EE 4 Year BTech EE New
EE 4 Year BTech EE New
EE 4 Year BTech EE New
2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
01 Department of Applied Physics under the Faculty of Engineering and Technology, University of
Calcutta shall provide instructions leading towards the 4-year, 8-semester B. Tech. degree in
Electrical Engineering. The course is of four (4) years duration comprised of eight (8) Semesters,
each Semester being of six (6) months’ duration.
(b)
Category-2: For admission of the B.Sc. (Hons.) qualified students to the third semester of
the B.Tech. course, the candidates must have passed B.Sc. Honours in Physics in 10+2+3
format from a UGC recognized University in India. The selection will be strictly based on
merit as adopted and invoked time to time by University of Calcutta.
The ‘Category-2’ students must have to attend and pass Workshop Practice and
Engineering Drawing subjects additionally arranged in the THIRD/FOURTH Semester
curriculum. However, no credit points will be awarded and will not be included for SGPA
calculation. In the final mark sheet, it will be mentioned that he/she has qualified
Workshop Practice and Engineering Drawing.
The duration of study for students admitted in the third semester will be of 6 semesters
(starting from third Semester) in three academic years.
03
The award of the said B. Tech. Degree will be conferred to students who are successful in all of
the eight (8) (for Category-1) / six (6) (for category-2) Semester examinations.
04 Attendance: A student must attend 75% of the theoretical and laboratory/practical classes in
order to fill up the form for the Semester examinations.
1
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
2
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
(i) Lecture (L)/Tutorial (T): One lecture hour per week shall normally be assigned one
credit. One hour of tutorial per week shall be assigned one credit. For determining the
credits of a theory course, lectures and tutorials shall be added.
(ii) Practical (P): One laboratory Hours per week shall be assigned half (0.5) credit. Each
paper shall carry Credit (C) according to number of Hours allotted per week and as
indicated in the following table:
Weightage for No. of Hours/week Credit (C) assigned
Theoretical 1 1
Tutorial 1 1
Practical 1 (0.5)
The course credits for each course shall be given as L-T-P. For example, 3-1-0 will mean
that it is a lecture based course and has 3 lectures, 1 tutorial, and no practical assigned to it.
Similarly, a course with 0-0-3 means that it is a practical course with 3 Hours of practical
work. Credits will be assigned to seminar, dissertation, project etc. under the practical
course head.
The 4-year course will cover a total of 158 credits. Marks assigned to each theoretical
papers will be of 100, while the same for each laboratory/practical papers will be of 50.
Credit points of theoretical and practical papers including project work, design, General
Viva Voce, seminar presentation etc. will be provided in Course Structures separately.
There will be two components of evaluation of theoretical papers: i) Sessional assessment
30% i.e. 30 marks ii) End Semester examination 70% i.e. 70 marks.
3
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
C k
k
obtained in kth courses. The Semester Grade Sheet should have the following basic
information: The merit list will be prepared on the basis of the total marks obtained.
Paper Details of Full Marks Credit Grade Grade SGPA Remarks
courses with Marks obtained obtained Point
code
(ii) A student has to secure at least 50% marks i.e. Grade-D in a paper to quality a
theoretical/practical paper.
(iii) A student has to secure at least 50% marks i.e. Grade-D in all papers in a semester in
order to pass that semester examination. Such candidates will be called successful
candidates and will be allowed to join classes in the next semester.
(iv) If a student fails to qualify in some papers with accumulated credits more than 8,
he/she will not be allowed to continue his/ her studies to the next semester classes. The
candidate has to seek re-admission in the same semester in next academic session to
continue the program, and will eventually face a year loss.
(v) If a student fails to qualify in some papers with accumulated credit of 8 or less in a
semester but qualifies in other papers, he/she will be allowed to continue to the next
Semester, provided that total of such backlog credits within the entire course period of
4
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
eight semesters is 24 or less at any point of time. [Example: In the first and second
Semesters, one has to earn at least 21 - 8= 13 credits and 22-8=14 credits respectively; this
may vary in other Semesters].
08 After the semester examination, the successful candidates shall join classes in the next
semester as per university notification on commencement of classes.
09 (a) Eligibility for a Degree:
On completion of the B.Tech course, the overall performance of a candidate will be
assessed by the ‘Cumulative Grade Point Average’ (CGPA) to be computed as:
[C n Sn ]
CGPA = n
C
n
n
where, C n = C k and
k
Cn denotes total credits of all the semesters.
n
(b)
A student needs to qualify in all the theoretical and practical papers to qualify for award of
the B. Tech. Degree in Electrical Engineering.
‘Category 1’ student has to pass all the theoretical and practical papers of 8-Semesters in
maximum of 6 consecutive year from admission to obtain B. Tech degree in corresponding
course
‘Category 2’ student has to pass all the theoretical and practical papers of 6-Semesters in
maximum of 5 consecutive years to obtain B. Tech degree.
(c)
A consolidated Grade-Sheet, showing the overall performance of a candidate during B.
Tech program indicated by CGPA, will be issued only to those successful students who
have passed all the theoretical and practical papers of all of the 8 semesters (for Category -
1 student) or 6 semesters (for Category -2 student).
The consolidated grade sheet shall consist of two components. The first component will
have the information of the final Semester as follows:
5
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
The second component will have a summary of all the semesters having the following
basic information in two tables:
Marks obtained
Result #
The hash (#) in the last row of last column will contain the information regarding the final
achievement of the candidate in all the examinations. This box will contain only one (1) of
the following three (3) information: ‘1st Class’ / ‘2nd Class’ / ‘Failed’.
(d) Candidates securing CGPA at least 7.5 in B. Tech. Examination shall be placed in the First
Class and those securing 6.0 or more but less than 7.5 shall be placed in the ‘Second
Class’. Candidates securing CGPA less than 6.0 shall be declared ‘Failed’.
(e) The Degree of “Bachelor of Technology in Electrical Engineering” from the
Department of Applied Physics under the seal of the University shall be awarded to a
successful candidate mentioning the grade and class he/she has obtained.
6
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
7
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
8
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
9
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
10
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
THEORETICAL PAPERS
CO1 Realise and apply network theorems for the analysis of electrical circuits.
CO2 Understand the network graph and topology.
CO3 Understand about the different filters for electrical circuits.
CO4 Obtain an introductory idea about the synthesis and analyze two port network.
Text/References:
1. M.E. Van Valkenburg, “Network Analysis”, Prentice Hall, 2006.
2. D. Roy Choudhury, “Networks and Systems”, New Age International Publications, 1998.
3. W.H. Hayt and J.E. Kemmerly, “Engineering Circuit Analysis”, McGraw Hill Education,
2013.
4. C.K. Alexander and M.N.O. Sadiku, “Electric Circuits”, McGraw Hill Education,2004.
5. K.V.V. Murthy and M.S. Kamath, “Basic Circuit Analysis”, Jaico Publishers, 1999.
11
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Course Outcomes:
At the end of this course, students will demonstrate the ability to
Text/References:
1. A. S. Sedra and K. C. Smith, “Microelectronic Circuits”, New York, Oxford University
Press,1998.
2. J. V. Wait, L. P. Huelsman and G. A. Korn, “Introduction to Operational Amplifier theory and
applications”, McGraw Hill U.S.,1992.
3. J. Millman and A. Grabel, “Microelectronics”, McGraw Hill Education,1988.
4. P. Horowitz and W. Hill, “The Art of Electronics”, Cambridge University Press,1989.
5. P. R. Gray, R. G. Meyer and S. Lewis, “Analysis and Design of Analog Integrated Circuits”,
John Wiley & Sons, 2001.
6. . R. F. Coughlin and F. F. Drisckoll, “Opamp and Linear Integrated Circuits, PHIL, India.
7. R. Gayakwad, “Opamp and Linear Integrated Circuits, PHIL, India.
8. L. Nashelsky and R. Boylestad, “Electronics Devices and Circuit Theory”, Pearson Education.
12
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Text/References
1. A. E. Fitzgerald and C. Kingsley, "Electric Machinery”, New York, McGraw Hill Education.
2. R. C. Kloeffler, R. M. Kerchner, J. L. Brenneman, “Direct Current Machinery”, The Macmillan
Company.
