Punjabi University, Patiala. Four Year B. Tech (ECM) Batch: 2018 / BOS: 2019
ECE Department Page 1 of 29
FOUR YEAR B. TECH.
(Electronics and Computer Engineering)
Second Year, 3rd SEMESTER
Batch 2018
(Session 2019-2020)
SCHEME OF PAPERS
CODE TITLE OF PAPER
LOAD
L T P CR .
ECE
201
Electronic
Devices
3 1 0 3.5
ECM
201
Wave Propagation 3 1 0 3.5
ECM
202
Data
Communication
3 1 0 3.5
CPE
206
Visual
Programming
Using VB.NET
3 1 0 3.5
ECM
203
Data Structures
and Algorithms
3 1 0 3.5
BAS
202
Discrete
Mathematical
Structures
3 1 0 3.5
ECE
251
Electronic
Devices Lab*
0 0 2 1.0
CPE
256
Visual
Programming
Using VB.NET
Lab*
0 0 2 1.0
ECM
253
Data Structure
Lab*
0 0 2 1.0
** Environment &
Road Safety
Awareness
18 6 6 24
Total contact hours: 33
* ECE 251, CPE 256, ECM 253 are practical papers only. There will not be any theory
examination for these papers.
* * In addition to above mentioned subjects, there will be an additional course on
Environment & Road Safety Awareness as a qualifying subject.
Punjabi University, Patiala. Four Year B. Tech (ECM) Batch: 2018 / BOS: 2019
ECE Department Page 2 of 29
Faculty of Engineering
Punjabi University, Patiala.
General Instructions to the Paper Setters
(Common for B.Tech. in Computer Scienc e Engineering, Electronics and Communication
Engineering, Electronics and Computer Engineering, Mechanical Engineering, Civil Engineering
and Integrated B.Tech./MBA Branches)
Applicable from 2014 Batch
The paper structure will be as shown below:
Pattern of Question Paper TITLE OF SUBJECT (CODE----)
Bachelor of Technology (Branch): ………..
End Semester Exam
TIME ALLOWED: 3 Hour
Roll . No………….
Maximum Marks: 50
Note:- Section C is compulsory. Attempt any six questions by selecting three
questions from section A & three questions from section B.
Section-A (From Section A of the syllabus) Q1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Q2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Q3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Q4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Q5 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3x5
Section-B (From Section B of the syllabus) Q6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Q7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Q8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Q9. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Q10. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3x5
Section-C (From whole syllabus) Q11
a). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
b) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
c) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
d) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
e) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
f) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
g) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
h). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
i ) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
j ) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
10x2=20
Note for the paper set ter:
1. Total numbers of questions to be set are nine (11) as per the above format. 2. There will be FIVE questions in each of the Sections A and B. Each question will be of five
(05) marks. However, a question may be segregated into subparts.
3. Section C is compulsory and contains ten (10) sub -parts each of two (2) marks. 4. The maximum limit on numerical problems to be set in the paper is 35% while minimum
limit is 20%.
5. The paper setter shall provide detailed marking instructions and solutions to numerical problems for evaluation purpose in the separate white envelopes provided for solutions.
6. The paper setters should seal the internal & external envelope properly with signatures & cello tape at proper place.
7. Log tables, charts, graphs, Design data tables etc. should be specif ied, whenever needed. 8. Use of Scientific calculator should be clearly specified.
Punjabi University, Patiala. Four Year B. Tech (ECM) Batch: 2018 / BOS: 2019
ECE Department Page 3 of 29
ECE 201 ELECTRONIC DEVICES
L T P Cr
3 1 0 3.5
Course Objective: Diodes and transistors are basic devices in electronic circuits. These
devices are made of semiconductor materials. To understand the operation of these devices,
basic knowledge of the structure of atoms and the interaction of atomic particles in the
semiconductor material are necessary. The p -n junction formed by adjacent p and n
semiconductors is the basis of the operation of the diodes and transistors. This course
discusses on the current flow across the p -n junction that contributes to the characteristics
of the diodes, BJTs and FETs. The objective of this course is to give understanding on how
current flows through the p -n junction and relating this phenomena to the characteristics
and operation of the diodes, bipolar and field -effect transistors. Students will learn the
applications of diode as clipper, clamper and rectifier, operation of BJTs, FETs, behavior
of BJTs at low frequency and working of SCR.
Section-A
Semiconductor Diodes: Qualitative analysis of a P -N junction as a diode, V-I
characteristics and its temperature dependence, Break down diodes, Varactor diode, Tunnel
diode, Semiconductor photo voltaic effect , Light emitting diodes.
Application of Diodes: Diodes as a clipper, Diode as a clamper, Sampling gate, Diode as a
rectifier: Half wave rectifier, Full wave rectifier, Bridge rectifier, ripple factor, regulation,
capacitor input fi lters, inductor input fi lter, L -type and π type-filters, Electronic Voltage
regulator (Series and Shunt type).
Transistor Characteristics: Junction transistor current components, Transistor as an
amplifier, Transistor construction: Common base, Common emitter, Common collector
configuration, Various regions, photo transistor.
Transistor at Low frequencies: Graphical analysis of CE configuration two port devices
and hybrid model, h -parameters, Conversion formulas for parameters of three
configurations. Analysis of a transistor amplifier circuit using h -parameter, Miller theorem
& its dual, comparison of amplifier configuration.
Section-B
Transistor Biasing and Thermal Stabilization: Need of biasing, Types of biasing circuits,
Operating point, Bias stability, Stabil ization against variation in Ico, V BE and β,
Compensation techniques, Thermal run away, Thermal stabili ty.
Field Effect Transistors: Junction field effect transistor, Pinch off voltage, JFET
characteristics, and equivalent circuit , MOSFETS, Their construction and characteristics,
Biasing of JFETs.
Thyristors : Thyristor family, SCR-static and dynamic characteristics, Thyristor
commutated Techniques, Two transistor analogy, Triggering circuits, Thyristor
applications.
Text Books
1. Electronics Devices by Robert Boylsted, Tata McGraw Hill publica tions. 2. Electronic Devices and circuits, MC-Graw Hill Publication 1997 edition by Millman
& Halkias.
3. Power Electronics by P S Bhimbra, Khanna Publishers.
Reference Books
1. Integrated Electronics by Millman & Halkias Mc -Graw Hill Publication 1997 edition.
2. Electronic Devices and Circuits, S. Salivahanan etal, Tata McGraw hill , New Delhi
3. Electron Devices by Floyd, Pearson Asia, 5th Edition, 2001. 4. Microelectronic Circuits by Sedra Smith, Oxford University Press.
http://www.academia.edu/4016409/Microelectronic_Circuits_by_Sedra_Smith_5th_edition
Punjabi University, Patiala. Four Year B. Tech (ECM) Batch: 2018 / BOS: 2019
ECE Department Page 4 of 29
ECM 201 WAVE PROPAGATION
L T P Cr
3 1 0 3.5
Course Objective: To enhance student’s comprehensive capabilities in electromagnetic
field theory by study the behavior of stat ics and time varying electric and magnetic field in
a medium and transmission line.
Section-A
Basic of Electromagnetic: Del operator, Curl , Divergence, Gradient, Gauss divergence
theorem, Stokes theorem, Coulomb’s law, Gaussian law, Faraday’s law, Ampere’s law,
Boundary conditions at electric interfaces and magnetic interfaces, Maxwell’s equation in
integral and differential form for static and time varying fields, Transmission line equation,
primary and secondary constants ,condition for loss -less and distortion-less line, loading of
lines, quarter wave transformer, stub matching ,concept of VSWR and reflection
coefficients.
Section-B
Antenna parameters: Radiation resistance, Radiation pattern. Beam width, Gain, Directivity, Effective
height, Effective aperture, Polarization, Bandwidth and antenna temperature. Radiating Wire Structures:
Folded dipole, loop antenna. Principles of pattern multiplication, Broadside arrays, End fire arrays, Yagi-Uda
Antenna. Horn Antenna, Log Periodic Antenna, Antenna Measurements (Gain & Radiation
pattern).Propagation of Radio Waves: Friss Free Space Equation, Different modes of propagation: Ground
waves, Space waves, Surface waves and Troposphere waves. Ionosphere, Wave propagation in the Ionosphere.
Critical frequency, Maximum usable frequency (MUF), Skips distance.
Text books:
1. Kraus, Electromagnetics, McGraw Hill., New York 2. Sadiku, Elements of Electromagnetics, Oxford Press. 3. Antennas Analysis & Design- C.A.Balanis, John Wiley,1997
Reference books:
1. E.C. Jordan, Electromagnetic Waves and radiating systems, Prentice Hall of India, New Delhi.
2. Antennas Analysis & Design- C. A. Balanis, John Wiley,1997
Punjabi University, Patiala. Four Year B. Tech (ECM) Batch: 2018 / BOS: 2019
ECE Department Page 5 of 29
ECM 202 DATA COMMUNICATION
Course Objectives
At the end of the course, the students will be able to:
L T P Cr
3 1 0 3.5
Build an understanding of the fundamental concepts of computer networking.
Familiarize the student with the basic taxonomy and terminology of the computer networking area.
Introduce the student to advanced networking concepts, preparing the student for entry Advanced courses in computer networking.
Allow the student to gain expertise in some specific areas of networking such as the design and maintenance of individual networks.
