SRM UNIVERSITY
FACULTY OF ENGINEERING AND TECHNOLOGY
DEPARTMENT OF ICE
Course Code
: IC0205
Course Title
: Electronic Circuits
Year& Semester : II Year & III Semester
Course duration : Odd semester (July-Nov 2012)
Location : Tech Park – 14th floor
Faculty Details:
Name of the
staff
Mrs.J.Doris
Prescilla
Mrs.Y.Jeyashree
Section
Office
Office
Hours
ICE – ‘A’
ICE – ‘B’
Mail ID
dorisprescilla@gmail.com
Tech
Park.
14th
Floor
Tech Park.
14th Floor
8.30am
to
4.00 pm
8.30am to
4.00 pm
jeyashree_christley@yahoo.co.in
Required Text Books:
1. Millman and C.Halkias, Electronic Devices and Circuits, Tata McGraw Hill.,2001
2. Mathur.S.P, KulshreshthaD.C. & Chanda.P.R, Electronic Devices – Applications and
Integrated circuits, Umesh, Publications, 1999
3 Malvino, Electronic Principles, Tata McGraw Hill, 6th edition, 2000
4 Boylestad & Nashelsky, Electronic Devices & Circuit Theory, Eighth edition, Prentice Hall
of India (P) Ltd, 2003
5 Sedha.R.S, A Text Book of Applied Electronics, Sultan chand Publishers, 1999
6 Allen Mottershed, Electronic Devices & Circuits, An Introduction, Prentice Hall Of India (P)
Ltd, 1999
Web Resource:
www.electronics_circuits.com
en.wikipedia.org/wiki/electronic circuit
www.circuitstoday.com
Prerequisite : Electronic Devices
Objective:
1) To get an exposure about various transistor configurations and analysis of FET amplifiers
2) To have an idea about the frequency response of amplifiers and different types of feedback
3) To have a clear understanding of operation of oscillators and power supplies
Tentative test details and portions:
Cycle Test – I
Unit I & II
Cycle Test – II:
Unit III & IV
Model Exam:
All five units
Assessment details
Cycle test I
10 points
Cycle test II
10 points
Model test
20 points
Surprise test (1 )
5 points
Attendance
5 points
Total
50 points
Outcomes
Students who have successfully completed this course
Course outcome
•
•
•
The students will be able to design various
transistor circuits and analysis of transistor
amplifiers
The students will have an idea about the
frequency response of amplifiers and
different types of feedback
The students can design the oscillators,
rectifiers and power supplies on their own.
Program Outcome
A: The student will be able to obtain the
mathematical model of transistors.
B: The student will have a broad
knowledge in developing the amplifier,
oscillator, power supply and rectifier
circuits
Detailed Session Plan
Day
Day 1
Name of the Topics
Unit I
Small signal models for transistors
Day 2 Two port devices and network.
Day 3 h parameters, hybrid pi models,
Day 4 r parameters, r-parameter equivalent circuits,
Day 5 Analysis of CE amplifier
Day 6 Analysis of CB amplifier
Day 7 Analysis of CC amplifiers,
Day 8 Small signal FET amplifier,
Day 9 Operation of JFET amplifier
Day 10 Reference
Revision
1.Millman and C.Halkias,
Electronic Devices and
Circuits, Tata McGraw
Hill.,2001
Day 11 Unit II
Classification of amplifiers, Distortion in
amplifiers
Day 12 Frequency response of an amplifier
Day 13 Cascade and Darlington connections
Day 14 Operation and analysis of class A Power
amplifier
Day 15 Push-pull amplifier, Class B amplifier
Day 16 Class C amplifiers, complementary symmetry
power amplifier
Day 17 Operation of emitter-coupled differential
amplifier
Day 18 Single tuned and double tuned amplifier
Day 19 Stagger Tuned amplifier
Day 20 Unit III
Basic concepts of feedback.
Day 21 Four types of negative feedback
Day 22 Effect of feedback on input resistance
Day 23 Output resistance, voltage gain and current gain
Day 24 Advantages of negative feedback.
Day 25 RC wave shaping circuits,
Day 26 Diode clippers
Day 27 Clampers
Day 28 Voltage multipliers
2.R.S Sedha,” A Text Book of
Applied Electronics, Sultan
chand Publishers, 1999”
Day 29 Unit IV
Classification of oscillators- Barkhausen
criterion
Day 30 Operation and analysis of RC phase shift,
Day 31 Wienbridge, Hartely, Colpitts Oscillators
Day 32 Crystal oscillators. Multivibrators
Day 33 Astable Multivibrators
Day 34 Monostable Multivibrators
Day 35 Bistable Multivibrators
Day 36 Analysis of performance parameters of
multivibrators using Schmitt Trigger.
Day 37 Blocking oscillators
Day 38 Unit V
Single phase half-wave rectifiers
Day 39 Full-wave rectifiers - Bridge rectifiers
Day 40 Ripple factor, rectification efficiency,
Day 41 Transformer utilization factor and regulation -
Day 42 Performance characteristics of rectifiers with
filters -.
Day 43 Regulated power supply
Day 44 Series type voltage regulators
Day 45 Shunt type voltage regulators
Day 46 Switched mode power supplies
1.Millman and C.Halkias,
Electronic Devices and
Circuits, Tata McGraw
Hill.,2001
2.R.S Sedha,” A Text Book of
Applied Electronics, Sultan
chand Publishers, 1999”