3. A.E. Clayton and N. N. Hancock, “Performance and design of DC machines”, CBS Publishers.
4. M. G. Say, “Performance and design of AC machines”, CBS Publishers.
5. C.I. Hubert, “Electric Machines: Theory, Operating Applications and Control”, Pearson
6. A. F. Puchstein and T.C. Lloyd, “Alternating Current Machines”, John Wiley & Sons, Inc.
7. D. V. Richardson, “Rotating electric machinery and transformer technology”, Prentice-Hall Inc.
8. H. Cotton, “Advanced Electrical Technology”, Pitman Publishing.
9. V. Del Toro, “Basic electric machines”, Prentice-Hall Inc.
10. I. L. Kosow, “Electric Machinery & Transformers”, PHI.
13
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
11. G. S. Brosan and J. T. Hayden, "Advanced Electrical Power and Machinary”, Pitman
Publishing.
12. S. K. Sen, “Electrical Machinary”, Khanna Publishers.
Course Outcomes:
At the end of the course, students will demonstrate the ability to
CO1 Understand the operations of vector calculus and basic laws of electromagnetism and
propagation of EM waves.
CO2 Understand the electric and magnetic fields for simple configurations under static
conditions.
CO3 Analyse time varying electric and magnetic fields.
CO4 Understand Maxwell’s equation in different forms and different media.
14
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Derivation of Wave Equation, Uniform Plane Waves, Maxwell’s equation in Phasor form, Wave
equation in Phasor form, Plane waves in free space and in a homogenous material. Wave equation for
a conducting medium, Plane waves in lossy dielectrics, Propagation in good conductors, Skin effect.
Poynting theorem.
Text/References:
1. M. N. O. Sadiku, “Elements of Electromagnetics”, Oxford University Publication,2014.
2. Pramanik, “Electromagnetism-Problems with solution”, Prentice Hall India, 2012.
3. G. W. Carter, “The electromagnetic field in its engineering aspects”, Longmans, 1954.
4. W. J. Duffin, “Electricity and Magnetism”, McGraw Hill Publication, 1980.
5. E. G. Cullwick, “The Fundamentals of Electromagnetism”, Cambridge University Press, 1966.
6. D. Popovic, “Introductory Engineering Electromagnetics”, Addison-Wesley Educational
Publishers, International Edition, 1971.
7. W. Hayt, “Engineering Electromagnetics”, McGraw Hill Education, 2012.
8. D. J. Griffiths, “Introduction to Electrodynamics”, Cambridge University Press.
9. M. Spiegel, S. Lipschutz, D. Spellman, “VECTOR ANALYSIS: Schaum’s Outlines Series",
McGraw Hill.
Course Outcomes:
At the end of this course, students will demonstrate the ability to
15
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Cathode ray oscilloscope, DSO, Oscilloscope Controls, Oscilloscope Probes, storage oscilloscope,
Digital instruments, Digital Voltmeters, digital phase and frequency meter, True R.M.S Voltmeter,
Peak Response Voltmeter, Electronic Ohmmeters, Q-meter, Function generators.
Text/References:
1. Golding and Widdis, “Electrical Measurements & Instruments”, ISSAC Pitmax and Sons
2. M. B. Stout, “Electrical Measurements”, Prentice Hall International
3. A. D. Helfric, W.D. Cooper, “Modern Electronic Instrumentation and Measurement
Techniques”, Dorling Kindersly Pvt. India Ltd.
4. D. A. Bell, “Electronic Instrumentation and Measurements”, Oxford Higher Education
5. M. M. S. Anand, “Electronic Instruments and Instrumentation Technology”, PHIL
PRACTICAL PAPERS
Course LC-EE 306: Electrical Machines–I Laboratory
Course Outcomes:
At the end of this course, students will demonstrate the ability to
List of Experiments
1. Perform open circuit test on a single-phase transformer to find the core loss at rated voltage.
2. Perform short circuit test on a single-phase transformer to find the copper loss at rated current.
3. Find out equivalent circuit parameters of single-phase transformer.
4. Polarity and group connection tests of three phase transformers
5. Perform Scott connection test.
6. Familiarization of 3-point and 4-point starter terminals.
7. Perform tests of dc series machine.
8. Perform tests of dc shunt machine.
9. Perform Swinburne test on dc shunt machine to determine its efficiency.
List of Experiments
16
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
List of Experiments
1. To study the voltage divider circuit.
2. Study the transient response of a RC series circuit.
3. Study the transient response of a RL series circuit.
4. Study the transient response of a RLC series circuit.
5. To study the calculation of Z parameter.
6. To study the calculation of Y parameter.
7. Study the transient response of a parallel RLC series circuit.
8. To study the design and operation of low pass filter.
9. To study the design and operation of high pass filter.
10. To study the design and operation of band pass filter.
17
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
THEORETICAL PAPERS
Text/References:
18
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
1. A. P. Malvino and DP Leach, “Digital Principles and Applications”, McGraw Hill Education.
2. R. Tokheim, “Digital Electronics: Principles and Applications”, McGraw Hill Education.
3. M. M. Mano, "Digital logic and Computer design", Pearson Education India,2016.
4. H. Taub and D. Schilling, “Digital Integrated Electronics”, McGraw Hill Education
5. A. K. Sharma, "Programmable Logic Handbook: PLDs, CPLDs and FPGAs", McGraw Hill
Education.
Switchgear: Types of Circuit Breakers, Circuit breaker: arc formation, quenching, restriking voltage,
and recovery voltage; circuit breaker rating; tripping of circuit breakers by relays, ACB, OCB,
Attributes of Protection schemes, Back-up Protection.
19
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Text/References:
1. J. Grainger and W.D. Stevenson, “Power System Analysis”, McGraw Hill Education,1994.
2. O.I. Elgerd, “Electric Energy Systems Theory”, McGrawHillEducation,1995.
3. A. R. Bergen and V. Vittal, “Power System Analysis”, Pearson EducationInc.,1999.
4. D.P. Kothari and I. J. Nagrath, “Modern Power System Analysis”, McGraw Hill Education,
2003.
5. B.M. Weedy, B.J.Cory, N. Jenkins, J. Ekanayake and G. Strbac, “Electric Power Systems”,
Wiley, 2012.
6. G S Brosan and J T Hayden “Advanced Electrical Power and Machines” Pitmann, London,
1966
7. “Art and Science of Protective Relaying” C R Mason, Wiley, 2015
20
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Text/References:
1. M. Gopal, “Control Systems: Principles and Design”, McGraw Hill Education,1997.
2. B. C. Kuo, “Automatic Control System”, Prentice Hall, 1995.
3. K. Ogata, “Modern Control Engineering”, Prentice Hall, 1991.
4. I. J. Nagrath and M. Gopal, “Control Systems Engineering”, New Age International, 2009
5. R. T. Stefani, B. Shahian, C. J. Savant, and G. H. Hostetter, “Design of Feedback Control
Systems”, Oxford University Press.
6. N.S. Nise, “Control Systems Engineering”, Willey Publications.
CO1 Understand the concepts of continuous time and discrete time systems .
CO2 Analyze systems in complex frequency domain.
CO3 Understand different transformation techniques.
CO4 Understand sampling theorem and its implications.
21
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
its Role. Periodic inputs to an LTI system, the notion of a frequency response and its relation to the
impulse response.
Text/References:
1. V. Oppenheim, A. S. Willsky and S. H. Nawab, “Signals and systems”,Prentice Hall India,
1997.
2. J. G. Proakis and D. G. Manolakis, “Digital Signal Processing: Principles, Algorithms, and
Applications”, Pearson, 2006.
3. H. P. Hsu, “Signals and systems”, Schaum’s series, McGraw Hill Education,2010.
4. S. Haykin and B.V. Veen, “Signals and Systems”, John Wiley and Sons,2007.
5. V. Oppenheim and R. W. Schafer, “Discrete-Time Signal Processing”, Prentice Hall, 2009.
6. M. J. Robert “Fundamentals of Signals and Systems”, McGraw Hill Education,2007.
7. B. P. Lathi, “Linear Systems and Signals”, Oxford University Press,2009.
8. S. K. Mitra,” Signals and Systems”, Oxford University Press.
Course Outcomes:
At the end of this course, students will have the ability to
CO1 Develop the concept of probability, probability distribution and bivariate distribution.
CO2 Develop the concept of Basic statistics and applied statistics.
CO3 Develop the concept of Calculus of variation.
22
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Measures of Central tendency: Moments, skewness and Kurtosis - Probability distributions: Binomial,
Poisson and Normal-evaluation of statistical parameters for these three distributions, Correlation and
regression–Rank correlation, Curve fitting by the method of least squares-fitting of straight lines,
second degree parabolas and more general curves. Test of significance: Large sample test for single
proportion, difference of proportions, single mean, difference of means, and difference of standard
deviations, test for single mean, difference of means and correlation coefficients, test for ratio of
variances- Chi-square test for goodness off it and independence of attributes.