SECTION-A
Introduction, history and development of computer networks, Types of computer networks: LAN,
MAN, WAN, broadcast and point to point networks, Network topologies.
Layered Architecture: concept of layers, protocols, interfaces and services, The OSI Reference
Model, The TCP/IP Reference Model, Comparison of OSI and TCP/IP Models
Physical Layer: Concept of Analog & Digital Signal, Bandwidth, Transmission Impairments:
Attenuation, Distortion, Noise, Data rate limits: Nyquist formula, Shannon Formula, Switching:
Circuit Switching, Message Switching and Packet Switching, Comparison of Repeaters, Hubs,
Switches.
Transmission media: Twisted Pair, Co-axial Cables, Fiber Optics, Wireless Transmission: Radio
and Microwave and Infrared Transmission
SECTION-B
Data Link Layer: Data link layer Design Issues, Error Detection and Correction, Elementary data
link protocols: An Unrestricted Simplex Protocol, A Simplex Stop and Wait Protocol, A Simplex
Protocol for a Noisy Channel. Sliding window protocols: A One Bit Sliding Window Protocol, A
Protocol Using go back N, A Protocol using Selective Repeat, CSMA CSMA/CD Protocols.
Network layer: IP Addressing, IPV4 header, Fragmentation, Routing algorithms:-Shortest Path
Routing, Flooding, Distance Vector Routing and Link State Routing, Introduction to Congestion,
Congestion Control.
Transport layer: Introduction to Elements of Transport Protocols UDP, TCP Application layer: Electronic-mail, WWW, Domain Name System, SMTP, HTTP.
Recommended Books:
1. A. S. Tannenbaum. Computer Networks, 3rd Edition, Prentice-Hall.
2. D. E. Comer. Internetworking with TCP-IP: Principles, Protocols and Architecture, Vol I, 2nd Edition, Prentice Hall, 1991.
3. D. E. Comer and D. L. Stevens. Internetworking with TCP-IP: Design, Implementation, and Internals, Vol II, Prentice Hall, 1990.
Punjabi University, Patiala. Four Year B. Tech (ECM) Batch: 2018 / BOS: 2019
ECE Department Page 6 of 29
CPE-206 VISUAL PROGRAMMING USING VB.NET
L T P Cr
3 0 0 3.0
Course Objectives
The student will use Visual Basic.Net to build Windows applications using structured and
object-based programming techniques. Students will be exposed to the fo llowing concepts
and/or skills:
Analyze program requirements
Explain the structure of Visual Basic .NET projects.
Design/develop programs with GUI interfaces
Code programs and develop interface using Visual Basic .Net
Perform tests, resolve defects and revise existing code
Identify the purpose of each major controls of the Visual Basic .NET IDE.
Explain basic programming practices that contribute
SECTION-A
Introduction to .NET: NET Framework features & architecture, CLR, Common Type
System, MSIL, Assemblies and class libraries.
Introduction to Visual studio : Project basics, types of project in .Net, IDE of VB.NET -
Menu bar, Toolbar, Solution Explorer, Toolbox, Properties Window, Form Designer, Output
Window, Object Browser. Event driven programming: Methods and Events.
The VB.NET Language: Variables, Declaring variables, Data Type of variables, Scope &
lifetime of a variable, Constants. Control flow statements: conditional statement, loop
statement. Msgbox & Inputbox. Arrays, types of array, String.
Working with Forms: Loading, showing and hiding forms, controlling One form within
another.GUI Programming with Windows Form: Textbox, Label, Button, Listbox,
Combobox, Checkbox, PictureBox, Radio Button, Panel, Scroll bar, Timer, List View, Tree
View, Toolbar, Status Bar. Their Properties, Methods and Events.
Common Dialog Controls: OpenFile Dialog, SaveFileDialog, FontDialog, ColorDialog,
Print Dialog.
MDI: SDI vs MDI, Designing menus, Adding Menus.
SECTION-B
Procedures And Classes : Collections, Subroutines, Functions, Passing variable, Number
of Argument, Optional Argument, Returning value from function, classes. Object & Classes,
Namespaces, Error Handling, Debugging.
Using ADO.Net: Connection, Data Adapter, Data Sets, Data Commands, Advance Data
Bound Controls, Introduction to Crystal Reports.
Building a custom window control: Adding new properties, methods and events, testing a
control, enhancing existing controls.
Introduction to Database Concepts: Data independence, DBMS Architecture, components
of a database system, Advantages and disadvantages of Database system, Schemas,
Instances, ER Model.
Introduction to Relational Database Management System: DDL statements: Table
Creation and Management: Create Alter, Drop and Rename Table, create view, DML
statements: select , insert, update and delete. TCL statement: Commit, Rollback. Integrity
Constraints in SQL: Primary key , Foreign Key, Not Null, Unique, Check, Basic SQL Query,
Note: This subject is common to all branches. Only basics of Database concepts and SQL are covered.
RECOMMENDED BOOKS:
1. Brian Siler & Jeff Spotts, “Microsoft Visual Basic.Net” 2. Matthew MacDonald, “.NET Insight for VB Developers” 3. “Mastering in VB.Net” 4. “Using Microsoft Visual Basic.NET” by Brian Siler and Jeff Spotts, Pearson Education. 5. Prateek Bhatia, Database Management system, Kalayani Publishers 6. Korth and Silberschatz Abraham, Database Concepts, McGraw Hall, 1991
Punjabi University, Patiala. Four Year B. Tech (ECM) Batch: 2018 / BOS: 2019
ECE Department Page 7 of 29
ECM 203 DATA STRUCTURES AND ALGORITHMS
L T P Cr
3 1 0 3.5
COURSE OBJECTIVES:
To impart the basic concepts of data structures and algorithms
To understand concepts about searching and sorting techniques
To Understand basic concepts about stacks, queues, lists, trees and graphs
To understanding about writing algorithms and step by step approach in solving problems with the help of fundamental data structures
SECTION-A
Basic Data Structures and Operations on them: Arrays, Stacks and Queues and Their
Applications, Linked and Sequential Representation. Linked List, Representation of Linked List,
Multi-Linked Structures
Searching and Sorting: use of Various Data Structures for Searching and Sorting, Linear and Binary
Search, Bubble Sort, Insertion Sort, Shell Sort, Selection Sort. Merge Sort, Radix Sort, Quick Sort.
Hashing: Introduction to hash table, hash function, resolving collision by chaining and open
addressing, deleting items from a hash table.
SECTION-B
Trees: Definitions and Basic Concepts, Linked Tree Representation, Representations in Contiguous
Storage, Binary Trees, Binary Tree Traversal, Searching, Insertion and Deletion in Binary Trees,
Binary Search Tree, Heap and Heap Sort Algorithm, AVL Trees.
Graphs and Their Application, Sequential and Linked Representation of Graph-Adjacency Matrix,
Operations on Graph, Traversing a Graph, Dijkstra's Algorithm for Shortest Distance, DFS and BFS,
Minimal Spanning Tree.
File Organization: Sequential, Relative, Index Sequential.
Recommended Books:
1. Data structures: a Pseudocode Approach with-C, IInd Edition,' Cengage Learning (Thomson).
2. Fundamentals of Data Structures, CBS Publishers and Distributors, Delhi, Ellis HorwitZ and Sartaj Sahni.
3. An introduction to data structures with applications, Mc-Graw Hill Inc., J.P. Trembley and P.G, Sorensen.
4. Data Structures and Program Design in C Prentice Hall of India, 1992, Robort L. Kruse, Bruce P. Leung, Cluvis L. Tundo.
5. Data Structure using (C & C++, Sanjeev Kumar, Khanna Publishers.
6. A Simplified Approach to Data Structures, Shroff Publications,Vishal Goyal, Lalit Goyal and Pawan Kumar.
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ECE Department Page 8 of 29
BAS-202 DISCRETE MATHEMATICS
L T P Cr
3 1 0 3.5
Course Objectives: Throughout the course, students will be expected to demonstrate their
understanding of Discrete Mathematics by being able to do each of the following:
1. Use mathematically correct terminology and notation.
2. Construct correct direct and indirect proofs.
3. Demonstrate different methods for Graphs, Boolean Algebra and
Switching Theory.
4. Apply logical reasoning to solve a variety of problems.
Course Content
Section-A
Relations and Functions: Binary Relations; Types of Relations; Compositions and inverse
of Relations; Equivalence Relations and Partitions; Partial Ordering Relations; Chains and
Anti-chains; Functions; Injective Functions, Surjective Functions, Bijective Functions; Sum
and Product of Functions; Inverse and Composition of Functions; Inclusion and Exclusion;
Pigeon-hole Principle; Linear Recurrence Relations with constant coefficients;
Homogeneous solutions; Particular solutions; Solution by Method of Generating Functions.
Algebraic Structures: Algebraic structures with one binary operation: semi -group, monoid
and groups; Cosets ; Lagrange’s Theorem (only statement); Homomorphism of groups.
Section-B
Introduction to Graphs: Graphs and their basic terminology; Multigraphs and Weighted
Graphs; Matrix representation of Graphs; Paths and Circuits; Shortest Paths in Weighted
Graphs; Dijkstra’s Algorithm; Planar Graphs; Euler’s Theorem; Eulerian Paths and Circuits;
Hamiltonian Paths and Circuits.
Boolean Algebra: Partial ly Ordered Set; Lattices and Algebraic System; Principle of
Duality; Distributive and Complemented Latt ices; Boolean Algebra; Boolean Functions and
Boolean Expressions; Disjunctive and Conjunctive Normal Forms; Appli cations of Boolean
Algebra in Switching Theory; Series and Parallel connections.
