computer Attacks,
Unit II: Tools and Methods :Proxy Servers and Anonymizers, Phishing, Password
Cracking,? Keyloggers and Spywares,Virus and Worms,? Trojan Horses and
Backdoors,? Steganography, Sniffers, Spoofing, Session Hijacking Buffer over flow, DoS and
DDoS Attacks, SQL Injection, Buffer Overflow,? Attacks on Wireless Networks, Identity Theft
(ID Theft), Foot Printing and Social Engineering, Port Scanning, Enumeration
Unit III : Cyber Crime Investigation: Introduction, Investigation Tools, eDiscovery, Digital
Evidence Collection, Evidence Preservation, E-Mail Investigation, E-Mail Tracking, IP
Tracking, E-Mail Recovery, Hands on Case Studies. Encryption and Decryption Methods,
Search and Seizure ofComputers, Recovering Deleted Evidences, Password Cracking.
Unit IV: Computer Forensics and Investigations: Understanding Computer Forensics,
Preparing for Computer Investigations. Current Computer Forensics Tools: Evaluating Computer
Forensics Tools, Computer Forensics Software Tools, Computer Forensics Hardware Tools,
Validating and Testing Forensics Software, Face, Iris and Fingerprint Recognition, Audio Video
Analysis, Windows System Forensics, Linux System Forensics, Graphics and Network
Forensics, E-mail Investigations, Cell Phone and Mobile Device Forensics
Unit V: Cyber Crime Legal Perspectives: Introduction,? Cybercrime and the Legal Landscape
around the World,The Indian IT Act, Challenges to Indian Law and Cybercrime Scenario in
India,? Consequences of Not Addressing the Weakness in Information Technology Act,? Digital
Signatures and the Indian IT Act,? Amendments to the Indian IT Act,? Cybercrime and
Punishment,? Cyberlaw, Technology and Students: Indian Scenario.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
TEXT BOOKS:
1. Sunit Belapure Nina Godbole "Cyber Security: Understanding Cyber Crimes,Computer
Forensics and Legal Perspectives", WILEY,2011.
2. NelsonPhillipsandEnfingerSteuart,"ComputerForensicsandInvestigations",Cengage
Learning, New Delhi,2009.
REFERENCE BOOKS:
1. Michael T. Simpson, Kent Backman and James E. Corley, "Hands on EthicalHacking and
Network Defence", Cengage,2019.
2. Computer Forensics, Computer Crime Investigation by John R. Vacca, Firewall Media,
New Delhi.
3. Alfred Basta, Nadine Basta,Mary Brown and Ravinder Kumar "Cyber Security and Cyber
Laws" ,Cengage,2018.
Web References:
1. CERT-In Guidelines- http://www.cert-in.org.in/
2. https://www.coursera.org/learn/introduction-cybersecurity-cyber-attacks[ OnlineCourse]
3. https://computersecurity.stanford.edu/free-online-videos[ Free OnlineVideos]
4. Nickolai Zeldovich. 6.858 Computer Systems Security. Fall 2014. Massachusetts Institute of
Technology: MIT OpenCourseWare, https://ocw.mit.edu. License:Creative Commons BY-
NC-SA.
Course Outcomes:
At the end of the course, student will be able to
Explain the computer forensicsfundamentals.
Describe the types of computer forensicstechnology
Analyze various computer forensicssystems.
Illustrate the methods for data recovery, evidence collection and dataseizure.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
OPEN ELECTIVES OFFERED BY ECE
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
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PRINCIPLES OF COMMUNICATION
Open Elective (OE1)
Course objectives:
This course will enable students to:
Understand simple systems for generating and demodulating AM, DSB, SSB andVSB
signals
Understand the concepts in Angle modulation for the design of communicationsystems
Study simple systems for generating and demodulating frequency modulatedsignals
Learn the concepts of random process and various types ofnoise.
Study the performance of the communication system in presence ofnoise.
Learn pulse modulation and samplingtechniques
UNIT-1
Amplitude modulation: Introduction, Amplitude Modulation: Time & Frequency ? Domain
description, switching modulator, Envelop detector.