Text/References:
1. M.R. Spiegel, "Schaum's outline of Theory and Problems of Probability and Statistics", McGraw
Hill.
2. R. A. Johnson, I. Miller, J.Freund, " Miller & Freund's Probability and Statistics for Engineers",
Pearson.
3. C.W. Therrien & M. Tummala," Probability and Random processes for electrical and computer
engineers", CRC Press.
4. R.A. Johnson & D. W. Wichern, "Applied multivariate statistical analysis", PHI
5.A.S. Gupta,"Calculus of variation with applications", PHI
6.M.L.Krasnov, G.K. Makarenko and A.I. Kiselev,"Problems and excersizes in the calculus of
variations", MIR Publication
PRACTICAL PAPERS
Course LC-EE 406: Analog and Digital Electronics Laboratory
Course Outcomes:
At the end of this course, students will have the ability to
CO1 Exercise the operation of 4-bit adder and subtractor, encoder and decoder,
multiplexer and demultiplexer.
CO2 Study the application of different Flip-flops, 4 Bit Shift Register and Counters.
CO3 Experiment and application of analog electronic circuits, 8 Bit ADC and DAC.
CO4 Develop test electronic circuits using experiment boards with simulation.
List of Experiments
23
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
24
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
List of Experiments
1. To draw single line diagram of entire power system with different components.
2. To study Ferranti Effect in a HV transmission line with variable sending end voltages and
variable line lengths.
3. Determination of ABCD constants of short, medium and long transmission line.
4. To study the characteristic non directional, directional over current relay with different PSM
and TSM settings.
5. To study the characteristic over voltage and under voltage relay.
6. Design and implement a protection scheme using any one relay.
7. To draw the V-curves of Synchronous machine and its consequences.
List of Experiments
1. Familiarization of basic control system functions and blocks using MATLAB and
SIMULINK toolbox.
2. Simulation of step response and impulse response for different 'order' and ‘Type’ of systems
with unity feedback using MATLAB.
3. Determination of step and impulse response of second order systems and determination of
transient response specifications.
4. Determination of root locus, Bode plot, polar plot and Nyquist plot using MATLAB
functions for different system.
5. Design of PID controller of a plant using MATLAB.
6. Determination of transfer function from state space and vice-versa using MATLAB.
7. Transfer function realization using analog circuit modules.
8. Study of servo position control system.
25
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
THEORETICAL PAPERS
Text/References:
1. A. E. Fitzgerald and C. Kingsley, "Electric Machinery”, New York, McGraw Hill Education.
2. M. G. Say, “Performance and design of AC machines”, CBS Publishers.
3. C.I. Hubert, “Electric Machines: Theory, Operating Applications and Control”, Pearson
4. A. F. Puchstein and T.C. Lloyd, “Alternating Current Machines”, John Wiley & Sons, Inc.
5. D. V. Richardson, “Rotating electric machinery and transformer technology”, Prentice-Hall Inc.
6. H. Cotton, “Advanced Electrical Technology”, Pitman.
7. V. Del Toro, “Basic electric machines”, Prentice-Hall Inc.
26
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Text/References:
1. M. H. Rashid, “Power electronics: circuits, devices, and applications”, Pearson Education India,
2009.
2. N. Mohan and T. M. Undeland, “Power Electronics: Converters, Applications and Design”,
John Wiley & Sons, 2007.
3. R. W. Erickson and D. Maksimovic, “Fundamentals of Power Electronics”, Springer Science &
Business Media, 2007.
27
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Course Outcomes:
At the end of this course, students will demonstrate the ability to
Text/References:
1. R. S. Gaonkar, Microprocessor Architecture: Programming and Applications with the 8085”,
Penram International Publishing,1996
2. D. A. Patterson and J. H. Hennessy, “Computer Organization and Design: The
Hardware/Software interface”, Morgan Kaufman Publishers,2013.
3. D. V. Hall, “Microprocessors & Interfacing”, McGraw Hill Higher Education, 1991.
28
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Out of the subjects mentioned in professional elective courses, only one has to select for study. For
details please see professional elective course portion.
Out of the subjects mentioned in open elective courses, only one has to select for study. For details
please see open elective course portion.
PRACTICAL PAPERS
Course LC-EE 506: Electrical Machines–II Laboratory
Course Outcomes:
At the end of this course, students will have the ability to
CO1 Visualise the operation and study the characteristics of induction machines.
CO2 Analyse the starting method of three phase induction machines.
CO3 Realise the synchronization and parallel operation features of synchronous machines.
CO4 Realise the operation and characteristics of synchronous machines.
List of Experiments
1. Study of no-load and blocked rotor test of three phase and single phase induction motor.
2. Load test on induction motor to find percentage slip, power factor, H.P. output and efficiency
and draw the circle diagram.
3. Study of induction machine as a frequency changer.
4. Perform load test on three phase alternator to determine the voltage regulation of alternator.
5. Perform parallel operation of alternator with infinite bus using synchroscope and lamp
method to synchronize the machine with the bus system.
Study of V-curves of synchronous machines.
29
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
List of Experiments
List of Experiments
1. Addition of x number of 8 bit numbers: x may be two or any higher integer number
2. Addition of x number of 16 bit numbers: x may be two or any higher integer number
3. Subtraction of two 8 bit numbers
4. Multiplication of two 8 bit numbers
5. Division of two 8 bit numbers
6. Identification of I/O ports
7. Arrangement of 10 bytes of data in ascending and descending order by sorting algorithm
8. On and OFF control of relay for protection purposes
9. Making of Real Time Clock using microcontroller
10. Interfacing of Stepper motor using microcontroller
30
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
THEORETICAL PAPERS
Module 4: Fault Analysis: its necessity, contributors to fault current, symmetrical faults,
consideration of load current, fault current calculations using computer in n-bus system, current
limiting reactors, construction, operation, rating, placement in power system, protection, asymmetrical
fault: sequence networks for generators, single line to ground, double line to ground, and line to line
fault, sequence network for transformer and transmission line, analysis of a complete power system,
Computer aided calculations; Application of fault analysis in power system co-ordination using
different power system software. (18 Hr)
Text/References:
1. J. Grainger and W.D. Stevenson, “Power System Analysis”, McGrawHillEducation,1994.
2. O. I. Elgerd, “Electric Energy Systems Theory”, McGraw Hill Education,1995.
3. A. R. Bergen and V. Vittal, “Power System Analysis”, Pearson EducationInc.,1999.
31
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Python Programming: Object based program using multi threading, I/O handling of files, Printing
and display using timer operation, program for handling of interfacing of cameras, program to
develop machine learning based applications.
Text/References:
1. D. Kuhlman,"A Python Book: Beginning Python, Advanced Python, and Python Exercises".
2. R. L. Halterman, "Learning To Program With Python",
3. C. H. Swaroop, "A Byte of Python",www.ebshelf.com
4. S. Holzner,"Visual Basic .Net Programming"- Black Book
5. S. Holzner,"Visual Basic 6 Programming"- Black Book
6. H. Schildt, " Java: The Complete Reference", Rupa Publication
32
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
33
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Text/References:
1. G. K. Dubey, “Power Semiconductor Controlled Drives”, PrenticeHall,1989.
2. R. Krishnan, “Electric Motor Drives: Modeling, Analysis and Control”, Prentice Hall, 2001.
3. G. K. Dubey, “Fundamentals of Electrical Drives”, CRC Press ,2002.
4. W. Leonhard, “Control of Electric Drives”, Springer Science & Business Media, 2001.
5. P.C. Sen, “Thyristor Dc Drives”, John Wiley, NY.
6. B.K. Bose, “Modern Power Electronics and AC Drives”, PHI.
34
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
PRACTICAL PAPERS
Course LC-EE 607: Power Electronics and Drives Laboratory
Course Outcomes:
At the end of this course, students will have the ability to
CO1 Get exposure to power semiconductor devices, like Diodes, Power BJT, Power
MOSFET etc. and their basic characteristics.
CO2 Study different types of converters, chopper and inverters circuits with different
types of loads.
CO3 Applications of converters, choppers in DC and AC drive.
CO4 Get exposure to power electronics circuit simulation software as well as to analyse
the control features of both ac and dc drives.
List of Experiments
List of Experiments
1. To study the power flow characteristics with different line length of HVAC Transmission
line.
35
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
2. To study the voltage profile variation with different loadings and with different line lengths of
HVAC Transmission line.