RECOMMENDED BOOKS:
1. C. L. Liu, Elements of Discrete Mathematics, 2nd Ed., Tata McGraw-Hill, 2000.
2. J. P. Tremblay and R. P. Manohar, Discrete Mathematics with Applications to
Computer Science, Tata McGraw-Hill, 1997.
3. K. H. Rosen, Discrete Mathematics and i ts Applications, 6th Ed., Tata McGraw-Hill,
2007.
Punjabi University, Patiala. Four Year B. Tech (ECM) Batch: 2018 / BOS: 2019
ECE Department Page 9 of 29
ECE 251 ELECTRONIC DEVICES LAB
L T P CR
0 0 2 1.0
List of Experiments
1. Study of h-Parameters of CE transistor. 2. Study of h-Parameters of CB transistor. 3. Study of V-I characteristics of Photodiode. 4. Study of V-I characteristics of photo transistor. 5. Study of V-I characteristics of JFET. 6. Study of VI characteristics of MOSFET. 7. Study of Clipping & clamping CKT using Diode. 8. Study of V-I characteristics of SCR. 9. Study of Diode as rectifier. 10. Study of different fil ters. 11. Study of V-I characteristics of DIAC 12. Study of V-I characteristics of TRIAC. 13. Study the applications of Thyristor.
Special Note: In addition to above experiments, every student has to prepare a
working project/kit /hardware or software model based on the above
syllabus/experiments. 20% weightage (internal (10%) + external (10%)) will be
given for this during evaluations.
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ECE Department Page 10 of 29
CPE – 256 VISUAL PROGRAMMING using VB.NET
L T P Cr
0 0 2 1
OBJECTIVE:-
The students are required to do following exercises:
1. Write a windows application to demonstrate control structures of VB.NET.
2. Write a windows application to demonstrate various controls of VB.NET.
3. Write a Windows application that functions like a Mathematical Calculator.
4. Write a windows application that functions like a Stopwatch.
5. Write a Windows application demonstrating the use of string functions.
6. Write a Windows application demonstrating the use of Arrays.
7. Write a windows application that functions like a Notepad (using Menu Editor, Common Dialog Control, Textbox's properties).
8. Write a windows application demonstrating the use of ADO.
9. Write a Windows application for building a user control.
10. Write a windows application demonstrating various MDI features supported in VB.NET.
11. Creation of tables, virtual tables and views in SQL
12. Viewing the contents of data dictionary
13. Insert, update, delete of table rows in SQL
14. Changing of schema
15. Practice of simple SQL queries
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ECE Department Page 11 of 29
ECM-253 DATA STRUCUTRE USING C++ LAB
L T P Cr
0 0 2 1.0
List of Experiments
1. Write a program to check whether a string is palindrome or not
2. Write a program to extract substring from given string.
3. Write a program to implement stack using arrays.
4. Write a program to implement queues using arrays.
5. Write a program to sort a given list of numbers using following algorithm.
1. Bubble sort
2. Insertion sort
3. Selection sort
4. Quick sort
5. Radix sort 6. Write a program to implement linear and binary search algorithm.
7. Write a program to create a linked list and perform following operations:
1) Insert element at beginning.
2) Insert element at end.
3) Insert element at given position.
4) Delete element from beginning
5) Delete element at end.
6) Delete element from given position.
8. Take a list of numbers and create a sorted linked list from given list
9. Implement stack using linked representation.
10. Implement queue using linked representation.
Special Note: In addition to above experiments, every student has to prepare a
working project/kit /hardware or software model based on the above
syllabus/experiments. 20% weightage (internal (10%) + external (10%)) will be
given for this during evaluations.
Punjabi University, Patiala. Four Year B. Tech (ECM) Batch: 2018 / BOS: 2019
ECE Department Page 12 of 29
All UG Courses - II Year
Environmental and Road Safety Awareness
Time Allowed : 3 hours Total Marks : 100
Total lectures : 50 Pass marks : 35
Instructions
a) The paper has been introduced from the session 2013-14. b) The paper will be taught in the Second year/fourth Semester of all the U.G. Courses (B.A.,
B.Com., B.Sc., Law, Engineering, Commerce, Agriculture etc.) except LL.B. three year
course and will be a qualifying paper only. The marks of this paper will not be counted
towards final score of the under graduate degree.
c) This will cover only preliminary and basics of the subject and the paper will be set accordingly.
d) The written paper will have two parts. Each part of the paper will be of 50 marks and will contain ten questions. The candidates will attempt five questions out of each part. The
answer to each question should not exceed 500 words. Each question will carry ten marks.
Section – I
Unit 1 : The multidisciplinary nature of environmental studies. Definition, scope and importance
Concept of Biosphere – Lithosphere, Hydrosphere, Atmosphere.
Need for public awareness (6 lectures) Unit – 2 Natural Resources – Renewable and non-renewable resources.
Natural resources and associated problems. a) Forest resources : use and over exploitation, deforestation and its impact. b) Water resources ; use and overutilization of surface and ground water and its
impact.
c) Mineral resources : use and effects on environment on over exploitation. d) Food resources : Effects modern agriculture, fertilizer-pesticide problem, water
logging and salinity.
e) Energy resources : Growing energy needs, renewable and non-renewable energy sources, use of alternate energy resources.
f) Role of an individual in conservation of natural resources for sustainable development. (7 lectures)
Unit 3 : Ecosystems
Ecosystem and its components : Definition, structure and function; producer, consumer and decomposer.
Types of Ecosystem (Introduction only)
Food Chains, food web and ecological pyramids (6 lectures) Unit – 4 : Biodiversity and conservation
Introduction – Definition : genetic, species and ecosystem diversity, value of biodiversity.
Hot spots of biodiversity
Threats to biodiversity : habitat loss, poocting of wildlife, man-wildlife conflicts.
Endangered and endemic species of India.
Conservation of Biodiversity. (6 lectures) Section – II
Units 5 : Environmental Pollution
Definition, causes, effects and control measures of a) Air pollution b) Water pollution c) Soil pollution d) Marine pollution e) Noise pollution f) Thermal pollution g) Nuclear hazard
Role of an individual in prevention of pollution.
Solid waste management : vermicomposting.
Disaster management : Floods, earthquake, cyclone and landslides (7 lectures) Unit 6 : Social Issues and the Environment
Urban problems related to energy.
Water conservation rain water harvesting, water shed management.
Resettlement and rehabilitation of people : its problems and concerns.
Climate changes, global warming, acid rain, ozone layer depletion.
Punjabi University, Patiala. Four Year B. Tech (ECM) Batch: 2018 / BOS: 2019
ECE Department Page 13 of 29
Consumerism and waste products.
Population explosion – Family welfare programme (6 lectures) Unit 7 : Introduction to Environmental Protection Laws in India
Environmental Protection Act.
Air (Prevention and control of pollution) Act.
Water (Prevention and Control of pollution) Act.
Wild life Protection Act.
Forest Conservation Act.
Issues involved in the enforcement of environmental legislation. (6 lectures) Unit 8 : Road safety Awareness
Concept and significance of Road safety.
Traffic signs.
Traffic rules.
Traffic Offences and penalties.
How to obtain license.
Role of first aid in Road Safety. (6 lectures)
Punjabi University, Patiala. Four Year B. Tech (ECM) Batch: 2018 / BOS: 2019
ECE Department Page 14 of 29
FOUR YEAR B. TECH.
(Electronics and Computer Engineering)
Second Year, 4th SEMESTER
Batch 2018
(Session 2019-2020)
SCHEME OF PAPERS
CODE TITLE OF PAPER
LOAD
L T P CR .
ECE
209
Digital Electronic
Circuits
3 1 0 3.5
ECE
210
Analog Electronic
Circuits
3 1 0 3.5
ECM
205
Computer System
Architecture
3 1 0 3.5
ECM
206
Operating System 3 1 0 3.5
ECE
213
Circuit Theory 3 1 0 3.5
ECE
214
Signals & Systems 3 1 0 3.5
ECM
254
Analog and Digital
Electronic Circuits
Lab*
0 0 2 1.0
ECM
256
Operating System
Lab*
0 0 2 1.0
ECE
263
Circuit Theory
Lab*
0 0 2 1.0
** Punjabi 3 0 0 0
21 6 6 33
Total contact hours: 33
* ECM 254, ECM 256, ECE 263 are practical papers only. There will not be
any theory examination for these papers.
* * In addition to above mentioned subjects, there will be an additional
course on Punjabi as a qualifying subject.
Punjabi University, Patiala. Four Year B. Tech (ECM) Batch: 2018 / BOS: 2019
ECE Department Page 15 of 29
Faculty of Engineering
Punjabi University, Patiala.
General Instructions to the Paper Setters
(Common for B.Tech. in Computer Science Engineering, Electronics and
Communication Engineering, Electronics and Computer Engineering, Mechanical
Engineering, Civil Engineering and Integrated B.Tech./MBA Branches)
Applicable from 2014 Batch
The B. Tech paper structure will be as shown below:
Pattern of Question Paper TITLE OF SUBJECT (CODE----)
Bachelor of Technology (Branch): ………..
End Semester Exam
TIME ALLOWED: 3 Hour
Roll . No………….