Double side band-suppressed carrier modulation: Time and Frequency ? Domain description,
Ring modulator, Coherent detection, Costas Receiver, Quadrature Carrier Multiplexing.
Single side?band and vestigial sideband methods ofmodulation: SSB Modulation, VSB
Modulation, FrequencyTranslation, Frequency- Division Multiplexing,Theme Example: VSB
Transmission of Analog and Digital Television
UNIT-II
Angle modulation: Basic definitions, Frequency Modulation: Narrow Band FM, Wide Band
FM, Transmission bandwidth of FM Signals, Generation of FM Signals, Demodulation of FM
Signals, FM StereoMultiplexing,
Phase?Locked Loop: Nonlinear model of PLL, Linear model of PLL, Nonlinear Effects in FM
Systems. The Super heterodyne Receiver
UNIT-III
Random variables & process: Introduction, Probability, Conditional Probability, Random
variables, Several Random Variables. Statistical Averages: Function of a random variable,
Moments, Random Processes, Mean, Correlation and Covariance function: Properties of
autocorrelation function, Cross?correlation functions.
Noise: Shot Noise, Thermal noise, White Noise, Noise EquivalentBandwidth, Noise Figure.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT-IV
Noise in analog modulation: Introduction, Receiver Model, Noise in DSB-SC receivers,
Noise in AM receivers, Threshold effect, Noise in FM receivers, Capture effect, FM threshold
effect, FM threshold reduction, Pre-emphasis and De-emphasise inFM.
UNIT-V
Digital representation of analog signals:Introduction,Why Digitize Analog Sources?, The
Sampling process, Pulse Amplitude Modulation, Time Division Multiplexing, Pulse-Position
Modulation, Generation of PPM Waves, Detection of PPM Waves, The Quantization Process,
Quantization Noise,
Pulse Code Modulation: Sampling, Quantization, Encoding, Regeneration, Decoding, Filtering,
Multiplexing
Text books:
1. Principles of Communication Systems ? H Taub & D. Schilling, GautamSahe, TMH,
2007, 3rdEdition.
2. Communication Systems ? B.P. Lathi, BS Publication,2006.
References:
1. Principles of Communication Systems - Simon Haykin, John Wiley,2ndEdition.
2. Electronics & Communication System ? George Kennedy and Bernard Davis,TMH
2004.
3. Communication Systems? R.P. Singh, SP Sapre, Second Edition TMH,2007.
Course Outcomes:
At the end of the course, students will be able to:
Analyze the performance of analog modulation schemes in time and frequencydomains.
Analyze the performance of angle modulatedsignals.
Characterize analog signals in time domain as random processes andnoise
Characterize the influence of channel on analog modulatedsignals
Determine the performance of analog communication systems in terms ofSNR
Analyze pulse amplitude modulation, pulse position modulation, pulse code modulation
and TDM systems.
R-19 Syllabus for ECE - JNTUK w. e. f. 2019 ? 20
JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
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EMBEDDED SYSTEMS
Open Elective (OE2)
Course Objectives:
The main objectives of this course are given below:
The basic concepts of an embedded system areintroduced.
The various elements of embedded hardware and their design principles areexplained.
Different steps involved in the design and development of firmware for embedded
systems iselaborated.
Internals of Real-Time operating system and the fundamentals of RTOS based embedded
firmware design isdiscussed.
Fundamental issues in hardware software co-design were presented andexplained.
Familiarize with the different IDEs for firmware development for different family of
processors/controllers and embedded operatingsystems.
Embedded system implementation and testing tools are introduced anddiscussed.
UNIT-I
INTRODUCTION: Embedded system-Definition, history of embedded systems, classification
of embedded systems, major application areas of embedded systems, purpose of embedded
systems, the typical embedded system-core of the embedded system, Memory, Sensors and
Actuators, Communication Interface, Embedded firmware, Characteristics of an embedded
system, Quality attributes of embedded systems, Application-specific and Domain-Specific
examples of an embedded system.
UNIT-II
EMBEDDED HARDWARE DESIGN: Analog and digital electronic components, I/O types
and examples, Serial communication devices, Parallel device ports, Wireless devices, Timer and
counting devices, Watchdog timer, Real time clock.