3. To study the reactive power profile with different loadings and with different line lengths of
HVAC Transmission line.
4. To study the IDMT characteristic of directional and non-directional over current and earth
fault relay.
5. To simulate load flow and fault analysis schemes using ETAP software
THEORETICAL PAPERS
Out of the subjects mentioned in humanities, social science including management courses (HSMC),
only one will be offered for study. For details please see HSMC portion.
36
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
THEORETICAL PAPERS
Course Outcomes:
At the end of the course, students will demonstrate the ability to
CO1 Learn about the engineering society through the societal developments with life-long
learning
CO2 Learn about the ethics of engineering
CO3 Learn to communicate and to analyse the engineering problems using modern tools
37
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Detailed Syllabus
38
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Text/References:
1. G. De, “Principles of Thyristorised Converters”, Oxford & IBH Publishing Co,1988.
2. J. G. Kassakian, M. F. Schlecht and G. C.Verghese, “Principles of Power Electronics”,
Addison-Wesley, 1991.
3. L. Umanand, “Power Electronics: Essentials and Applications”, Wiley India, 2009.
4. N. Mohan and T. M. Undeland, “Power Electronics: Converters, Applications and Design”,
John Wiley & Sons, 2007.
5. R. W. Erickson and D. Maksimovic, “Fundamentals of Power Electronics”, Springer Science &
Business Media, 2001.
39
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Major considerations in electrical machine design, electrical engineering materials, space factor,
choice of specific electrical and magnetic loadings, thermal considerations, heat flow, temperature
rise, rating of machines, design of inductive coil, design of electric heaters.
Text/References:
1. A.K. Sawhney, “A Course in Electrical Machine Design”, Dhanpat Raiand Sons,1970.
2. M.G. Say, “Theory & Performance & Design of A.C. Machines”, ELBS London.
3. S.K. Sen, “Principles of Electrical Machine Design with computer programmes”, Oxford and
IBH Publishing, 2006.
4. K. L. Narang, “A Text Book of Electrical Engineering Drawings”, Satya Prakashan, 1969.
5. A. Shanmugasundaram, G. Gangadharan and R.Palani, “Electrical Machine Design Data
Book”, New AgeInternational,1979.
6. K. M.V. Murthy, “Computer Aided Design of Electrical Machines”, B.S. Publications,2008.
7. Nicola Bianchi, “Electrical Machine Analysis Using Finite Elements”, CRC.
40
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Text/References
1. J. L. Blackburn, “Protective Relaying: Principles and Applications”, Marcel Dekker, New York,
1987.
2. Y. G. Paithankar and S. R. Bhide, “Fundamentals of power system protection”, Prentice Hall,
India, 2010.
3. A. G. Phadke and J. S. Thorp, “Computer Relaying for Power Systems”, John Wiley & Sons,
1988.
4. A. G. Phadke and J. S. Thorp, “Synchronized Phasor Measurements and their Applications”,
Springer, 2008.
5. D. Reimert, “Protective Relaying for Power Generation Systems”, Taylor and Francis, 2006.
Module 2: Analysis of Line Commutated and Voltage Source Converters (10 Hours)
Line Commutated Converters (LCCs): Six pulse converter, Analysis neglecting commutation overlap,
harmonics, Twelve Pulse Converters. Inverter Operation. Effect of Commutation Overlap.
41
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Expressions for average dc voltage, AC current and reactive power absorbed by the converters. Effect
of Commutation Failure, Misfire and Current Extinction in LCC links.
Voltage Source Converters (VSCs): Two and Three-level VSCs. PWM schemes: Selective Harmonic
Elimination, Sinusoidal Pulse Width Modulation. Analysis of a six-pulse converter. Equations in the
rotating frame. Real and Reactive power control using a VSC.
Text/References:
1. K. R. Padiyar, “HVDC Power Transmission Systems”, New Age International Publishers, 2011.
2. J. Arrillaga, “High Voltage Direct Current Transmission”, Peter Peregrinus Ltd., 1983.
3. E. W. Kimbark, “Direct Current Transmission”, Vol.1, Wiley-Interscience, 1971.
CO1 Analyse transmission lines and estimate voltage and current at any point on
transmission line for different load conditions.
CO2 Provide solution to real life plane wave problems for various boundary conditions.
CO3 Analyse the field equations for the wave propagation in special cases such as lossy
and low loss dielectric media.
CO4 Visualize TE and TM mode patterns of field distributions in a rectangular wave-
guide.
CO5 Understand and analyse radiation by antennas.
42
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Text/Reference Books
1. R. K. Shevgaonkar, “Electromagnetic Waves”, Tata McGraw Hill, 2005.
2. D. K. Cheng, “Field and Wave Electromagnetics”, Addison-Wesley, 1989.
3. M. N. O. Sadiku, “Elements of Electromagnetics”, Oxford University Press, 2007.
4. C. A. Balanis, “Advanced Engineering Electromagnetics”, John Wiley & Sons, 2012.
5. C. A. Balanis, “Antenna Theory: Analysis and Design”, John Wiley & Sons, 2005.
CO1 Understand the electrical wiring systems for residential, commercial and industrial
consumers, representing the systems with standard symbols and drawings, SLD.
CO2 Understand various components of industrial electrical systems.
CO3 Analyze and select the proper size of various electrical system components.
43
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Text/Reference Books
1. S. L. Uppal and G. C. Garg, “Electrical Wiring, Estimating & Costing”, Khanna publishers,
2008.
2. K. B. Raina, “Electrical Design, Estimating & Costing”, New age International, 2007.
3. S. Singh and R. D. Singh, “Electrical estimating and costing”, Dhanpat Rai and Co., 1997.
4. Website for IS Standards.
5. H. Joshi, “Residential Commercial and Industrial Systems”, McGraw Hill Education, 2008.
44
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
CO4 Apply digital signal processing for the analysis of real-life signals.
Text/Reference Books:
1. S. K. Mitra, “Digital Signal Processing: A computer-based approach”, McGraw Hill, 2011.
2. V. Oppenheim and R.W. Schafer, “Discrete Time Signal Processing”, Prentice Hall, 1989.
3. J. G. Proakis and D.G.Manolakis, “Digital Signal Processing: Principles, Algorithms And
Applications”, PrenticeHall,1997.
4. L. R. Rabiner and B. Gold, “Theory and Application of Digital Signal Processing”, Prentice
Hall, 1992.
5. J. R. Johnson, “Introduction to Digital Signal Processing”, Prentice Hall, 1992.
6. D. J. DeFatta, J. G. Lucas and W. S. Hodgkiss, “Digital Signal Processing”, John Wiley & Sons,
1988.
45
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Architecture and function of general computer system, CISC Vs RISC, Data types, Integer Arithmetic
- Multiplication, Division, Fixed and Floating-point representation and arithmetic, Control unit
operation, Hardware implementation of CPU with Micro instruction, microprogramming, System
buses, Multi-bus organization.
Text/Reference Books
1. V. Carl, G. Zvonko and S. G. Zaky, “Computer organization”, McGraw Hill, 1978.
2. B. Breyand C. R. Sarma, “The Intel microprocessors”, Pearson Education, 2000.
3. J. L. Hennessy and D. A. Patterson, “Computer Architecture A Quantitative Approach”,
Morgan Kauffman, 2011.
4. W. Stallings, “Computer organization”, PHI, 1987.
5. P. Barryand P. Crowley, “Modern Embedded Computing”, Morgan Kaufmann, 2012.
6. N. Mathivanan, “Microprocessors, PC Hardware and Interfacing”, Prentice Hall, 2004.
7. Y. C. Lieuand G. A.Gibson, “Microcomputer Systems: The 8086/8088 Family”, Prentice Hall
India, 1986.
8. J. Uffenbeck, “The 8086/8088 Design, Programming, Interfacing”, Prentice Hall, 1987.
9. B. Govindarajalu, “IBMPC and Clones”, Tata McGraw Hill,1 991.
10. P. Able, “8086 Assembly Language Programming”, Prentice Hall India.
Course Outcomes:
At the end of this course, students will demonstrate the ability to
46
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
CO3 Organize a modern computer system and be able to relate it to real examples.
CO4 Apply the techniques to simple real-life problems.
Text/Reference Books
1. P. P. Silvester and R. L. Ferrari “Finite Element for Electrical Engineers”, Cambridge
University press, 1996.
2. M. N. O. Sadiku, “Numerical Techniques in Electromagnetics”, CRC press, 2001.
CO1 Understand the energy scenario and the consequent growth of the power generation
from renewable energy sources.