Maximum Marks: 50
Note:- Section C is compulsory. Attempt any six questions by selecting three
questions from section A & three questions from section B.
Section-A (From Section A of the syllabus) Q1. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Q2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Q3. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Q4. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Q5 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3x5
Section-B (From Section B of the syllabus) Q6. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Q7. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Q8. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Q9. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Q10. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
3x5
Section-C (From whole syllabus) Q11
a). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
b) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
c) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
d) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
e) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
f) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
g) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
h). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
i ) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
j ) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
10x2=20
Note for the paper set ter:
1. Total numbers of questions to be set are nine (11) as per the above format. 2. There will be FIVE questions in each of the Sections A and B. Each question will
be of five (05) marks. However , a question may be segregated into sub parts.
3. Section C is compulsory and contains ten (10) sub -parts each of two (2) marks. 4. The maximum limit on numerical problems to be set in the paper is 35% while
minimum limit is 20%.
5. The paper setter shall provide detailed marking instructions and soluti ons to numerical problems for evaluation purpose in the separate white envelopes
provided for solutions.
6. The paper setters should seal the internal & external envelope properly with signatures & cello tape at proper place.
7. Log tables, charts, graphs, Des ign data tables etc. should be specified, whenever needed.
8. Use of Scientific calculator should be clearly specified.
Punjabi University, Patiala. Four Year B. Tech (ECM) Batch: 2018 / BOS: 2019
ECE Department Page 16 of 29
ECE 209 DIGITAL ELECTRONIC CIRCUITS
L T P CR
3 1 0 3.5
Course Objectives: At the end of this course, the student should be able to demonstrate the ability
to use logic gates, Basic Boolean laws, minimization techniques for the designing of various
combinational circuits. The student should also be able to describe operation, characteristic
equations, excitation table of various flip flops and explain the conversion of flip flops. Design
and analyze sequential circuits from the basic building blocks and describe memories, A/D, D/A
Converters, Logic families and their characteristics.
Section-A
Review of Number Systems, Codes and Gates , Evaluating logic circuit outputs,
Implementing circuits from Boolean expressions. Boolean theorems, DeMorgan's
theorem, universality of NAND and NOR gates, IEEE/ANSI standard logic
symbols.
Combinational Logic Circuits: Sum of product form, Product of sum form,
Simplification of Boolean functions using algebraic and Karnaugh map methods.
Half adder, Full adder, half subtractor, full subtractor circuits, parity generator
and checker circui ts, comparator circuit.
Combinational digital circuit design : Multiplexer, Demultiplexer, Code
converters, Combinational logic circuits. Some examples of Boolean gate ICs.
Sequential Circuits: RS, JK, D and T fl ip-flops circuits and their conversions,
Serial and parallel counters and shift registers, Universal shift registers, some
examples of counter and shift register ICs.
Section-B
Logic families and digital ICs: Characteristics of digital ICs, Classification of
different logic families: TTL, ECL, MOS and CMOS, their operation and
specifications.
Memories: Semi-conductor memories, ROM and RAM, ROM using diodes, BJTs,
and FETs. RAM cell . Memory organization and expansion. An idea about other
types of memories.
Digital to Analog and Analog to Digital Converters: Variable register network,
R-2R D/A converters. D/A accuracy and resolution, A/D converters,
Simultaneous conversion and counter method.
Recommended Books:
1. Digital Design by Morris Mano, PHI, 4th edition 2008
2. Digital principles and Applications, by Malvino Leach, TMH 2011
3 Digital System Principles and Applications, by R J Tocci (PHI) 2009
4 Modern Digital Electronics, by R P Jain, TMH 2006
5 Digital Integrated Electronics, by Taub Schilling, TMH 2004
Course Outcomes: By the end of this course the student will be able to
1 Identify the components and design combinational and sequential circuits using them.
2 Compare the different logic families, memories and A/D-D/A converters.
3 Design an application based on digital circuits.
Punjabi University, Patiala. Four Year B. Tech (ECM) Batch: 2018 / BOS: 2019
ECE Department Page 17 of 29
ECE 210 ANALOG ELECTRONIC CIRCUITS
L T P CR
3 1 0 3.5
Course Objective: Through this course, the students will acquire knowledge of: -
The behavior of BJTs at high frequency using pi -model, -Develop the ability to
analyze and design analog electronic circuits using discrete components, -Concept
of feedback used in amplifiers and its need, -Working of power amplifiers, power
amplifier circuits, tuned amplifiers, Oscil lators, compare experimental results in
the laboratory with theoretical analysis.
Section-A
High Frequency Transistor: The high frequency T model, CB short circuit
current frequency response, Alpha cut -off frequency, CE short circuit current
frequency response, Hybrid pi CE transistor model, hybrid pi conductance in
terms of low frequency h – parameters, CE short circuit current gain obtained
with hybrid pi model, current gain with resistive load.
Feedback Amplifier: Classification of amplifier, Feedback concept, General
characteristics of negative feedback amplifiers, Analysis of a feedback amplifier,
Various types of feedbacks and their effects on amplifier performance.
Section-B
Power Amplifiers: Class A large signal amplifier, second and higher harmonic
distortion, transformer coupled amplifiers, Efficiency of amplifiers, Push -pull
amplifiers (class A & class B).
Tuned Amplifiers: Single tuned capacitively coupled amplifier & its steady state
response, Determination of Gain, Bandwidth product, Tapped tuned, Inductively
coupled single tuned circuit, Double tuned circuits.
Oscillators: Condition for sustained oscillation, R -C phase shift, Hartley,
Colpitts , Crystal and Wien Bridge Oscillators.
Text Books
1. Electronics Devices by Robert Boylsted, Tata McGraw Hill publications. 2. Electronic Devices and circuits, MC-Graw Hill Publication 1997 edition by Millman &
Halkias.
3. Malvino, " Electronic Principles" Prentice Hall of India, New Delhi.
Reference Books
1. Integrated Electronics by Millman & Halkias Mc-Graw Hill Publication 1997 edition. 2. Electronic Devices and Circuits, S. Salivahanan etal, Tata McGraw Hill, New Delhi. 3. Electron Devices by Floyd, Pearson Asia, 5th Edition, 2001. 4. Liner Integrated circuits by Gayekward. 5. Engineering Electronics by Alley & Attwood. 6. Burns and Bond, "Principles of Electronic Circuits" PWS Publishing Company Boston.
Punjabi University, Patiala. Four Year B. Tech (ECM) Batch: 2018 / BOS: 2019
ECE Department Page 18 of 29
ECM 205 COMPUTER SYSTEM ARCHITECTURE
L T P Cr
3 1 0 3.5
Course Objectives:
To have a thorough understanding of the basic structure and operation of a digital
computer.
To discuss in detail the operation of the arithmetic unit including the algorithms & implementation of fixed-point and floating-point addition, subtraction,
multiplication & division.
To study the different ways of communicating with I/O devices and standard I/O
interfaces.
To study the hierarchical memory system including cache memories and virtual
memory
SECTION-A
Introduction: Design of basic computer, Registers, Accumulator, Flags, Program Counter,
Stack Pointer, Machine Instructions, Instruction Cycle, Machine Cycle, Components of CPU.
Register Transfer and Micro operations: Register transfer Language, Register transfer,
Bus & memory transfer, Logic micro operations, Shift micro operation.
Controller Design: Hardwired and Micro programmed Approach.
Micro program Control Organization: Control Memory Address Sequencing, Micro
program Sequences, Microinstruction Formats, and Addressing modes.
Arithmetic Unit: Comparison and Subtraction of unsigned Binary Numbers, Addition,
Subtraction, Multiplication Algorithm.
SECTION-B
Memory System: Memory - CPU interaction, Principle of locality (Temporal and Spatial).
Memory Organization: Interleaved Memory Organization, Memory Hierarchy, Main
Memory, Virtual Memory, Cache Memory, Cache Organization (Direct, Fully Associative,
Set Associative), Cache Coherence, Memory Management Hardware, Performance
Considerations.
Input-Output Organization: I/O interfaces and Buses, I/O operations, Program driven
Input- Output, Interrupt driven Input-Output, DMA, Priority Interrupt.
Pipeline Processing: Overview of Pipelining, Types of Pipelining, Hazards (Data, Control,
Structural).
Computer Peripherals and Interfaces: Introduction to I/O buses: ISA, PCI, SCSI, EISA,
Local bus, VESA Local bus, PCI bus, PCI Express, Accelerated graphics port bus.
Recommended Books:
1. Computer System Architecture: M.M. Mano, Prentice Hall of India.
2. Structured Computer Organization: Andrew S. Tanenbaum, Prentice Hall of India
3. J.P. Hayes, Computer Systeui Architecture, Prentice Hall of India, New Delhi.
4. Ali leigh. System Architecture, South wester publishing co. New Delhi.
5. William Stallings, “Computer Organization and Architecture – Designing for Performance”, 6th Edition, Pearson Education, 2003.
Punjabi University, Patiala. Four Year B. Tech (ECM) Batch: 2018 / BOS: 2019
ECE Department Page 19 of 29
ECM 206 OPERATING SYSTEMS
L T P Cr
3 1 0 3.5
Course objectives:
• To learn the fundamentals of Operating Systems.