UNIT-III
EMBEDDED FIRMWARE DESIGN: Embedded Firmware design approaches, Embedded
Firmware development languages, ISR concept, Interrupt sources, Interrupt servicing
mechanism, Multiple interrupts, DMA, Device driver programming, Concepts of C versus
Embedded C and Compiler versusCross-compiler.
UNIT-IV
REAL TIME OPERATING SYSTEM: Operating system basics, Types of operating systems,
Tasks, Process and Threads, Multiprocessing and Multitasking, Task Scheduling, Threads,
Processes and Scheduling, Task communication, Task synchronisation.
HARDWARE SOFTWARE CO-DESIGN: Fundamental Issues in Hardware Software Co-
Design, Computational models in embedded design, Hardware software Trade-offs, Integration
of Hardware andFirmware.
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JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY: KAKINADA
KAKINADA ? 533 003, Andhra Pradesh, India
DEPARTMENT OF ELECTRONICS AND COMMUNICATION ENGINEERING
UNIT-V:
EMBEDDED SYSTEM DEVELOPMENT, IMPLEMENTATION AND TESTING:The
integrated development environment, Types of files generated on cross-compilation,
Deassembler/Decompiler, Simulators, Emulators and Debugging, Target hardware debugging,
Embedded Software development process and tools, Interpreters, Compilers and Linkers,
Debugging tools, Quality assurance and testing of the design, Testing on host machine,
Simulators, Laboratory Tools.
Text Books:
1. Embedded Systems Architecture- By Tammy Noergaard, Elsevier Publications,2013.
2. Embedded Systems-By Shibu. K.V-Tata McGraw Hill Education Private Limited,2013.
References:
1. Embedded System Design, Frank Vahid, Tony Givargis, John Wiley Publications,2013.
2. Embedded Systems-Lyla B.Das-Pearson Publications,2013.
Course Outcomes:
At the end of this course the student can able to:
Understand the basic concepts of an embedded system and able to know an embedded
system design approach to perform a specificfunction.
The hardware components required for an embedded system and the design approach of
an embeddedhardware.
The various embedded firmware design approaches on embeddedenvironment.
Understand how to integrate hardware and firmware of an embedded system using real
time operatingsystem.
Document Outline
- For
- KAKINADA - 533 003, Andhra Pradesh, India
- ??
- PROFESSIONAL ELECTIVES 2:
- PROFESSIONAL ELECTIVES 3:
- PROFESSIONAL ELECTIVES 4:
- PROFESSIONAL ELECTIVES 5:
- OPEN ELECTIVES FOR ECE:
- Open Elective 2:
- OPEN ELECTIVES OFFERED BY ECE:
- CourseObjectives
- Learning Outcomes
- Prescribed text books for theory for Semester-I:
- Reference books:
- Course Objectives:
- UNIT I: Sequences, Series and Meanvaluetheorems: (10hrs)
- UNIT II: Differential equations of first order andfirstdegree: (10 hrs)
- UNIT III: Linear differential equations ofhigherorder: (10 hrs)
- UNIT IV:Partialdifferentiation: (10 hrs)
- UNIT V:Multipleintegrals: (8hrs)
- Text Books:
- Reference Books:
- Learning Objectives:
- UNIT I POLYMER TECHNOLOGY
- UNIT II: ELECTROCHEMICAL CELLS AND CORROSION
- UNIT III: MATERIAL CHEMISTRY
- Part II:
- UNIT IV: ADVANCED CONCEPTS/TOPICS IN CHEMISTRY
- UNIT V: SPECTROSCOPIC TECHNIQUES & NON CONVENTIONAL ENERGY SOURCES
- Part B: NON CONVENTIONAL ENERGY SOURCES
- Standard Books:
- Reference Books: (1)
- COURSE OBJECTIVES: COURSE OBJECTIVES:
- UNIT I
- UNIT II
- UNIT III
- UNIT IV
- UNIT V
- TEXT BOOKS:
- REFERENCES:
- Course Objective: Engineering drawing being the principal method of communication for engineers, the objective is to introduce the students, the techniques of constructing the various types of polygons, curves and scales. The objective is also to visu...