CO2 Understand the basic physics of wind and solar power generation.
CO3 Understand the power electronic interfaces for wind and solar generation.
CO4 Understand the issues related to the grid-integration of solar and wind energy
systems.
47
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
History of wind power, Indian and Global statistics, Wind physics, Betz limit, Tip speed ratio, stall
and pitch control, Wind speed statistics-probability distributions, Wind speed and power-cumulative
Distribution functions.
Text/References:
1. T. Ackermann, “Wind Power in Power Systems”, John WileyandSonsLtd.,2005.
2. G. M. Masters, “Renewable and Efficient Electric Power Systems”, John WileyandSons,2004.
3. S. P. Sukhatme, “Solar Energy: Principles of Thermal Collection and Storage”, McGraw Hill,
1984.
4. H. Siegfried and R.Waddington, “Grid integration of wind energy conversion systems” John
Wiley and Sons Ltd.,2006.
5. G. N. Tiwari and M. K. Ghosal, “Renewable Energy Applications”, Narosa Publications,2004.
6. J. A. Duffie and W.A. Beckman, “Solar Engineering of Thermal Processes”, John Wiley &
Sons,1991.
CO1 Understand the models to describe hybrid vehicles and their performance.
CO2 Understand the different possible ways of energy storage.
CO3 Understand the different strategies related to energy storage systems.
CO4 Understand the issues related to the grid-integration of solar and wind energy
systems.
48
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Introduction to Hybrid Electric Vehicles: History of hybrid and electric vehicles, social and
environmental importance of hybrid and electric vehicles, impact of modern drive-trains on energy
supplies.
Hybrid Electric Drive-trains: Basic concept of hybrid traction, introduction to various hybrid drive-
train topologies, power flow control in hybrid drive-train topologies, fuel efficiency analysis.
Text/References:
1. C. Mi, M.A. Masrur and D.W.Gao, “Hybrid Electric Vehicles: Principles and Applications with
Practical Perspectives”, John Wiley & Sons, 2011.
2. S. Onori, L.Serrao and G. Rizzoni,“Hybrid Electric Vehicles: Energy Management Strategies”,
Springer,2015.
3. M. Ehsani, Y. Gao, S. E. Gay and A. Emadi, “Modern Electric, Hybrid Electric, and Fuel Cell
Vehicles: Fundamentals, Theory, and Design”, CRC Press,2004.
4. T. Denton, “Electric and Hybrid Vehicles”, Routledge, 2016.
CO1 Understand the characteristics of ac transmission and the effect of shunt and series
reactive compensation.
CO2 Understand the working principles of FACTS devices and their operating
characteristics.
CO3 Understand the basic concepts of power quality.
49
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Module 7: Dynamic Voltage Restorer and Unified Power Quality Conditioner (6 Hours)
Voltage Sag/Swell mitigation: Dynamic Voltage Restorer–Working Principle and Control Strategies.
Series Active Filtering. Unified Power Quality Conditioner (UPQC): Working Principle. Capabilities
and Control Strategies.
Text/References
1. N. G. Hingorani and L.Gyugyi, “Understanding FACTS: Concepts and Technology of FACTS
Systems”, Wiley-IEEE Press, 1999.
2. K. R. Padiyar, “FACTS Controllers in Power Transmission and Distribution”, New Age
International(P) Ltd. 2007.
3. T. J. E. Miller, “Reactive Power Control in Electric Systems”, John Wiley and Sons, New York,
1983.
50
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
51
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Module 4: State Space Approach for discrete time systems (10 Hours)
State space models of discrete systems, State space analysis. Lyapunov Stability. Controllability,
reachability, Reconstructibility and observability analysis. Effect of pole zero cancellation on the
controllability & observability.
Text/References
1. K. Ogata, “Digital Control Engineering”, Prentice Hall, Englewood Cliffs, 1995.
2. M. Gopal, “Digital Control Engineering”, Wiley Eastern, 1988.
3. G. F. Franklin, J. D. Powell and M. L. Workman, “Digital Control of Dynamic Systems”,
Addison-Wesley, 1998.
4. B. C. Kuo, “Digital Control System”, Holt, Rinehart and Winston,1980.
52
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Course Outcomes:
At the end of this course, students will demonstrate the ability to
Text/References
1. N. Nise, “Control system Engineering”, John Wiley,2000.
2. I. J. Nagrath and M. Gopal, “Control system engineering”, Wiley, 2000.
3. M. Gopal, “Digital Control Engineering”, Wiley Eastern, 1988.
4. K. Ogata, “Modern Control Engineering”, Prentice Hall, 2010.
5. B. C. Kuo, “Automatic Control system”, Prentice Hall, 1995.
6. J. J. D’Azzo and C. H. Houpis, “Linear control system analysis and design (conventional and
modern)”, McGraw Hill, 1995.
7. R. T. Stefani and G. H. Hostetter, “Design of feedback control Systems”, Saunders College Pub,
1994.
53
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Course Outcomes:
At the end of this course, students will demonstrate the ability to
CO1 Understand the problem of power system stability and its impact on the system.
CO2 Analyze linear dynamical systems and use of numerical integration methods.
CO3 Model different power system components for the study of stability.
CO4 Understand the methods to improve stability
Text/Reference Books
1. K. R. Padiyar, “Power System Dynamics, Stability and Control”, B. S. Publications, 2002.
2. P. Kundur, “Power System Stability and Control”, Mc GrawHill, 1995.
3. P. Sauerand M.A. Pai, “Power System Dynamics and Stability”, Prentice Hall, 1997.
54
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
55
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Course Outcomes:
At the end of this course, students will demonstrate the ability to
CO1 Understand the operation of power electronic converters and their control strategies.
CO2 Understand the vector control strategies for ac motor drives.
CO3 Understand the implementation of the control strategies using digital signal
processors
Text /References:
1. B. K. Bose, “Modern Power Electronics and AC Drives”, Pearson Education, Asia, 2003.
2. P. C. Krause, O. Wasynczuk and S. D. Sudhoff, “Analysis of Electric Machinery and Drive
Systems”, John Wiley & Sons, 2013.
3. H. A. Taliyat and S. G. Campbell, “DSP based Electromechanical Motion Control”, CRC press,
2003.
4. R. Krishnan, “Permanent Magnet Synchronous and Brushless DC motor Drives”, CRC Press,
2009.
56
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
CO1 Understand the current energy scenario and importance of energy conservation.
CO2 Understand the concepts of energy management.
CO3 Understand the methods of improving energy efficiency in different electrical
systems.
CO4 Understand the concepts of different energy efficient devices.
57
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Maximum demand controllers, automatic power factor controllers, energy efficient motors, soft
starters with energy saver, variable speed drives, energy efficient transformers, electronic ballast,
occupancy sensors, energy efficient lighting controls, energy saving potential of each technology.
Text/Reference Books
1. Guide books for National Certification Examination for Energy Manager/Energy Auditors
Book-1, General Aspects (available online)
2. Guide books for National Certification Examination for Energy Manager/Energy Auditors
3. Book-3, Electrical Utilities (available online)
4. S. C. Tripathy, “Utilization of Electrical Energy and Conservation”, McGraw Hill, 1991.
5. Success stories of Energy Conservation by BEE, New Delhi (www.bee-india.org)
CO1 Understand the basic physics related to various breakdown processes in solid, liquid
and gaseous insulating materials.
CO2 Knowledge of generation and measurement of D.C., A.C., & Impulse voltages.
CO3 Knowledge of tests on H.V. equipment and on insulating materials, as per the
standards.
CO4 Knowledge of how over-voltages arise in a power system, and protection against
these over- voltages.
Module 6: High Voltage Testing of Electrical Apparatus and High Voltage Laboratories (7
Hours)
58
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Various standards for HV Testing of electrical apparatus, IS, IEC standards, Testing of insulators and
bushings, testing of isolators and circuit breakers, testing of cables, power transformers and some high
voltage equipment, High voltage laboratory layout, indoor and outdoor laboratories, testing facility
requirements, safety precautions in H.V. Labs.
Text/Reference Books
1. M. S. Naidu and V. Kamaraju, “High Voltage Engineering”, McGraw Hill Education, 2013.
2. C. L. Wadhwa, “High Voltage Engineering”, New Age International Publishers, 2007.
3. D. V. Razevig (Translated by Dr. M. P. Chourasia), “High Voltage Engineering Fundamentals”,
Khanna Publishers, 1993.