• To learn the mechanisms of OS to handle processes and threads and their
communication
• To learn the mechanisms involved in memory management in
contemporary OS
• To gain knowledge on distributed operating system concepts that includes
architecture,
Mutual exclusion algorithms, deadlock detection algorithms and agreement
protocols
• To know the components and management aspects of concurrency
management
• To learn programmatically to implement simple OS mechanisms
SECTION-A
Basic Functions and Concepts of Operating Systems: Concept of an
operating system, batch system, Multi -programmed, Time sharing, Personal
Computer System, Parallel system, Real time system, Network Operating
System and Distributed Operating System.
Features and Objective of Operating Systems: System components,
operating system services, System calls, System Programmers, System
Structure: Simple Structure, Layered Approach, Microkernel
Process Management: Concept of process, process states, process control
block, Process Scheduling: Scheduling Queues, Schedulers, and Context
Switch, operations on processes CPU scheduling Algorithms: FCFS, SJF,
RR and priority, Multilevel queue scheduling, Multi level
feedback queue scheduling
Deadlocks: Introduction to deadlocks, Necessary Conditions for deadlock,
Resource allocation graph, Deadlock Prevention, Deadlock Avoidance: Safe
state, Resource-Allocation-Graph Algorithm, Banker's Algorithm,
Deadlock Detection, Recovery from Deadlock
SECTION-B
Memory Management: Logical and physical address space, Swapping,
Contiguous memory Allocation: Memory Protection, Memory Allocation,
Fragmentation, paging: basic method, Protection and shared pages,
segmentation: basic method, hardware, Protection and sharing, virtual
memory, Demand Paging, Page Replacement Algorithms ((FIFO, Optimal,
LRU, LRU Approximation page replacement), Allocation of Frames,
Thrashing.
Information Management: Files - fi le concept, file types, File attributes,
file operations, access methods, al location methods (contiguous, linked,
indexed), directory structure free -space management (bit vector, linked list ,
grouping, counting) ,
Disk Management: Disk structure, Disk Scheduling (FCFS, SSTF, SCAN,
C-SCAN, LOOK), Disk Management (Disk Formatting, Boot Block, Bad
Blocks), Swap Space Management: Swap Space Use, Swap Space Location.
Case Studies: Brief introduction of Windows, UNIX and LINUX.
Recommended Books:
1. Operating System: (Sixth Edition) 2005: Galvin Silberschatz, Addison
Wesley Publishing Ltd.
2. Flynn "Understanding operating Systems", Cengage Learning (Thomson)
3. DM Dhamdhere, "Operating System r A Concept Based Approach", Tata
Me Graw- Hill.
Punjabi University, Patiala. Four Year B. Tech (ECM) Batch: 2018 / BOS: 2019
ECE Department Page 20 of 29
4. Operating Systems Design and Implementation: Andrew S. Tanembaum,
PHI (Latest Edition).
Punjabi University, Patiala. Four Year B. Tech (ECM) Batch: 2018 / BOS: 2019
ECE Department Page 21 of 29
ECE 213 CIRCUIT THEORY
L T P CR
3 1 0 3.5
Course Objective: The study of electrical circuits takes off from principles of AC and DC theory
and introduces the student to parameters and characteristics of various networks. The aim of the
subject to understand the different types of circuits and their analysis based on network theorems
and to determine the current, voltage and power in the circuit. The students will be able to analyze
two port networks, stability of a circuit and to find time response of the circuit. The circuits are
designed using Foster and Cauer forms. The knowledge of Laplace's transform and Inverse
will help students to work in multi-disciplinary fields of electronics engineering.
Section-A
Network Theorems and Two Port Network Descriptions: Thevenin's theorem
as applied to ac circuits , Norton's theorem as applied to AC circuits,
Superposition theorem as applied to ac circuits, Maximum power transfer theorem
as applied to A.C. Circuits, Two port description in terms of open circuits,
impedance Parameters, Short circuit admittance parameters, Hybrid parameter s
and transmission, Inter -connection of two port network, Duality networks.
Inductively Coupled Circuits : Coefficient of coupling, mutual inductance in
loop and nodal equations.
Section-B
Time Domain Analysis: Unit functions-step, impulse and ramp funct ions,
Laplace's transform and Inverse, Solution of network problems using Laplace
transform, Solution of Transient and Steady state response of RL & RC networks
with different types of forcing functions. Solutions of transient and steady state
response of series RLC circuit with step input.
Network Synthesis: Synthesis vs. Analysis, Elements of circuit synthesis,
Introduction and general considerations in network synthesis, Purpose and scope
of network synthesis.
Positive Real Functions: Definition, Necessary and Sufficient conditions for a
function to be positive real , testing of driving point functions for positive
realness.
Foster & Cauer Forms: Foster and Cauer Forms realization in terms of RC, RL
and LC networks.
Text Books:
1. Sudhakar & Shyammohan, “Circuits & Networks”, Tata McGraw Hill. 2. Joseph Administer, “Circuit Theory”, S. Chand Series 3. Abhijit Chakarbarti, “Circuit Theory”, Dhanpat Rai & Sons, New Delhi 4. Vanvalkenberg, “Network Analysis”, Prentice Hall 5. D. Roy Choudhary, “Networks & Systems”, New Age International, New Delhi. 6. Vanvalkenberg, M.E., “Networks Analysis”, P rentice Hall of India (2007) 3rded. 7. Arshad, M., “Network Analysis and Synthesis”, Laxmi Publications (2008) 2nded.
Reference Books:
1. Franklin F. Kuo, Network Analysis and Synthesis, John Wiley (2003) 2nd ed. 2. Anderson, B.D.O., Vongpanitlerd, S., Network Analysis and Synthesis, Dover Publications
(2006) 3rd ed.
3. Charles A. Desoer, Ernest S. Kuh, “Basic Circuit Theory”, McGraw-Hill Book Company. 4. William H. Hayt Jr., Jack E. Kemmerly, “Engineering Circuit Analysis” McGraw-Hill
Book Company
http://privateweb.iitd.ernet.in/~shouri/index.htmlhttps://archive.org/details/EngineeringCircuitAnalysis_280
Punjabi University, Patiala. Four Year B. Tech (ECM) Batch: 2018 / BOS: 2019
ECE Department Page 22 of 29
ECE 214 SIGNALS AND SYSTEMS
L T P CR
3 1 0 3.5
Course Objectives: The aim of this subject is to develop analytical capability of students, by
which they would be able to handle real time signal processing related problems and projects. The
understanding of various transforms will help the students to analyze the problems in both time
and frequency domain.
Couse Outcomes: The student will be able to:
explain the basic theory for discrete and continuous time signals and systems, and how they interact in the time and the frequency domain.
explain the basic principles for sampling of continuous time signals, the sampling theorem, and signal reconstruction,
analyze random phenomena and compute probabilities of random events and moments of random variables.
Section-A
Representation of Signal and Systems: Classifications of signals, Linear time
invariant systems, Representation of signals in terms of impulses, Discrete time
LTI systems, continuous time LTI systems, Properties of LTI systems, Systems
described by differential and difference equations.
Section-B
Fourier analysis: Signal representation using Fourier series, Representation of
periodic signals. Continuous and discrete t ime Fourier series, Exponential Fourier
series, Properties of Fourier series, Convergence of Fourier series, Continuous
and Discrete time Fourier transform, Properties of Fourier transform, Analysis of
discrete time signals and systems, Correlation, Autocorrelation.
Random Signals: Probability, Random variables, Probability density and
distribution functions, Moments of random variables, Random processes,
Transmission of signals through LTI systems, Gaussian Process, Central Limit
Theorem.
Recommended Books:
1. Oppenheim, Willisky and Nawab, "Signals & Systems", Tata Mcgraw
Hill,New Delhi.
2. Simon Haykin and Barry Van Been, “Communications System", Wiley
Eastern, USA
3. B.P.Lathi, “Communication Systems", Oxford Press, USA
4. A. Papouils, "Random Variables & Stochastic Process", Mcgraw Hill , USA
Reference Books/Articles:
1. Charles L. Philips, John M. Parr, Eve A. Riskin, “Signals, Systems and Transform”, Prentice Hall Third Edition 2003.
Punjabi University, Patiala. Four Year B. Tech (ECM) Batch: 2018 / BOS: 2019
ECE Department Page 23 of 29
ECM 254 ANALOG ELECTRONIC CIRCUITS LAB
L T P Cr
0 0 2 1.0
List of Experiments
1. To plot frequency response characterist ics of a RC Single stage RC coupled Amplifier.
2. To determine the voltage gain of a two stage RC coupled amplifiers. 3. To plot frequency response characteristics of Transformer coupled
amplifier.
4. To plot frequency response of a tuned voltage amplif ier and to calculate its resonant frequency.
5. To find voltage gain of an emitter follower and find its operating point . 6. To study Wein Bridge Qscillator. 7. To study Phase Shift Qscillator. 8. To study OP-Amp as differentiator & Integrator. 9. To study diode as a biased and unbiased clipper. 10. To study Astable Multivibrator using Transistors.
11. To study Bistable Multivibrator using Transistors.
12. To study OP-Amp as an inverting and non-inverting amplifier.
13. To study OP-Amp as summing and Average Amplifier.
14. To study the frequency response of audio amplifier.
Special Note: In addition to above experiments, every student has to prepare a
working project/kit/hardware or software model based on the above
syllabus/experiments. 20% weightage (internal (10%) + ex ternal
(10%)) will be given for this during evaluations.