- UnitII
- Unit III
- Unit IV
- Unit V
- TEXT BOOKS: (1)
- REFERENCE BOOKS:
- References books:
- Reference Books
- Course Objectives: (1)
- Exercise 1:
- Exercise 2:
- Exercise 3:
- Exercise 4:
- Exercise 5:
- Exercise 6:
- Exercise 7:
- Exercise 8:
- Exercise 9:
- Exercise 10:
- Exercise 11:
- Exercise 12:
- Exercise 13:
- Exercise 14:
- Exercise 15:
- Exercise 16:
- Course Outcomes:
- Learning Objectives: (1)
- UNIT-I:
- UNIT-II:
- UNIT-III:
- ??
- ??
- ??
- Text Books: (1)
- Reference:
- Course Objectives: (2)
- Unit I: Solving systems of linear equations, Eigen values andEigenvectors: (10 hrs)
- Unit-II: Cayley-Hamilton theorem andQuadraticforms: (10hrs)
- UNIT III:Iterativemethods: (8 hrs)
- UNITIV:Interpolation: (10 hrs)
- UNIT V: Numerical integration and solution of ordinarydifferentialequations: (10 hrs)
- Text Books: (2)
- Reference Books: (2)
- Course Objectives: (3)
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- ??
- ??
- ??
- UNIT V: Second order PDEand Applications: (10hrs)
- Text Books: (3)
- Reference Books: (3)
- UNIT-I (10hrs)
- Unit Outcomes:
- UNIT-II (9hrs)
- Unit Outcomes: (1)
- UNIT-III (10hrs)
- Unit Outcomes: (2)
- UNIT-IV (9hrs)
- Learning Outcomes:
- UNIT-V (10 hrs)
- Unit Outcomes: (3)
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- ??
- ??
- ??
- ??
- TEXT BOOKS: (2)
- REFERENCES: (1)
- COURSE OBJECTIVES:
- COURSE OUTCOME:
- Preamble:
- Course Educational Objectives:
- Unit I
- Unit II Transformers
- Unit III (1)
- Synchronous Motors
- Unit IV (1)
- Unit V (1)
- Course Outcomes: (1)
- TEXT BOOKS: (3)
- REFERENCE BOOKS: (1)
- I. Identification ofcomponents:
- Identification of active elements.
- II. LaboratoryEquipment:
- III. Solderingpractice
- IV. PCB layout andDesign.
- V. Testing of Components.
- VI. CRO
- Learning Objectives: (2)
- Any ten of the following experiments are to be conducted
- Learning Outcomes: (1)
- LIST OF EXPERIMENTS:
- References:
- COURSE OBJECTIVES: (1)
- HOW TO PURSUE THE PROJECT WORK?
- TASKS TO BE DONE:
- REFERENCES: (2)
- OTHER USEFUL DESIGN THINKING FRAMEWORKS AND METHODOLOGIES:
- Course Objectives: (4)
- UNIT-II: (1)
- UNIT- III: Transistor Characteristics:
- UNIT- V: Small Signal Low Frequency Transistor Amplifier Models:
- Text Books: (4)
- References: (1)
- Course Outcomes: (2)
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- BOOLEAN THEOREMS AND LOGIC OPERATIONS:
- ??
- COMBINATIONAL LOGIC CIRCUITS DESIGN:
- ??
- ??
- ??
- ??
- TEXT BOOKS: (4)
- REFERENCES: (3)
- Course Outcomes: (3)
- Course Objectives: (5)
- ??
- ??