4. E. Kuffel, W. S. Zaengl and J. Kuffel, “High Voltage Engineering Fundamentals”, Newnes
Publication, 2000.
5. R. Arora and W. Mosch “High Voltage and Electrical Insulation Engineering”, John Wiley &
Sons, 2011.
6. Various IS standards for HV Laboratory Techniques and Testing
CO1 Learn principle of operation, layout of different types, process flow diagrams and
process loops of power plants.
CO2 Study different types of substations, their equipment, arrangement, metering safety
issues.
CO3 Understand the concept of power system tariff and digital metering
CO4 Understand SMART metering, power exchange concept and demand side
management
59
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Text/Reference Books
60
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Detailed Syllabus
Course OE01: Electronic Devices
Course Outcomes:
At the end of this course students will demonstrate the ability to
61
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
models; Avalanche breakdown, Zener diode, Schottky diode Bipolar Junction Transistor, I-V
characteristics, Ebers-Moll Model, MOS capacitor, C-V characteristics, MOSFET, I-V characteristics,
and small signal models of MOS transistor, LED, photodiode and solar cell;
CO1 For a given algorithm student will able to analyze the algorithms to determine the
time and computation complexity and justify the correctness.
CO2 For a given problem of Stacks, Queues and linked list student will able to implement
it and analyze the same to determine the time and computation complexity.
CO3 Student will able to write an algorithm Selection Sort, Bubble Sort, Insertion Sort
Quick Sort, Merge Sort, Heap Sort and compare their performance in term of Space
and Time complexity.
CO4 Student will able to implement Graph search and traversal algorithms and determine
the time and computation complexity.
62
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Trees: Basic Tree Terminologies, Different types of Trees: Binary Tree, Threaded Binary Tree,
Binary Search Tree, AVL Tree; Tree operations on each of the trees and their algorithms with
complexity analysis. Applications of Binary Trees. B Tree, B+ Tree: definitions, algorithms and
analysis.
Graph: Basic Terminologies and Representations, Graph search and traversal algorithms and
complexity analysis.
Design of digital circuits: Review of CMOS design techniques, CMOS inverter and basic gates,
comparison with other logic families, static vs dynamic logic, delay calculation, logical effort, driving
large capacitive loads.
The Wiring Network: Elmore delay calculation, lumped and distributed RC lines; delay in long
lines-buffers and buffer placement.
Design Automation: Custom vs semi-custom circuit partitioning, placement and routing/
floorplanning; algorithms for physical design.
The MOS Device: Small Signal and Large Signal equivalent circuit; MOS device modeling; MOS
SPICE models; SPICE simulation of MOS circuits.
MOS Components and Sub-circuits: MOS Switch; MOS Diode/Active resistors; MOS Capacitors;
Switched Capacitor Resistor; Current Sinks and Sources; Current Mirrors; Current and Voltage
reference; Bandgap reference; SPICE Simulation examples.
63
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Course Outcomes
At the end of the course, students will demonstrate the ability to:
CO1. Mathematically represent the various types of images and analyze them.
2. Process these images for the enhancement of certain properties or for optimized use of the
resources.
3. Develop algorithms for image compression and coding
Syllabus
Module 1: Digital Image Fundamentals ( 10 Hours)
Elements of visual percept ion, image sensing and acquisition, image sampling and quantization, basic
relationships between pixels – neighborhood, adjacency, connectivity, distance measures. Image
Enhancements and Filtering-Gray level transformations, histogram equalization and specifications,
pixel-domain smoothing filters – linear and order-statistics, pixel-domain sharpening filters – first and
second derivative, two-dimensional DFT and its inverse, frequency domain filters – low-pass and
high-pass.
Text/Reference Books:
1. R.C. Gonzalez and R.E. Woods, Digital Image Processing, Second Edition, Pear son Education 3rd
edit ion 2008
2. Anil Kumar Jain, Fundamentals of Digital Image Processing, Prentice Hall of India.2nd edit ion
2004
3. Murat Tekalp, Digital Video Processing" Prentice Hall, 2nd edit ion 2015
CO1 Analyze and compare different analog modulation schemes for their efficiency and
bandwidth
CO2 Analyze the behavior of a communication system in presence of noise
64
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
CO3 Investigate pulsed modulation system and analyze their system performance
CO4 Analyze different digit al modulation schemes and can compute the bit error
performance
Review of probability and random process. Gaussian and white noise characteristics, Noise in
amplitude modulation systems, Noise in Frequency modulation systems. Pre-emphasis and
Deemphasis, Threshold effect in angle modulation.
Text/Reference Books:
1. Haykin S., "Communications Systems", John Wiley and Sons, 2001.
2. Proakis J. G. and Salehi M., "Communication Systems Engineering", Pearson Education, 2002.
3. Taub H. and Schilling D.L., "Principles of Communication Systems”, Tat a McGraw Hill, 2001.
4. Wozencraft J. M. and Jacobs I. M., ``Principles of Communication Engineering'', John Wiley,
1965.
5. Barry J. R., Lee E. A. and Messerschmitt D. G., ``Digital Communication'', Kluwer Academic
Publishers, 2004.
6. Proakis J.G., ``Digital Communications'', 4th Edition, McGraw Hill, 2000.
CO1 recognise various types loads applied on machine components of simple geometry
and understand the nature of internal stresses that will develop within the
components
CO2 evaluate the strains and deformation that will result due to the elastic stresses
developed within the materials for simple types of loading
CO3 understand the nature of stresses developed in simple geometries such as bars,
65
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
cantilevers, beams, shafts, cylinders and spheres for various types of simple loads
CO4 calculate the elastic deformation occurring in various simple geometries for different
types of loading
Text Books:
1 Egor P. Popov, Engineering Mechanics of Solids, Prentice Hall of India, New Delhi, 2001.
2 R. Subramanian, Strength of Materials, Oxford University Press, 2007.
3 Ferdinand P. Been, Russel Johnson Jr and John J. Dewole, Mechanics of Materials, Tata
McGraw Hill Publishing Co. Ltd., New Delhi 2005.
66
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
References
Text/Reference Books
1. J.W. Valvano, "Embedded Microcomputer System: Real Time Inter facing", Brooks/Cole,2000.
2. Jack Ganssle, "The Art of Designing Embedded Systems", Newness, 1999.
3. V.K. Madisetti, "VLSI Digital Signal Processing", IEEE Press (NY, USA), 1995.
4. David Simon, "An Embedded Software Primer", Addison Wesley, 2000.
5. K.J. Ayala, "The 8051 Microcontroller: Architecture, Programming, and Applications", PenramIntl,
1996.
67
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
CO1 understand the construction and working principle of various parts of an automobile
CO2 understand the transmission systems of an automobile
CO3 understand the steering and breaking systems of an automobile
CO4 understand the alternative energy source for automobile
Text books:
1. Kirpal Singh, Automobile Engineering, 7th ed., Standard Publishers, New Delhi, 1997.
2. Jain K.K. and Asthana R.B., Automobile Engineering, Tata McGraw Hill, New Delhi, 2002.
3. Heitner J., Automotive Mechanics, 2nd ed., East-West Press, 1999.
4. Heisler H., Advanced Engine Technology, SAE International Publ., USA, 1998.
68
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Introduction to time frequency analysis; the how, what and why about wavelets, Short-time Fourier
transform, Wigner-Ville transform.; Continuous time wavelet transform, Discrete wavelet transform,
tiling of the time-frequency plane and wave packet analysis, Construction of wavelets.
Text/Reference Books:
CO1 provide knowledge on machines and related tools for manufacturing various
components
CO2 understand the relationship between process and system in manufacturing domain
CO3 identify t e techniques for the quality assurance of the products and the optimality of
the process in terms of resources and time management
Module 1: Tooling for conventional and non-conventional machining processes (12 Hours)
Mould and die design, Press tools, Cutting tools; Holding tools: Jigs and fixtures, principles,
applications and design; press tools – configuration, design of die and punch; principles of forging die
design.
69
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
scheduling; Production planning & control: Forecasting models, aggregate production planning,
materials requirement planning. Inventory Models: Economic Order Quantity, quantity discount
models, stochastic inventory models, practical inventory control models, JIT. Simple queuing theory
models.
Text Books:
(i) Kalpakjian and Schmid, Manufacturing processes for engineering materials (5th Edition)-Pearson
India, 2014.
(ii) Taha H. A., Operations Research, 6th Edition, Prentice Hall of India, 2003.
(iii) Shenoy G.V. and Shrivastava U.K., Operations Research for Management, Wiley Eastern, 1994.