Punjabi University, Patiala. Four Year B. Tech (ECM) Batch: 2018 / BOS: 2019
ECE Department Page 24 of 29
ECM 256 OPERATING SYSTEM LAB
L T P Cr
0 0 2 1.0
Hardware Lab
List of Experiments:
1. Identification of various computer components: Motherboard, Processor, System
buses, Expansion Buses and PC Power supplies, Memories etc.
2. PC assembling
Operating Lab
List of Experiments:
1. Familiarization of UNIX/LINUX Environment.
2. Installation and Administration of UNIX/LINUX operating system.
3. Implementation of common commands of UNIX operating systems.
4. Working on vi editor using its different modes.
5. Redirection of input and output using Filters and Pipes.
6. Shell programming and its features.
7. Implementation of programs using shell scripts.
Recommended Books:
1. Forouzan UNIX and Shell Programming 1st Edition, Cengage L
earning (Thomson)
2. Subhadeep Choudhury ‘The A to Z of PC hardware and Maintenance’, Dhannpat Rai & Co.
Special Note: In addition to above experiments, every student has to prepare a
working project/kit/hardware or software model based on the above
syllabus/experiments. 20% weightage (internal (10%) + external
(10%)) will be given for this during evaluations.
Punjabi University, Patiala. Four Year B. Tech (ECM) Batch: 2018 / BOS: 2019
ECE Department Page 25 of 29
ECE 263 CIRCUIT THEORY LAB
L T P Cr
0 0 2 1.0
List of Experiments
Exp No.
1. To study and verify Thevenin's Theorem.
2. To study and verify Norton's Theorem.
3. To study and verify Reciprocity Theorem.
4. To study and verify Maximum Power Transfer Theorem.
5. To study and verify Superposition Theorem.
5. To plot step Response of series RLC Circuit.
6. To plot step response of series RC Circuit.
7. To solve mesh equations using Matlab.
8. To solve nodal equations using Matlab.
9. To plot frequency Response of a given transfer function using Matlab.
10. To find laplace transforms of a given sinusoidal signal using Matlab.
11. To study and verify Kirchhoff 's Voltage Law.
12. To study and verify Kirchhoff 's current Law.
13. To calculate and verify Z-parameters of a T-Network.
14. To calculate and verify-parameters of a Pi network.
15. To calculate and verify Transmission parameters of a cascaded network.
Special Note: In addition to above experiments, every student has to prepare a
working project/kit/hardware or software model based on the above
syllabus/experiments. 20% weightage (internal (10%) + external
(10%)) will be given for this during evaluations.
Punjabi University, Patiala. Four Year B. Tech (ECM) Batch: 2018 / BOS: 2019
ECE Department Page 26 of 29
ਅੰਡਰ ਗ੍ਰੈਜੂਏਟ ਪੱਧਰ ਤੇ ਪਰੋਫ਼ੈਸ਼ਨਲ ਕੋਰਸ ਾਂ ਲਈ ਕੁਆਲੀਫ ਇੰਗ੍ ਪੰਜ ਬੀ
2016–2017, 2017–2018 ਅਤੇ 2018–2019 ਸੈਸ਼ਲ ਲਈ ਸਸਲੇਬਸ
ਕੱੁਲ ਅੰਕ: 100 ਸਲਖਤੀ: 60 ਅੰਕ
ਸਮ ਾਂ: 3 ਘੰਟੇ ਇੰਟਰਨਲ ਅਸੈਸਮੈਂਟ: 40
ਅੰਕ
