COURSE PLAN

Electronics and Communication Engineering

Department :

Basic Electronics , ECE 1071

Course Name & code :

I, ECE
Semester & branch :

1. Dr. Kumara Shama 2. Dr. Aparna U

3. Dr. Yashwanth N
Name of the faculty :
L T P C
No of contact hours/week:
3 0 0 3

Course Outcomes (COs)

No. of
At the end of this course, the student should be able to: Contact Marks
Hours
CO1: Describe the characteristics of various electronic devices and analyze 6 17
simple circuit applications using them
CO2: Analyze rectifier circuits, voltage regulator and Amplifier 7 20

CO3: Discuss Op-Amp and its basic applications using suitable circuits 5 14

CO4: Simplify Boolean expressions and implement simple digital circuits 12 33

using logic gates.
CO5: Describe the principles of analog and digital communication. 6 16

Total 36 100

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 Assessment Plan

In-Semester End-Semester
Components Continuous Assessment
Examination 1 & 2 Examination

Duration 1 week per assignment 60 minutes 180 minutes

Weightage 20% (20 marks) 30% (15 marks each) 50% (50 marks)

Knowledge/ Recall; Understanding/ Understanding/ Comprehension; Understanding/

Typology of
Comprehension; Application; Application; Comprehension; Application;
Questions
Analysis Analysis Analysis

Answer all questions uploaded to the MCQs for 5 marks and 2/3 marks Answer all 5 full questions of 10
Pattern
LMS platform question for a total of 10 marks marks each.
A1:29-10-22; A2:12-11-22
A3: 19-11-22; A4: 10-12-22

Questions will be uploaded on the

dates mentioned above. A total of 4
6th and 12th week of the academic Starting from
Schedule online submissions with 5 marks
calendar 2 Jan 2023
each. Submission will be one week
from the date of uploading the
questions. (5-11-22; 19-11-22;

26-11-22; 17-12-22)
Comprehensive examination
covering
Comprehensive examination
In-sem exam 1: L 1-8
L 1 onwards covering full syllabus. Students
Topics Covered In-sem exam 2: L 9-21
(CO1-5) are expected to answer all
Students are expected to answer all
questions (CO1-5)
questions
(CO1-4)

Lecture Plan
Course
L. No./
Topics Outcome
T. No.
Addressed
L0 Introduction to Basic Electronics -

L1 Discussion of Junction Diode and V-I characteristics. 1

L2 Equivalent circuit of Junction Diode. Breakdown phenomenon in diodes, Zener 1

diode.
L3 Rectifiers: Discussion of half wave rectifiers. 2

L4 Discussion of center tapped full wave rectifiers. 2

L5 Discussion of bridge rectifier, Capacitor filters 2
L6 Zener regulator and regulated power supplies 2

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L7 Special diodes - LEDs, Photo diodes and their applications. 1,2
L8 Block diagram and characteristics of op-amp. 3
L9 Op-amp Inverting amplifier, non- inverting amplifier. 3
L10 Op-amp adder, subtractor. 3
L11 Op-amp integrator and differentiator. 3
L12 Op-amp based Comparator and square wave generator. 3
L13 Discussion of Number systems: Decimal, binary, octal and Hexadecimal number 4
systems.
L14 One’s and two’s complements, subtraction using complements 4
L15 Weighted and non-weighted codes, Self-complimenting codes, error detecting and 4
correcting codes.
L16 Boolean algebraic theorems and simplification of Boolean expressions. 4
L17 Logic gates: OR, NOT, AND, NOR, NAND , XOR and XNOR. Concept of 4
Universal Logic.
L18 Implementation of Boolean expressions using logic gates, 4
L19 Standard forms of Boolean expressions- POS and SOP. 4
L20 Simplification of Boolean expressions using K-map. 4
L21 Multiplexers and Demultiplexers 4
L22 Sequential circuits- Discussion of SR flip flop, JK flip flop. 4
L23 D-flip flop and T flip flop. 4
L24 Applications of flip flops- Simple binary counters and shift registers. 4
L25 Introduction to communication, Need for modulation. 5
L26 Amplitude and Frequency modulation concepts, Principle and block diagram 5
L27 Comparison of AM and FM. 5
L28 Basic principle of Sampling and digitization. Block schematic of general digital 5
communication system.
L29 Qualitative discussion of pulse modulation schemes - PAM, PPM and PWM and 5
digital modulation schemes – ASK,PSK, FSK.
L30 Principle of Cellular mobile communication and architecture of GSM. 5
L31 Structure and operation of NMOS, V-I Characterestics, Regions of operation. 1
L32 Channel length modulation, Small-Signal Model 1
L33 Structure and Operation of PMOS 1

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 L34 Amplifier Biasing Techniques 1
L35 Amplifier Configurations, 2
L36 CS Amplifier working principle and frequency response 2

References:
1. Robert L. Boylestad, Louis Nashelsky- Electronic Devices & Circuit Theory, 11th Edition, PHI,
2012
2. Behzad Razavi, “Fundamental of Microelectronics”, Wiley, 2013.
3. Morris Mano- Digital design, Prentice Hall of India, Third Edition, 2013.
4. George Kennedy, Bernad Davis- Electronic Communication Systems, Fourth edition, TMH, 2004.
5. Raj Pandya, “Mobile and Personal Communication Services and Systems”, Wiley-IEEE Press,
1999

Submitted by: Dr. Aparna U & Dr. Yashwanth N

(Signature of the faculty)

Date: 10-09-2022

Approved by: Dr. G Subramanya Nayak

(Signature of HOD)

Date: 10-09-2022

FACULTY MEMBERS TEACHING THE COURSE:

FACULTY NAME SECTION

A Gopalkrishna Pai PA
Nakul Shetty K PB
Dr. R Vinoth PC
Shashi Kumar G S PD
(Page 4 of 4) MIT/GEN/F-01/R1
 Dr.Aparna U PE
Shashi Kumar G S PF
Suhas K PG
Dr. Yashwanth N PH
Soumya S PJ
Jagadeesh Chandra R.B PK
Dr. Anitha H PL
Jagadeesh Chandra R.B PM
Vishnumurthy Kedlaya K PN
Dr. Krishna Murthy Nayak PO
Nakul Shetty K PP
Navya K T PQ

(Page 5 of 4) MIT/GEN/F-01/R1