Text Books:
1. Nag P.K., Power Plant Engineering, 3rd ed., Tata McGraw Hill, 2008.
2. El Wakil M.M., Power Plant Technology, Tata McGraw Hill, 2010.
3. Elliot T.C., Chen K and Swanekamp R.C., Power Plant Engineering, 2nd ed., McGraw Hill, 1998.
70
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
CO1 Explain the functions of the different layer of the OSI Protocol.
CO2 develop an understanding of modern network architectures from a design and
performance perspective.
CO3 Introduce the student to the major concepts involved in wide-area networks
(WANs), local area networks (LANs) and Wireless LANs (WLANs).
CO4 Provide an opportunity to do network programming
Module1: (8 Hours)
Data communication Components: Representation of data and its flow Networks, Various Connection
Topology, Protocols and Standards, OSI model, Transmission Media, LAN: Wired LAN, Wireless
LANs, Connecting LAN and Virtual LAN, Techniques for Bandwidth utilization: Multiplexing -
Frequency division, Time division and Wave division, Concepts on spread spectrum.
Module3: (6 Hours)
Network Layer: Switching, Logical addressing – IPV4, IPV6; Address mapping – ARP, RARP,
BOOTP and DHCP–Delivery, Forwarding and Unicast Routing protocols.
Module5: (6 Hours)
Application Layer: Domain Name Space (DNS), DDNS, TELNET, EMAIL, File Transfer Protocol
(FTP), WWW, HTTP, SNMP, Bluetooth, Firewalls, Basic concepts of Cryptography
References
1. Data Communication and Networking, 4th Edition, Behrouz A. Forouzan, McGraw- Hill.
2. Data and Computer Communication, 8th Edit ion, William Stallings, Pearson Prentice Hall India.
1. Computer Networks, 8th Edit ion, Andrew S. Tanenbaum, Pearson New International Edit ion.
2. Internetworking with TCP/IP, Volume 1, 6th Edit ion Douglas Comer, Prentice Hall of India.
3. TCP/IP Illustrated, Volume 1, W. Richard Stevens, Addison-Wesley, United States of America.
71
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Architectural Overview, Design principles and needed capabilities, IoT Applications, Sensing,
Actuation, Basics of Networking, M2M and IoT Technology Fundamentals- Devices and gateways,
Data management, Business processes in IoT, Everything as a Service (XaaS), Role of Cloud in IoT,
Security aspects in IoT.
References
72
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Basic principle of variable capacitance and inductance transducers, Bourdon tube, strain gages, load
cells, LVDT, piezoelectric transducers.
Suggested Books:
1. Measurement Systems: Application & design: EO Doebline (Mc Graw Hill)
2. Instrument Trasducers: Neubert (Oxford)
3. Transducers and Instrumentation: DVS Murthy (Prentice Hall India)
4. Indusrial Instrumentation: DC Patranabis
Suggested Books:
1. Process control instrumentation technology: Curtis D. Johnson (PHI)
2. Process Control : Dipak C. Patranabis
3. Instrument Engineers’ Handbook: Volume II: Bela G. Liptak (CRC Press)
Course OE17: Non-destructive evaluation and biomedical Instrumentation
Course Outcomes
73
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
At the end of the course, students will demonstrate the ability to:
CO1 Understand basics of Non-destructive evaluation
CO2 Apply the basics of NDE for complex analysis using its advanced study
CO3 Realise the basics of biomedical measurement
CO4 Realise the basics of ECG and its analysis procedures
Suggested books:
1. Biomedical Measurement and Instrumentation: Leslie Cromwel
2. Medical Instrumentation application and design: John G. Webster
3. Electrical and Magnetic Methods of Non-destructive Testing- Jack Blitz (Springer)
4. Non-destructive testing: Hull and John ( MacMilan)
74
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Referencs:
Course Outcomes
At the end of the course, students will demonstrate the ability to:
CO1 Understand basics of Mechatronics
CO2 Understand about the Sensors and transducers for Mechatronics
CO3 Realise the operation of Pneumatic and Hydraulic actuation systems
CO4 Realise the basics of Programmable Logic Controller
75
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Details course
Nasidiya Sukta: "Who really knows?”, Brhadaranyaka Upanishad; Chandogya Upanishad: Non-self,
Self, real and unreal. Taittiriya Upanishad: Siksha Valli. Plato’s Symposium: Lack as the source of
desire and knowledge. Socratic method of knowledge as discovery. Language: Word as root of
knowledge (Bhartrahari’s Vakyapadiyam). Fourteen Knowledge basis as a sources of Vidya: Four
76
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Vedas; Six auxiliary sciences (Vedangas); Purana, Nyaya, Mimamsa and Dharma Sastras.
References:
1.Copleston, Frederick, History of Philosophy, Vol. 1.Great Britain: Continuum.
2 Hiriyanna, M. Outlines of Indian Philosophy, Motilal Banarsidass Publishers; Fifth Reprint edition
(2009)
3 Sathaye, Avinash, Translation of Nasadiya Sukta
4. Ralph T. H. Griffith. The Hymns of the Ŗgveda. Motilal Banarsidass: Delhi: 1973.
5. Raju, P. T. Structural Depths of Indian Thought, Albany: State University of New York Press.
6. Plato, Symposium, Hamilton Press.
7. Kautilya Artha Sastra. Penguin Books, New Delhi.
8. Bacon, Nova Orgum
9. Arnold, Edwin. The Song Celestial.
10. Foucault, Knowledge/Power.
11. Wildon, Anthony, System of Structure.
12. Lele, W.K. The Doctrine of Tantrayukti. Varanasi: Chowkamba Series.
13. Dasgupta, S. N. History of Indian Philosophy, Motilal Banasidas, Delhi.
14. Passmore, John, Hundred Years of Philosophy, Penguin.
Reference Books:
1. Bertrand Russel, "Education and Social order".
2. Bower and Hilgard, "Theories of learning".
77
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
References:
1. G. Kuppuram, Ed., “History of Science and Technology in India”, South Asia Books, 1990.
2. Debiprasad Chattopadhyaya, “History of Science and Technology in Ancient India: The
Beginnings”, South Asia Books, 1987.
78
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
schemes
References :
79
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
The idea of India.1857 and the national awakening. 1885 Indian National Congress and development
of national movement its legacies. Constitution making and the Constitution of India.
References :
1. Sunil Khilnani, The Idea of India. Penguin India Ltd., New Delhi.
2. Madhav Khosla, The Indian Constitution, Oxford University Press. New Delhi, 2012.
Brij Kishore Sharma, Introduction to the Indian Constitution, PHI, New Delhi, latest edition.
3. Sumantra Bose, Transforming India: Challenges to the World’s Largest Democracy, Picador
India, 2013.
4. Atul Kohli, Democracy and Discontent: India’s Growing Crisis of Governability, Cambridge
University Press, Cambridge, U. K., 1991.
5. M. P. Singh and Rekha Saxena, Indian Politics: Contemporary Issues and Concerns, PHI,
New Delhi, 2008, latest edition.
6. Rajni Kothari, Rethinking Democracy, Orient Longman, New Delhi, 2005.
References:
80
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
References :
1. Schultz, D. & Schultz, S.E. (2009). Psychology and Work Today (10th ed.). New
Jersey:Pearson/Prentice Hall.
2. Butcher, J. N., Mineka, S., & Hooley, J. M. (2010). Abnormal psychology (14th ed.). New
York: Pearson
3. Gladding, S. T. (2014). Counselling: A comprehensive profession. New Delhi: Pearson
Education
4. Aronson, E., Wilson, T. D., & Akert, R. M. (2010). Social Psychology (7th Ed.). Upper
Saddle River, NJ: Prentice Hall.
81
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
References:
1. Gisbert, P. (2011), Fundamental of Sociology, Orient Blackswan Private Ltd.
2. Horton, Paul B. and Hunt, Chester L. (Sixth edition), Sociology, Mc Graw Hill Book
Company.
3. Haralambos, M. and Heald, R.M. (26th impression, 2004), Sociology: Themes and
Perspectives, Oxford University Press, New Delhi.
4. Betteille, Andre (2014), sociology: essays on Approach & Method, Oxford Uninversity Press,
New Delhi.
5. Ahuja, Ram (2006), Indian Social System, Rawat Publications, New Delhi.
6. Guha, Ramchandra (1994), Social Ecology, Oxford University Press, New Delhi.
7. Sundar Nandini, Jeffery Roger and Thin, Neil (2001) Branching out Joint Forest Management
in India, Oxford University Press, New Delhi.
