Yeshwantrao Chavan College of Engineering, Nagpur
Department of Electronics Engineering
EE1101: BASIC ELECTRONICS
EVEN Term 2015-16
Faculty Details:
Course Teacher: SWATI K. MOHOD
Office: ET – 101, Electronics Department
Office Hours: 09.00 A.M TO 4.00 P.M
Phone: 07104-237919 - 369
Email: swati06.mohod@rediffmail.com
Tutorial Assistants:
Prof. M. Z. Baig
Prof. S. Y. Gomase
Prof. A. B. Thatere
Course Website:
Required Textbook:
1.”Basic Electronics”,by Soumitra Kumar Mandal ,1st edition ,Tata McGraw Hill Education Private Limited,
Publised in 2013.
Course Objectives
1) In the present context of modern revolution it is essential that all engineering student should be exposed to
Electronics.
2) Electronics form a link between different branches of Engineering enabling new inter–disciplinary areas to grow.
Course Assessment
Grading is based on the following components that are weighted as described below:
1. Assignments (Theory + Tutorials): 4%
2. Report writing on any topic beyond syllabus: 4%
3. Attendance: 2%
4. Mid Semester Examinations (2): 15% each
5. End Semester Examination: 60%
Home Assignments:


Two Assignments will be given. The general policy is that Assignment is to be submitted in the office of
Course Teacher on the dates mentioned. Extensions in submission of assignments are granted in advance
and under special circumstances.
Neat & clean work will be given appropriate weightage.
Examinations
There will be 3 scheduled exams and at least one surprise test as detailed below. The schedule of these
examinations is given in the Academic Calendar for the session published by the Dean (Academic matters)
1. MSE #1: On the basis of Units 1 and 2 of the syllabus
2. MSE #2: On the basis of unit 3 and 4 of the syllabus.
3. ESE: On the basis of Units 1 to 6 of the syllabus
4. Surprise Tests: on the topics taught till the day of examinations.
Attendance
All students who maintain classroom attendance ( Th & Tu) at more than 75 % will be eligible for 2% marks.
Teaching Plan
Lect.
No
1
2
3
4
5
6
7
1
2
3
4
Unit No
Details of Topic to be covered
I
I
Introduction to Number Systems (Decimal, Binary, Octal, Hexadecimal)
I
I
I
I
I
II
II
II
II
Binary to Octal, Binary to Hexadecimal Conversion, Octal to Hexadecimal conversion and vice-versa.
Conversions: Any Base to decimal conversions and Decimal to any Base conversions
Codes (BCD code, XS-3 Code) and their Conversion.
Codes (Gray Code, ASCII Code) and their Conversion.
Unsigned Binary Arithmetic - Addition, Subtraction, Multiplication & Division.
BCD Arithmetic (Addition and Subtraction)
1’S & 2’S Complement Representation, Subtraction using 1’s & 2”s Complement method.
Signed Number Addition - Subtraction using 2’S Complement Arithmetic.
Basic Gates (AND, OR, NOT), Exclusive Gates ( EX-OR & EX-NOR ), Universal Logic Gates (NOR &
NAND)
De’morgans theorems, Implementation of Basic Gates using Universal gates
5
6
II
Problems on De’Morgans theorems, Boolean Laws And Algebra.
Problems on Boolean algebras.
2
3
4
5
6
7
II
II
III
III
III
III
III
III
III
Lect.
No
Unit
No
7
1
1
Sum of Product & Product of Sum.
Introduction to logic minimization using K-map.
Numerical on K-map (2 and 3 variable).
Combinational Logic - Half - Full Adder and Subtractor.
Introduction to Multiplexer, Demultiplexer, Decoders, Encoders.
Sequential Circuits - Introduction to Flip flops ( SR, JK, D & T )
Introduction to Registers (2 bit Left & Right Shift using D-FF)
Introduction to Counters (Synchronous & Asynchronous, Up-Down).
Details of Topic to be covered
IV
Types of Materials (Insulator, Semiconductor and Metals), Energy band Structure, Intrinsic and Extrinsic (P
& N) Semiconductor.
2
3
IV
4
5
6
IV
IV
IV
Unbiased P-N junction diodes, Forward & Reverse Biasing & its V-I Characteristics.
DC power supply, Diode Circuits - Half wave rectifier, Full wave rectifier, Bridge rectifier and their
parameters.
Bridge rectifier and their parameters. Numerical on rectifier.
7
1
2
3
4
IV
V
V
V
Special Purpose Diodes - Zener diode, LED (Construction, Working, Characteristics and Application).
V
I/P & O/P Characteristics (regions of operation), Applications of BJT.
5
V
Concepts in amplifiers - Linearity, Gain, Bandwidth, Frequency response, Noise & Distortion.
6
7
1
2
3
4
5
6
7
V
V
VI
VI
VI
VI
VI
VI
VI
Introduction to SCR- Construction, Symbols, Characteristics and Applications
IV
Introduction to Filter Circuit( L, C, LC & PIE )
Diode Clipper and Diode Clamper circuits.
Three terminal devices - BJT (PNP & NPN)- Construction
Unbiased Junction transistor. Biasing & modes of operation.
Working of PNP & NPN transistor, Transistor configuration.
Introduction to MOSFET- Construction, Symbols, Characteristics and Applications
Introduction to Feedback Systems and gain equations.
Introduction of OP-AMP, Block Diagram of OP-AMP, Symbol, Pin diagram.
Ideal Characteristics of Op-Amp, Virtual ground concept.
Introduction of differential amplifiers.
Linear Op-Amp Circuits – Inverting & non-inverting, Gain Equations, I/O waveforms.
Summing amplifier (adder & subtractor) – circuit diagram, O/p equations.
Integrator & Differentiator– circuit diagram, derivation, I/o waveform.
Assignments
Assign.
No.
Topic
Date given
Last Date of
submission
1
Unit no. I,II,III & IV
After completion of topic
Within 7 days
2
Unit no. V & VI
After completion of topic
Within 7 days
Tutorial Plan
Week
Topic
No. of Problems
I
Problems on Number System
05
II
Problems on Binary Arithmetic
05
III
Problems on Boolean Algebra
04
IV
Truth table Verification of Logic ICs.
V
Problems on K-map
VI
Truth table Verification of Half Adder Circuit.
01 Demo expt.
VII
Truth table Verification of Multiplexer ICs.
01 Demo expt.
VIII
Demonstration of CRO.
01 Demo expt.
IX
Demonstration of Function generator.
01 Demo expt.
X
V-I Characteristics of Diode
01 Demo expt.
XI
Problems based on Diode & Rectifier
XII
Demonstration of Electronics Components.
XIII
Problems on OP-AMP ckts.
01 Demo expt.
05
04
01 Demo expt.
04
Suggested Self Readings
Sr.
No.
Reference to suggested article
(Book chapter/Web page (URL)/Research paper, etc.)
1
“OP-AMP & Linear Integrated Circuit“, by Ramakant A. Gaikwad, Prentice Hall of India, 2000
2
“Integrated Electronics”, by Milman Halkies. 3rd edition, Tata McGraw-Hill Publishing Company limited.
3
“Modern Digital Electronics”, by R. P. Jain, 3rd edition, Tata McGraw-Hill Publishing Company limited.
Asst. Prof Swati K. Mohod
(Subject Teacher)