ਪੀਰੀਅਡ: 3 ਪਰਤੀ ਹਫ਼ਤ ਪ ਸ ਅੰਕ: 40%
ਕੁਆਲੀਫ ਈ ਾਂਗ੍ ਪੰਜ ਬੀ
ਪੰਜਾਬੀ ਯੂਨੀਵਰਸਿਟੀ ਸਵਖੇ ਬੀ .ਟ ੈੱਕ . ਦੇ ਸਵਸਦਆਰਥੀਆਂ ਨੰੂ ਪੰਜਾਬੀ ਕੁਲਾਈਫਾਈਗਂ ਸਵਸ਼ੇ ਵੈੱਜੋਂ
ਪੜ੍ਹਾਉਣ ਦਾ ਮੁੈੱਖ ਉਦੇਸ਼ ਸਵਸਦਆਰਥੀਆਂ ਨੰੂ ਪੰਜਾਬੀ ਭਾਸ਼ਾ , ਿਾਸਿਤ ਅਤੇ ਿੈੱ ਸਭਆਚਾਰ ਨਾਲ ਜੋੜ੍ ਕੇ
ਰੈੱਖਣਾ ਿ । ਮੁੈੱਖ ਰੂਪ ਸਵਚ ਕੁਆਲੀਫਾਈਗਂ ਪੰਜਾਬੀ ਰਾਿੀ ਂ ਸਵਸਦਆਰਥੀਆਂ ਨੰੂ ਮਾਤ ਭਾਸ਼ਾ ਸਵਚ ਸਲਖਣ ,
ਬੋਲਣ , ਪੜ੍ਹਨ ਦੀਆਂ ਿਮੈੱ ਸਿਆਵਾਂ ਨੰੂ ਦੂਰ ਕਰਨ ਦੇ ਨਾਲ–ਨਾਲ ਪੰਜਾਬੀ ਿੈੱ ਸਭਆਚਾਰ ਅਤੇ ਨ ਸਤਕ
ਕਦਰਾਂ–ਕੀਮਤਾਂ ਨਾਲ ਜੋੜ੍ ਕੇ ਰੈੱਖਣ ਦਾ ਉਪਰਾਲਾ ਕੀਤਾ ਜਾਂਦਾ ਿ ।
1. ਪੰਜ ਬੀ ਦੀ ਪ ਠ–ਪੁਸਤਕ
(ਮੁੈੱਖ ਿੰਪਾਦਕ : ਬਲਦੇਵ ਸਿੰਘ ਚੀਮਾ , ਪਰਕਾਸ਼ਕ ਪਬਲੀਕੇਸ਼ਨ ਸਬਊਰੋ , ਪੰਜਾਬੀ ਯੂਨੀਵਰਸਿਟੀ , ਪਸਟਆਲਾ)
ਭ ਗ੍ ਪਸਹਲ :– ਪੰਜ ਬੀ ਸ ਸਹਤ
(ੳ) ਕਸਵਤਾ
(ਅ) ਕਿਾਣੀ
(ੲ) ਨਾਟਕ
ਭ ਗ੍ ਦੂਜ :– ਪੰਜ ਬ ਸਸਭਆਚ ਰ ਅਤੇ ਲੋਕਧ ਰ
ਭ ਗ੍ ਤੀਜ :– ਪੰਜ ਬੀ ਭ ਸ਼ ਤੇ ਗੁ੍ਰਮੁਖੀ ਸਲਪੀ
ਇਿ ਸਵਸ਼ਾ 100 ਅੰਕਾਂ ਦਾ ਿੋਵੇਗਾ ਸਜਿ ਸਵਚ 40 ਅੰਕ ਇੰਟਰਨਲ ਅਿ ਿਮੈਂਟ ਦੇ ਿੋਣਗੇ
ਅਤੇ 60 ਅੰਕ ਦਾ ਿਾਲਾਨਾ ਸਲਖਤੀ ਪੇਪਰ ਿੋਵੇਗਾ।
ਇੰਟਰਨਲ ਅਿ ਿਮੈਂਟ ਦੇ 40 ਅੰਕਾਂ ਸਵਚੋਂ 10–10 ਅੰਕਾਂ ਦੇ ਦੋ ਸਮਡ ਿਮ ਿਟਰ ਟ ਿਟ
ਿੋਣਗੇ ਸਜਿਦੀ ਸਵਧੀ ਮੌਸਖਕ / ਸਲਸਖਤ ਪਰ ਕਟੀਕਲ ਵਾਲੀ ਿੋਵੇਗੀ। 10 ਅੰਕ ਿਾਜਰੀ ਦੇ ਿੋਣਗੇ। 75%
ਿਾਜਰੀ ਯਕੀਨੀ ਬਣਾਉਣੀ ਜ਼ਰੂਰੀ ਿੋਵੇਗੀ। 75–80% ਿਾਜਰੀ ਦੇ 6 ਅੰਕ , 80–85% ਿਾਜਰੀ ਦੇ 8 ਅੰਕ
ਅਤੇ 85% ਅਤੇ ਇਿ ਤੋਂ ਵੈੱਧ ਿਾਜਰੀ ਦੇ 10 ਅੰਕ ਿੋਣਗੇ। ਬਾਕੀ 10 ਅੰਕ ਓਵਰਆਲ ਇਵ ਲੂਏਸ਼ਨ ਦੇ
ਿੋਣਗੇ।
10+10+10+10=40
60 ਅੰਕ ਾਂ ਦ ਸ ਲ ਨ ਪੇਪਰ ਲਈ ਅੰਕ–ਵੰਡ ਅਤੇ ਪੇਪਰ ਸੈਟਰ ਲਈ ਹਦ ਇਤ ਾਂ
ਪੁਿਤਕ ਦੇ ਸਤੰਨ ਭਾਗ ਿਨ। ਪਰੰ ਤੂ ਪਰਸ਼ਨ ਪੈੱਤਰ ਦੋ ਭਾਗਾਂ ਸਵਚ ਿੋਵੇਗਾ। ਪਰਸ਼ਨ ਪੈੱਤਰ ਦਾ
ਪਸਿਲਾ ਭਾਗ ਪੁਿਤਕ ਦੇ ਪਸਿਲੇ ਭਾਗ ਉਤੇ ਆਧਾਸਰਤ ਿੋਵੇਗਾ। ਇਿ ਭਾਗ ਦੇ ਕੁੈੱਲ 36 ਅੰਕ ਿਨ। ਪਰਸ਼ਨ
ਪੈੱਤਰ ਦਾ ਦੂਜਾ ਭਾਗ ਪੁਿਤਕ ਦੇ ਦੂਜੇ ਭਾਗ ਉਤੇ
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ਆਧਾਸਰਤ ਿੋਵੇਗਾ। ਇਿ ਭਾਗ ਦੇ ਕੁੈੱਲ 24 ਅੰਕ ਿੋਣਗੇ ਅਤੇ ਇਿ ਸਵਚ ਪੁਿਤਕ ਦੇ ਦੂਜੇ ਅਤੇ ਤੀਜੇ ਭਾਗ
ਦੇ 12–12 ਅੰਕ ਿੋਣਗੇ।
(1) ਪੁਸਤਕ ਦੇ ਪਸਹਲੇ ਭ ਗ੍ ਦੇ ਸਤੰਨ ਉਪ–ਭ ਗ੍ ੳ , ਅ ਅਤੇ ੲ ਹਨ। ਇਨ੍ ਾਂ ਸਤੰਨ ਾਂ ਉਪ–ਭ ਗ੍ ਾਂ
ਸਵਚੋਂ ਹੇਠ ਸਲਖੇ ਅਨੁਸ ਰ ਸੁਆਲ ਪੁੱਛੇ ਜ ਣਗੇ੍:
(ੳ) ਇਿ ਸਵਚ ਕੁੈੱਲ 12 ਪਰਸ਼ਨ ਐਬਜ ਕਸਟਵ ਟਾਈਪ/ਮਲਟੀਪਲ ਚੋਣ ਵਾਲੇ ਿੋਣਗੇ। ਿਰ ਉਪ–ਭਾਗ
ਸਵਚ 4–4 ਪਰਸ਼ਨ ਪੁੈੱ ਛੇ ਜਾਣਗੇ। ਿਾਰੇ ਪਰਸ਼ਨ ਕਰਨੇ ਜ਼ਰੂਰੀ ਿੋਣਗੇ। ਅੰਕ 12x1 = 12
(ਅ) ਿਰ ਉਪ–ਭਾਗ ਸਵਚੋਂ 5–5 ਲਘੂ ਪਰਸ਼ਨ ਪੁੈੱ ਛੇ ਜਾਣਗੇ ਸਜਨਹਾਂ ਸਵਚੋਂ 3–3 ਪਰਸ਼ਨ ਕਰਨੇ ਲਾਜ਼ਮੀ ਿੋਣਗੇ।
ਉਤਰ ਪੰਜ ਲਾਈਨਾਂ ਤੋਂ ਵੈੱਧ ਨਾ ਿੋਵੇ। ਅੰਕ 3x3 = 9x2 =18
(ੲ) ਿਰ ਉਪ–ਭਾਗ ਸਵਖੋਂ 1–1 ਪਰਸ਼ਨ ਪੁੈੱ ਸਛਆ ਜਾਵੇਗਾ। ਇਨਹਾਂ ਸਵਚੋਂ ਇਕ ਪਰਸ਼ਨ ਿੈੱਲ ਕਰਨਾ ਿੋਵੇਗਾ।
ਉਤਰ ਇਕ ਿਫ਼ੇ ਤੈੱਕ ਿੀਮਤ ਿੋਵੇ। ਅੰਕ 1x6 = 6
(2) ਪੁਸਤਕ ਦੇ ਦੂਜੇ ਅਤੇ ਤੀਜੇ ਭ ਗ੍ ਸਵਚੋਂ ਪਰਸ਼ਨ ਇਸ ਪਰਕ ਰ ਪੁੱਛੇ ਜ ਣਗ੍ੇ:
(ੳ) ਿਰ ਭਾਗ ਸਵਚੋਂ 4–4 ਪਰਸ਼ਨ ਔਬਜ ਕਸਟਵ ਟਾਈਪ/ਮਲਟੀਪਲ ਚੋਣ ਵਾਲੇ ਿੋਣਗੇ। ਿਾਰੇ ਪਰਸ਼ਨ ਕਰਨੇ
ਲਾਜ਼ਮੀ ਿੋਣਗੇ। ਅੰਕ 8x1 = 8
(ਅ) ਿਰ ਇਕ ਭਾਗ ਸਵਚੋਂ 4–4 ਪਰਸ਼ਨ ਪੁੈੱ ਛੇ ਜਾਣਗੇ। ਕੁੈੱਲ 5 ਪਰਸ਼ਨ ਿੈੱਲ ਕਰਨੇ ਿੋਣਗੇ। ਿਰ ਭਾਗ ਸਵਚੋਂ
2 ਪਰਸ਼ਨ ਲਾਜ਼ਮੀ ਿਨ। ਅੰਕ 5x2 = 10
(ੲ) ਿਰ ਇਕ ਭਾਗ ਸਵਚੋਂ 1–1 ਪਰਸ਼ਨ ਪੁੈੱ ਸਛਆ ਜਾਵੇਗਾ। ਇਕ ਪਰਸ਼ਨ ਿੈੱਲ ਕਰਨਾ ਿੋਵੇਗਾ। ਉਤਰ ਇਕ
ਿਫ਼ੇ ਤੈੱਕ ਿੀਮਤ ਿੋਵੇ। ਅੰਕ 6x1 = 6
ਨੋਟ: ਮੌਸਖਕ ਪਰੀਸਖਆ ਪ ਠ–ਪੁਸਤਕ ਤੇ ਹੀ ਆਧ ਸਰਤ ਹੋਵੇਗ੍ੀ। ਇਸਦੀ ਸਵਧੀ ਪਰੈਕਟੀਕਲ ਵ ਲੀ
ਹੋਵੇਗ੍ੀ।
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ECE Department Page 28 of 29
ਪੰਜ ਬੀ ਲ ਜ਼ਮੀ (ਮੁੱਢਲ ਸਗ੍ਆਨ)
ਅੰਡਰ ਗ੍ਰੈਜੂਏਟ ਪੱਧਰ 'ਤੇ ਪਰੋਫ਼ੈਸ਼ਨਲ ਕੋਰਸ ਾਂ ਲਈ ਕੁਆਲੀਫ ਇੰਗ੍ ਪੰਜ ਬੀ
For Other State Students of