- Course Objectives: (6)
- UNIT I (1)
- UNIT II (1)
- UNIT III (1)
- UNIT IV (1)
- UNIT V (1)
- TEXT BOOKS: (5)
- REFERANCE BOOKS:
- Course Outcomes: (4)
- TEXT BOOKS: (6)
- REFERENCES: (4)
- Electronic Workshop Practice:
- ADD on Experiments:
- Course Objectives: (7)
- UNIT-I
- Learning outcomes:
- UNIT-II
- UNIT-III
- UNIT-IV
- UNIT-V
- References: (2)
- resources:
- Course Outcomes: (5)
- Course Objectives: (8)
- UNIT-I Small Signal High Frequency Transistor Amplifier models:
- UNIT-II (1)
- UNIT -III
- Unit-IV
- UNIT-V (1)
- Text Books: (5)
- References: (3)
- Course Outcomes: (6)
- Course objectives:
- UNIT I INTRODUCTION
- UNIT II (2)
- UNIT III (2)
- Root Locus Technique:
- UNIT IV (2)
- UNIT V (2)
- TEXT BOOKS: (7)
- REFERENCE BOOKS: (2)
- Course Outcomes: (7)
- SYLLABUS:
- UNIT I:
- UNIT II:
- UNIT III:
- UNIT IV:
- UNIT V:
- TEXT BOOKS: (8)
- REFERENCE BOOKS: (3)
- Course Outcomes: (8)
- Course Objectives: (9)
- UNIT I (2)
- UNIT II (3)
- UNIT III (3)
- UNIT IV (3)
- UNIT V (3)
- TEXT BOOKS: (9)
- REFERENCES: (5)
- Course Outcomes: (9)
- Course objectives: (1)
- UNIT -I:
- Machine Instruction and Programs:
- UNIT -II:
- UNIT -III:
- UNIT -IV:
- UNIT -V:
- TEXTBOOKS:
- REFERENCE BOOKS: (4)
- Course Outcomes: (10)
- Course Objectives: (10)
- Unit I (1)
- Unit II
- Unit III (2)
- Unit IV (2)
- Unit V (2)
- Reference Books: (4)
- Course Outcomes: (11)
- List of Experiments :( Minimum of Ten Experiments has to be performed)
- Equipment required: Software:
- Hardware Required:
- List of Experiments:
- Equipment& Softwarerequired: Software :
- Equipment:
- Course objectives::
- UNIT I (3)
- UNIT II (4)
- UNITIII
- UNIT IV (4)
- UNIT V (4)
- TEXT BOOKS: (10)
- REFERENCES: (6)
- Course Outcomes: (12)
- Course objectives:: (1)
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- ??
- UNIT-III (1)
- UNIT-IV (1)
- ??
- TEXTBOOKS: (1)
- REFERENCE BOOKS: (5)
- Course Outcomes: (13)
- Course Objectives: (11)
- UNIT I (4)
- UNIT II (5)
- UNIT III (4)
- UNIT IV (5)
- UNIT V (5)
- TEXT BOOKS: (11)
- REFERENCES: (7)
- Course Outcomes: (14)
- Course Objectives: (12)
- UNIT I (5)
- UNIT II (6)
- UNIT III (5)
- UNIT IV (6)
- UNIT V (6)
- TEXTBOOKS :
- REFERENCES :
- Course Outcomes: (15)
- Course objectives: (2)
- UNIT I (6)
- UNIT II (7)
- UNIT III (6)
- UNIT IV (7)
- UNIT V CONVOLUTIONALCODES
- Text Books: (6)
- Reference Books: (5)
- Course Outcomes: (16)
- Course objectives: (3)
- UNIT-I (1)
- UNIT-II (2)
- UNIT-III (2)
- UNIT-IV (2)
- UNIT-V (2)
- TEXT BOOKS: (12)
- REFERENCES: (8)
- Course Outcomes: (17)
- Course objectives: (4)
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- ??
- ??
- ??
- ??
- TEXTBOOKS: (2)
- REFERENCE BOOKS: (6)
- Course Outcomes: (18)
- Course Objectives: (13)
- UNIT-I: (1)
- ??
- TEXT BOOKS :
- REFERENCE BOOKS: (7)
- Course Outcomes: (19)
- OBJECTIVE:
- ??
- ??
- ??
- ??
- Simulation of computer systems and case studies
- ??