8. Dunlap, Riley E. and Micelson, William (2008), Handbook of Environmental Sociology,
Rawat Publications, New Delhi.
9. Moore, Francis (2003), Environment and Society, Dominant Publishers, New Delhi.
10. Boman, Z. (1989), Modernity and Holocaust, Cambrdige Polity Press.
11. Baudrilard, J. (1994), The Illusion of the End, Cambridge Polity Press.
12. Jameson, Fredric (2006), Postmodernism OR The Cultural Logic of Late Capitalism, Duke
University Press, Durham.
13. Giddens, Anthony (1990), he Consequences of Modernity, Cambridge Polity Press.
14. Gupta, Dipankar (2000), Mistaken Modernity, Harper Collins Publishers, India.
82
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Concepts of demand, supply, equilibrium, short and long term analysis, static and dynamic state,
macro and micro economics, want and utility, \
Module 2: Marginal analysis (8 Hours)
Cost, money and real cost. Tax and profit, competition, monopoly, distribution.
Module 3: Economic systems(10 Hours)
Capitalism, socialism, mixed economy, Factors of production, national income land labour capital,
organization and enterprise. Laws of return, PNP, NNP and national income.
Module 4: Economic development of India (10 Hours)
features, industrialization, labour economics, agriculture, economic planning, banking and
international trade.
References:
Detailed Syllabus
a. Rapid Technological growth and depletion of resources, Reports of the Club of Rome. Limits
of growth: sustainable development
b. Energy Crisis: Renewable Energy Resources
c. Environmental degradation and pollution. Eco-friendly Technologies. Environmental
Regulations, Environmental Ethics
d. Appropriate Technology Movement of Schumacher; later developments
Module 3: Ethics of Profession: (10 Hours)
a. Engineering profession: Ethical issues in Engineering practice,
b. Conflicts between business demands and professional ideals.
c. Social and ethical responsibilities of Technologists. Codes of professional ethics. Whistle
blowing and beyond, Case studies.
d. Moral and ethical values: canons of ethics; ethics of virtue; ethics of duty; ethics of
responsibility.
Module 4: Human centered Technology (10 Hours)
a. Human centered Technology.
b. Human Operator in Engineering projects and industries. Problems of man, machine, interaction,
83
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
References:
1. Stephen H Unger, Controlling Technology: Ethics and the Responsible Engineers, John Wiley &
Sons, New York 1994 (2nd Ed)
2. Deborah Johnson, Ethical Issues in Engineering, Prentice Hall, Englewood Cliffs, New Jersey
1991.
3. A N Tripathi, Human values in the Engineering Profession, Monograph published by IIM, Calcutta
1996.
4. Little, William: An Introduction of Ethics (allied Publisher, Indian Reprint 1955)
5. William, K Frankena: Ethics (Prentice Hall of India, 1988)
6. Dr. Awadesh Pradhan: Mahamana ke Vichara. (B.H.U., Vanarasi-2007)
Course HSMC-12: Making Indian Culture: Epistemic Traditions, Literature and Performative
Arts
Course Outcomes:
At the end of this course, students will be able to learn about
CO1 The development of an indigenous, Non- European perspective to
study the dynamics of Indian Civilization.
CO2 fostering an indigenous perspective that will help in retrieving the
dynamics, priorities and insights of Indian civilization disembedding it
from the imitation of European model.
84
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Module II: Early Modern India: Mughal Period and After Topics (14Hours)
Religious Sects and Indian Islam, Bhakha and Braj Bhasha, Performative Tradition: Poetry and Music
Text and Telling
References:
1. Sunil Kumar,. The Emergence of the Delhi Sultanate
2. Hazari Prasad Drivedi, Nath Sampradaya
3. Dharmveer Bharati, Siddha Sahitya
4. J.L.Mehta , Advanced Study in the History of Medieval India, Vol. III: Medieval Indian
Society and Culture.
5. GyanendraPandeya, The Construction of Communalism in Colonial North India
6. William Crooke, The Tribes and Caste of North-Western Provinces of India
7. Dipesh Chakrabarty, Provincializing Europe
85
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Managing Stress and Personal Problems, Meditation. Developing Career Thrust: Getting Ahead in
Your Career, Learning Strategies, Perception, Life Span Changes, Developing Good Work Habits.
References :
1. Dubrien, A. J. (2017). Human Relations for Career and Personal Success: Concepts,
Applications, and Skills, 11th Ed. Upper Saddle River, NJ: Pearson.
2. Greenberg, J. S. (2017). Comprehensive stress management (14th edition). New York:
McGraw Hill.
3. Udai, Y. (2015). Yogasan aur pranayam. New Delhi: N.S. Publications.`
CO1 Comprehend the basic knowledge of communication skills in English through exposure to
communication theory and practice.
CO2 Apply the basic grammatical skills, reading skills, vocabulary of the English language through
intensive practice.
CO3 Develop listening and writing skills. Able to write Official Letters, Technical report, memo,
notice, minutes, agenda, resume, curriculum vitae.
CO4 Apply /illustrate all sets of English Language and Communication skills in creative and
effective ways in the professional sphere of their life.
References:
1.Raymond Murphy. English Grammar in Use. 3rd Edn. CUP, 2001.
2. Seidl & McMordie. English Idioms& How to Use Them. Oxford:OUP, 1978.
86
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Why do human languages differ structurally, despite their architectural Similarities? (Sense of
typology). (a) Variation vs transformational evolution.
(b) Word order typology.
87
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
References:
1. Akrnajian, A and Heny, F 1975. An Introduction to the Principles of Transformational
Syntax, Cambridge, Mass: MIT Press.
2. Chomsky, N and Halle, Morries 1966. Studies in Language, Harper and Row, publishers.
New York
3. Bolinger, D.L. 1980, Language, the Loaded Weapon, London: Longman. Stephen. C.
Levenson, 1983 Pragmatics, Cambridge University Press.
4. Song, Jae Jung, 2001 Linguistic Typology. Pearson Education Limited.
Various literary pieces will be picked up that questions the current notions of gender, and raises
uncomfortable questions, challenging the status-quo, forcing us to think the real meaning of equality
and emancipation.
88
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
not Linguistics?: Linguistics is not prescriptive grammar learnt in the school, Linguistics is not
learning of many languages , Linguistics provides tools to analyze language structure scientifically.
Study of Language in Indian and western traditions.
Early cinema: Hiralal Sen, D. G. Phalke, Studio system: New Theatres, Bombay Talkies
Post Studio System: a) Melodrama [Reference Films: Mother India (1957), Anand (1971), Sholay
(1975), Parinda (1989), Dilwale Dulhaniya Le Jayenge (1996)]. b) Auteurs : Satyajit Ray [Reference
films: Apu Trilogy], Ritwik Ghatak [Reference films: Partition Trilogy]. Indian New Wave
[Reference films: Bhuvan Shome (1969), Uski Roti (1969), Ankur (1972) Garam Hawa (1974), Rat
Trap (1982), Ardh Satya (1983), Jaane Bhi Do Yaaron (1983)]. Middle cinema [Reference films:
Choti Si Baat (1976), Gol Maal (1979), Khosla Ka Ghosla (2006)]
Text/References:
1. Barsam, Richard and Dave Monahan, “Looking at Movies”, New York: Norton, 2016. 5th
edition.
2. Braudy, Leo and Marshall Cohen. Eds, “Film Theory and Criticism”, Oxford: Oxford
University Press, 1999.
89
Notification No.:CSR/39/19 DATED 18.10.2019
UNIVERSITY OF CALCUTTA
Faculty of Engineering and Technology
Electrical Engineering
Department of Applied Physics
Module 1. The Legal System: Sources of Law and The Court Structure: (10 Hours)
Enacted law -Acts of Parliament are of primary legislation, Common Law or Case law- Principles
taken from decisions of judges constitute binding legal rules. The Court System in India and Foreign
Courtiers. (District Court, District Consumer Forum, Tribunals, High Courts, Supreme Court).
Arbitration: As an alternative to resolving disputes in the normal courts, parties who are in dispute can
agree that this will instead be referred to arbitration. Basic principles of contract law, sale of goods
law
Module 2: Business Organisations (8 Hours)
Sole traders (Business has no separate identity from you, all business property belongs to you).
Partnerships: three types of Partnerships: Limited Liability Partnership, General Partnership, Limited
Partnerships. Companies: The nature of companies. Classification of companies. Formation of
companies. Features of a public company. Carrying on business. Directors–Their Powers and
Responsibilities/Liabilities.
Reference:
90