B. Tech & Six Year B.Tech-MBA Integrated Program Only
ਕੱੁਲ ਅੰਕ: 100 (ਇੰਟਰਨਲ ਅਸੈਸਮੈਂਟ 40 ਅੰਕ; ਬ ਹਰੀ ਪਰੀਸਖਆ 60 ਅੰਕ)
ਸਲਖਤੀ: 60 ਅੰਕ
ਸਮ ਾਂ: 3 ਘੰਟੇ ਇੰਟਰਨਲ ਅਸੈਸਮੈਂਟ: 40
ਅੰਕ
ਪੀਰੀਅਡ: 3 ਪਰਤੀ ਹਫ਼ਤ ਪ ਸ ਅੰਕ: 40%
ਪੰਜ ਬੀ ਮੁੱਢਲ ਸਗ੍ਆਨ
ਪੰਜਾਬੀ ਯੂਨੀਵਰਸਿਟੀ ਵੈੱਲੋਂ ਬੀ .ਟ ੈੱਕ . ਦੇ ਸਵਸਦਆਰਥੀਆਂ ਸਜਨਹਾਂ ਨੇ ਦਿਵੀ ਂਪੈੱਧਰ ਦੀ ਪੰਜਾਬੀ ਪਾਿ
ਨਿੀ ਂਕੀਤੀ ਿੁੰਦੀ , ਲਈ ਪੰਜਾਬੀ ਮੁੈੱਢਲਾ ਸਗਆਨ ਦਾ ਸਿਲੇਬਿ ਪੜ੍ਹਾਇਆ ਜਾਂਦਾ ਿ । ਪੰਜਾਬੀ ਮੁੈੱਢਲਾ
ਸਗਆਨ ਸਵਸ਼ੇ ਰਾਿੀ ਂ ਸਵਸਦਆਰਥੀਆਂ ਨੰੂ ਪੰਜਾਬੀ ਵਰਨਮਾਲਾ ਤੋਂ ਲ ਕੇ ਮਾਤਰਾਵਾਂ ਦੀ ਵਰਤੋਂ , ਸ਼ਬਦ
ਬਣਤਰਾਂ ,
ਵਾਕ ਬਣਤਰ ਅਤੇ ਪੰਜਾਬੀ ਸਵਆਕਰਨ ਿੰਬੰਧੀ ਪੜ੍ਹਾਇਆ ਜਾਂਦਾ ਿ । ਇਿ ਸਵਸ਼ਾ ਪੜ੍ਹਾਉਣ ਦਾ ਮੁੈੱਖ ਉਦੇਸ਼
ਪੰਜਾਬ ਦੇ ਮਾਤ ਭਾਸ਼ਾ ਦੇ ਸਗਆਨ ਤੋਂ ਵਾਂਝੇ ਰਸਿ ਗਏ ਸਵਸਦਆਰਥੀਆਂ ਨੰੂ ਭਾਸ਼ਾ ਸਿਖਾਉਣਾ ਅਤੇ ਬਾਿਰਲੇ
ਿੂਸਬਆਂ ਦੇ ਸਵਸਦਆਰਥੀਆਂ ਨੰੂ ਇਕ ਨਵੀ ਂਭਾਸ਼ਾ ਸਿਖਾ ਕੇ ਉਿਨਾਂ ਨੰੂ ਪੰਜਾਬ ਸਵਚ ਰੁਜ਼ਗਾਰ ਦੇ ਮੌਸਕਆਂ ਦੇ
ਯੋਗ ਬਣਾਉਣਾ ਿ ।
ਭ ਗ੍ ੳ
1) ਗੁਰਮੁਖੀ ਵਰਣਮਾਲਾ ਤੇ ਲੇਖਣ ਪਰਬੰਧ
(ੳ) ਅੈੱਖਰ ਸਿੈੱ ਸਖਆ : ਤਰਤੀਬਵਾਰ ਤੇ ਭੁਲਾਵੇਂ ਅੈੱਖਰ
(ਅ) ਅੈੱਖਰ ਬਣਤਰ : ਅੈੱਖਰ ਰੂਪ ਤੇ ਸਲਖਣ ਦੇ ਸਨਯਮ
2) ਗੁਰਮੁਖੀ ਅੈੱਖਰ ਤੇ ਪੰਜਾਬੀ ਧੁਨੀਆਂ ਦਾ ਪਰਬੰਧ
(ੳ) ਿਵਰ ਤੇ ਸਵਅੰਜਨ : ਵਰਗੀਕਰਨ ਤੇ ਸਿਧਾਂਤ ਤੇ ਉਚਾਰਨ
(ਅ) ਲਗਾਂ–ਮਾਤਰਾਂ ਦੀ ਪਛਾਣ ਤੇ ਵਰਤੋਂ
ਭ ਗ੍ ਅ
1) ਸਲਪੀ ਦੇ ਅੈੱਖਰਾਂ ਦੀ ਵਰਤੋਂ ਦੇ ਸਨਯਮ
(ੳ) ਪੂਰੇ ਤੇ ਅੈੱਧੇ ਅੈੱਖਰ ਦੀ ਪਛਾਣ ਤੇ ਵਰਤੋਂ
(ਅ) ਿਵਰ ਿੂਚਕ ਅੈੱਖਰਾਂ ਦੀ ਪਛਾਣ ਤੇ ਵਰਤੋਂ
2) ਪੰਜਾਬੀ ਸ਼ਬਦਾਵਲੀ ਨਾਲ ਜਾਣ–ਪਛਾਣ
(ੳ) ਿਫ਼ਤੇ ਦੇ ਸਦਨ
(ਅ) ਮਿੀਸਨਆਂ ਦੇ ਨਾਮ
(ੲ) ਰੰਗਾਂ ਦੇ ਨਾਮ
(ਿ) ਪੰਜਾਬੀ ਸਰਸ਼ਤਾ–ਨਾਤਾ ਪਰਬੰਧ ਸ਼ਬਦਾਵਲੀ
ਭ ਗ੍ ੲ
1) ਸ਼ਬਦ ਪਰਬੰਧ: ਸ਼ਬਦ ਜੋੜ੍ਾਂ ਦੀ ਵਰਤੋਂ
(ੳ) ਦੋ ਅੈੱਖਰੀ ਸ਼ਬਦਾਂ ਦੇ ਸ਼ਬਦ–ਜੋੜ੍
(ਅ) ਸਤੰਨ ਅੈੱਖਰੀ ਸ਼ਬਦਾਂ ਦੇ ਸ਼ਬਦ–ਜੋੜ੍
2) ਸ਼ਬਦਾਂ ਦੀ ਸ਼ਰੇਣੀਆਂ ਤੇ ਸਵਆਕਰਨਕ ਵਰਗਾਂ ਦੀ ਪਛਾਣ
(ੳ) ਸ਼ਬਦਾਂ ਦੀਆਂ ਸ਼ਰੇਣੀਆਂ ਦਾ ਸਿਧਾਂਤ , ਪਛਾਣ ਤੇ ਵਰਤੋਂ
(ਨਾਂਵ , ਪੜ੍ਨਾਂਵ , ਸਵਸ਼ੇਸ਼ਣ , ਸਕਸਰਆ ਸਵਸ਼ੇਸ਼ਣ ਆਸਦ)
ਭ ਗ੍ ਸ
1) ਸ਼ਬਦ ਬਣਤਰਾਂ ਤੇ ਸਵਆਕਰਨਕ ਇਕਾਈਆਂ ਦਾ ਸਿਧਾਂਤ ਤੇ ਵਰਤੋਂ
(ੳ) ਪੰਜਾਬੀ ਸ਼ਬਦ ਬਣਤਰਾਂ ਦਾ ਸਿਧਾਂਤ , ਪਛਾਣ ਤੇ ਵਰਤੋਂ
Punjabi University, Patiala. Four Year B. Tech (ECM) Batch: 2018 / BOS: 2019
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(ਅਗੇਤਰ , ਸਪਛੇਤਰ , ਿਮਾਿ , ਦੁਿਰੁਕਤੀ)
(ਅ) ਸਵਆਕਰਨਕ ਇਕਾਈਆਂ ਦਾ ਸਿਧਾਂਤ , ਪਛਾਣ ਤੇ ਵਰਤੋਂ
(ਵਾਕੰਸ਼ , ਉਪ–ਵਾਕ ਤੇ ਵਾਕ)
ਇਿ ਸਵਸ਼ਾ 100 ਅੰਕਾਂ ਦਾ ਿੋਵੇਗਾ ਸਜਿ ਸਵਚ 40 ਅੰਕ ਇੰਟਰਨਲ ਅਿ ਿਮੈਂਟ ਦੇ ਿੋਣਗੇ ਅਤੇ 60
ਅੰਕ ਦਾ ਿਾਲਾਨਾ ਸਲਖਤੀ ਪੇਪਰ ਿੋਵੇਗਾ।
ਇੰਟਰਨਲ ਅਿ ਿਮੈਂਟ ਦੇ 40 ਅੰਕਾਂ ਸਵਚੋਂ 10–10 ਅੰਕਾਂ ਦੇ ਦੋ ਸਮਡ ਿਮ ਿਟਰ ਟ ਿਟ ਿੋਣਗੇ
ਸਜਿਦੀ ਸਵਧੀ ਮੌ ਸਖਕ / ਸਲਸਖਤ ਪਰ ਕਟੀਕਲ ਵਾਲੀ ਿੋਵੇਗੀ। 10 ਅੰਕ ਿਾਜਰੀ ਦੇ ਿੋਣਗੇ। 75% ਿਾਜਰੀ
ਯਕੀਨੀ ਬਣਾਉਣੀ ਜ਼ਰੂਰੀ ਿੋਵੇਗੀ। 75–80% ਿਾਜਰੀ ਦੇ 6 ਅੰਕ , 80–85% ਿਾਜਰੀ ਦੇ 8 ਅੰਕ ਅਤੇ
85% ਅਤੇ ਇਿ ਤੋਂ ਵੈੱਧ ਿਾਜਰੀ ਦੇ 10 ਅੰਕ ਿੋਣਗੇ। ਬਾਕੀ 10 ਅੰਕ ਓਵਰਆਲ ਇਵ ਲੂਏਸ਼ਨ ਦੇ ਿੋਣਗੇ।
10+10+10+10=40
60 ਅੰਕ ਾਂ ਦ ਸ ਲ ਨ ਪੇਪਰ ਲਈ ਅੰਕ–ਵੰਡ ਅਤੇ ਪੇਪਰ ਸੈਟਰ ਲਈ ਹਦ ਇਤ ਾਂ
(1) ਿਲੇਬਿ ਦੇ ਚਾਰੇ ਭਾਗ ੳ , ਅ , ੲ ਅਤੇ ਿ ਸਵਚੋਂ 5–5 ਮਲਟੀਪਲ ਚੋਣ ਪਰਸ਼ਨ ਪੁੈੱ ਛੇ ਜਾਣਗੇ। ਿਾਰੇ
ਪਰਸ਼ਨ ਕਰਨੇ ਲਾਜ਼ਮੀ ਿੋਣਗੇ। 4x5 = 20x 1 = 20
(2) ਿਰੇਕ ਭਾਗ ੳ , ਅ , ੲ ਅਤੇ ਿ ਸਵਚੋਂ 4–4 ਿੰਖੇਪ ਉਤਰਾਂ ਵਾਲੇ ਪਰਸ਼ਨ ਪੁੈੱ ਛੇ ਜਾਣਗੇ ਸਜਨਹਾਂ ਸਵਚੋਂ 2–2
ਪਰਸ਼ਨ ਕਰਨੇ ਲਾਜ਼ਮੀ ਿੋਣਗੇ। 4x 2 = 8x 2 = 16
(3) ਿਰੇਕ ਭਾਗ ੳ , ਅ , ੲ ਅਤੇ ਿ ਸਵਚੋਂ 2–2 ਵਰਣਾਤਮਕ ਪਰਸ਼ਨ ਪੁੈੱ ਛੇ ਜਾਣਗੇ ਸਜਨਹਾਂ ਸਵਚੋਂ 1–1 ਪਰਸ਼ਨ
ਕਰਨਾ ਲਾਜ਼ਮੀ ਿੋਵੇਗਾ। 4x 1 = 4x 6 = 24
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