- TEXTBOOKS: (3)
- REFERENCE BOOKS: (8)
- Course Outcomes: (20)
- Equipment required for Laboratories:
- Essential components:
- Add on Experiments:
- Equipment required for Laboratories:
- List of Experiments:
- 8086 Assembly Language Programming and Interfacing
- 8051 Assembly Language Programming and Interfacing
- PART-C (Minimum of 2 Experiments has to be performed)
- Equipment Required:
- Course Objectives:
- Course Outcomes:
- UNIT I
- UNIT II
- UNIT III
- UNIT IV
- UNIT V
- Reference Books:
- e-Resources:
- Course objectives:
- UNIT I (1)
- UNIT II (1)
- UNIT III (1)
- UNIT IV (1)
- UNIT V (1)
- TEXT BOOKS
- REFERENCES
- Course Outcomes: (1)
- OUTCOMES:
- Course Objectives:
- UNIT II DISCRETE FOURIER SERIES & FOURIER TRANSFORMS: Properties of
- UNIT III DESIGNOF IIRDIGITAL FILTERS& REALIZATIONS: Analog filter
- UNIT IV DESIGN OF FIR DIGITAL FILTERS & REALIZATIONS:
- TEXT BOOKS:
- REFERENCE BOOKS:
- Course Outcomes:
- Course Objectives: (1)
- UNIT I
- UNIT II
- UNIT III
- UNIT IV
- UNIT V
- TEXT BOOKS: (1)
- REFERENCES:
- Course Outcomes: (1)
- Course objectives:
- UNIT-I
- UNIT-II
- UNIT-III
- UNIT-IV
- UNIT-V
- TEXTBOOKS:
- REFERENCES: (1)
- Course Outcomes: (2)
- OBJECTIVE:
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- ??
- ??
- ??
- ??
- TEXTBOOKS: (1)
- REFERENCE BOOKS
- CourseOutcomes:
- Course Objectives
- Unit I
- Unit II
- Unit III
- Unit IV
- Unit V
- TEXT BOOKS: (2)
- REFERENCE BOOKS: (1)
- Course Outcomes: (3)
- OBJECTIVE: (1)
- ??
- ??
- Sensors
- ??
- Robot Control:
- ??
- ??
- TEXTBOOKS: (2)
- REFERENCE BOOKS (1)
- Course Outcomes: (4)
- Course objectives: (1)
- ??
- ??
- ??
- ??
- ??
- TEXT BOOKS: (3)
- REFERENCE BOOKS: (2)
- Course Outcomes: (5)
- Course objectives: (2)
- ??
- ??
- ??
- ??
- ??
- TEXT BOOKS: (4)
- REFERENCE BOOKS: (3)
- Course Outcomes: (6)
- Course objectives: (3)
- Text Books:
- Reference Books:
- E-resources:
- Course Outcomes: (7)
- Course objectives: (4)
- UNIT-I:
- UNIT-II:
- UNIT-III:
- UNIT-IV:
- UNIT V:
- TEXT BOOKS: (5)
- REFERENCE BOOKS: (4)
- Course Outcomes: (8)
- Course Objectives: (2)
- UNIT I: Introduction to IoT
- UNIT II: Elements of IoT
- UNIT III: IoT Application Development
- Bluetooth Smart Connectivity
- UNIT IV: Solution framework for IoT applications
- UNIT V: IoT Case Studies
- Text Books: (1)
- References:
- Course Outcomes: (9)
- 12. Verification of samplingtheorem.
- UNIT I (1)
- UNIT II (1)
- UNIT III (1)
- UNIT IV (1)
- UNIT V (1)
- References: (1)
- Course Outcomes: (10)
- Course Objectives: (3)
- UNIT I (2)
- M-TYPE TUBES
- UNIT II (2)
- UNIT I V
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- TEXT BOOKS :
- REFERENCES :
- Course Objectives: (4)
- UNIT I:
- UNIT II:
- UNIT III:
- UNIT IV:
- UNIT V: (1)
- TEXT BOOKS: (6)
- REFERENCES: (2)
- Course Outcomes: (11)
- Course Objectives: (5)
- UNIT I: (1)
- UNIT II: (1)
- UNIT III: (1)
- Image Compression:
- UNIT IV: (1)
- UNIT V: (2)
- TEXT BOOKS
- REFERENCE BOOKS (2)
- Course Outcomes: (12)
- Objective:
- Prerequisites:
- Unit-I:
- Unit-II:
- Unit-III:
- Unit-IV:
- Unit-V:
- Text books:
- Reference books:
- Course Outcomes: (13)
- Course Objectives: (6)
- UNIT -I:
- UNIT -II:
- UNIT -III:
- UNIT -IV:
- UNIT -V:
- TEXT BOOKS: (7)
- REFERENCES: (3)
- Course Outcomes: (14)
- OBJECTIVE: (2)
- ??
- ??
- ??
- ??
- ??
- TEXT BOOKS: (8)
- REFERENCE BOOKS (3)
- Course Objectives: (7)
- TEXT BOOKS: (9)
- REFERENCE BOOKS: (5)
- Course Outcomes: (15)
- OBJECTIVE: (3)
- ??
- ??
- ??
- ??
- ??
- TEXTBOOKS: (3)
- REFERENCE BOOKS: (6)
- Course Outcomes: (16)
- Textbook:
- References: (2)
- Course Objectives: (8)
- ??
- ??
- UNIT -III
- ??
- ??
- TEXT BOOKS: (10)
- REFERENCE BOOKS: (7)
- Course Outcomes: (17)
- UNIT-I (1)
- UNIT-II (1)
- UNIT-III (1)
- UNIT-IV (1)
- UNIT-V:
- Text Books: (2)
- References: (3)
- Course Outcomes: (18)
- Course Objectives: (9)
- UNIT-I: (1)
- Computational Accuracy in DSPImplementations
- UNIT-II: (1)
- UNIT-III: (1)
- UNIT-IV: (1)
- UNIT-V: (1)
- TEXT BOOKS: (11)
- REFERENCE BOOKS: (8)
- Course Outcomes: (19)
- Text Book:
- Course Outcomes: (20)
- List of Experiments:
- Equipment required for Laboratories:
- Minimum Twelve Experiments to be conducted:
- ??
- Equipment required for Laboratories: (1)
- Course Objectives: (10)
- UNIT I (3)
- UNIT II (3)
- UNIT III (2)
- UNIT IV (2)
- UNIT V (2)
- TEXTBOOKS: (4)
- REFERENCES: (4)
- Course Outcomes: (21)
- Course Objectives: (11)
- UNIT I (4)
- UNIT II (4)
- UNIT III (3)
- UNIT IV (3)
- UNIT V (3)
- TEXT BOOKS: (12)
- REFERENCES: (5)
- OBJECTIVE: (4)
- ??
- ??
- ??
- ??
- ??
- TEXTBOOKS: (5)
- REFERENCE BOOKS (4)
- Course Outcomes: (22)
- Course Objectives: (12)
- Unit I (1)
- Unit II (1)
- Unit III (1)
- Unit IV (1)
- UNIT V (4)
- Text books: (1)
- References: (4)
- Course Outcomes: (23)
- Course Objectives: (13)
- UNIT-I (2)
- UNIT-II (2)
- UNIT-III (2)
- UNIT-IV (2)
- UNIT-V (1)
- TEXT BOOKS: (13)
- REFERENCES: (6)
- Course Outcomes: (24)
- Course Objectives: (14)
- UNIT-I (3)
- UNIT-II (3)
- UNIT-III (3)
- ??
- ??
- TEXT BOOKS: (14)
- REFERENCE BOOKS: (9)
- Course Outcomes: (25)
- Course Objectives: (15)
- Unit I:
- Unit II:
- Unit III:
- Unit IV:
- Unit V:
- TEXT BOOKS: (15)
- REFERENCES: (7)
- E-RESOURCES:
- Course Outcomes: (26)
- Course Objectives: (16)
- TEXT BOOKS: (16)
- REFERENCE BOOKS: (10)
- Web References:
- Course objectives: (5)
- UNIT-1
- UNIT-II (4)
- UNIT-III (4)
- UNIT-IV (3)
- UNIT-V (2)
- Text books: (2)
- References: (5)
- Course Outcomes: (27)
- Course Objectives: (17)
- UNIT-I (4)
- UNIT-II (5)
- UNIT-III (5)
- UNIT-IV (4)
- UNIT-V: (2)
- Text Books: (3)
- References: (6)
- Course Outcomes: (28)
This post was last modified on 16 March 2021