DEPARTMENT OF ELECTRICAL AND ELECTRONICS ENGINEERING

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DEPARTMENT OF ELECTRICAL AND ELECTRONICS ENGINEERING

COURSE PLAN – PART I Name of the

programme and specialization

M.Tech- Power Electronics

Course Title INDUSTRIAL CONTROL ELECTRONICS

Course Code EE656 No. of

Credits 3 Course Code of Pre-

requisite subject(s) --

Session January 2020

Section (if,

applicable)

1^st year Name of Faculty Mr. A. Rakesh Kumar Department EEE Official Email arakesh@nitt.edu Telephone

No. 9840360047

Name of Course Coordinator(s) (if, applicable)

Official E-mail Telephone No.

Course Type (please

tick appropriately) Core course

√

Elective course Syllabus (approved in BoS)

Review of uninterrupted power supplies – offline and on-line topologies – analysis of UPS topologies, solid state circuit breakers and solid-state tap changing transformers – advance energy storage system, battery, ultra-capacitors, flywheel energy storage, fuel cells characteristics and applications.

Overview of sensors in industrial applications – current sensors, current transformer, hall effect sensors – voltage sensors, non-isolated measurement, hall effect, temperature sensors, thermal protection of power components- speed sensors- position sensors.

Analog controllers- proportional controllers, proportional – integral controllers, PID controllers, derivative overrun, integral windup, cascaded control, feed forward control. Signal conditioners – instrumentation amplifiers- voltage to current, current to voltage, voltage to frequency, frequency to voltage converters.

Solid state welding power source – introduction, classification, basic characteristics, volt ampere relationship and its measurements, control of volt ampere characteristics, volt control, slope control and dual control- pulsing techniques- testing of welding power source. Introduction to heating, classification, characteristics- applications.

Introduction to programmable logic controllers, architecture, programming. Supervisory control and data acquisition (SCADA) Systems, components of SCADA systems, SCADA basic functions, SCADA application functions in electrical engineering, Energy saving in electrical drive systems.

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Page 2 of 6 COURSE OBJECTIVES

The contents aim to develop the knowledge of the student in the field of power electronics sensors, storage units, controllers, welding applications and PLC/SCADA in industries. They will also get familiar with different industrial standard protocols.

MAPPING OF COs with Pos Course Outcomes

Programme Outcomes (PO)

Upon completion of the course the students would be able to 1. Understanding the working of various power electronic

circuits and components used in industrial applications. 1,3,4,6,7,8,9,14 2. Analyze various analog controllers and signal conditioning

circuits. 1,2,3,4,6,7,8,9,14

3. Design control circuits for UPS and other industrial

applications 1,2,3,4,6,7,8,9,14

COURSE PLAN – PART II COURSE OVERVIEW

A study on the operating principles of electronic devices, discrete control systems, heating system and controllers with an introduction to industrial control electronics. Topics will include methods of voltage control, storage applications, sensors used in industry, analog controllers, welding devices and PLC/SCADA.

8COURSE TEACHING AND LEARNING ACTIVITIES S.No Week/Contact

Hours

Topic Mode of Delivery

1.

Week 1

06-10 Jan 2020 (3 Contact hour)

Review of UPS – offline and on-line topologies – analysis of UPS topologies.

Chalk & Talk/PPT

2.

Week 2 13-17 Jan 2020 (2 Contact hours)

Solid state circuit breakers and solid-

state tap changing of transformer. Chalk & Talk/PPT

3.

Week 3

20-24 Jan 2020 (3 Contact hours)

Advance energy storage system, battery, ultra-capacitors, flywheel energy storage, fuel cells characteristics and applications.

Chalk & Talk/PPT

4.

Week 4

27-31 Jan 2020 (3 Contact hour)

Overview of sensors in industrial applications – current sensors, current transformer.

Chalk & Talk/PPT

5.

Week 5

3-7 Feb 2020 (3 Contact hours)

Hall effect sensors - voltage sensors, non-isolated measurement, hall effect, temperature sensors.

Chalk & Talk/PPT

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Page 3 of 6 6.

Week 6

10-14 Feb 2020 (3 Contact hours)

Thermal protection of power components- speed sensors- position sensors.

Chalk & Talk/PPT

7.

Week 7

17-21 Feb 2020 (1+2 Contact hours)

ASSESSMENT 1

Analog controllers- proportional controllers, proportional – integral controllers, PID controllers,

Chalk & Talk/PPT

8.

Week 8

24-28 Feb 2020 (3 Contact hour)

Derivative overrun, integral windup, cascaded control, feed forward control.

Chalk & Talk/PPT

9.

Week 9

2-6 March 2020 (3 Contact hours)

Signal conditioners – instrumentation amplifiers- voltage to current, current to voltage, voltage to frequency, frequency to voltage converters.

Chalk & Talk/PPT

10.

Week 10

9-13 March 2020 (2 Contact hours)

Solid state welding power source – introduction, classification, basic charactersitics,

Chalk & Talk/PPT

11. Online Tutoring

Volt ampere relationship and its measurements, control of volt ampere characterisitcs, volt control, slope control and dual control- pulsing techniques.

PPT and PDF/Assignments

Testing of welding power source.

Introduction to heating, classification, characteristics- applications.

Introduction to porgrammable logic controllers, architecture, programming.

Supervisory control and data acquisition (SCADA) Systems, components of SCADA systems, SCADA basic functions.

SCADA application functions in electrical engineering, Energy saving in electrical drive systems.

16. 01-17 July 2020 Compensation Assessment (CPA) Online

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Page 4 of 6 17. 18-30 July 2020 End Semester Examination

(Final Assessment) Online

COURSE ASSESSMENT METHODS S.No

. Mode of Assessment Week Duration % Weightage

1 I^st Class Test Week 7

17-21 Feb 2020 60 minutes 30

2 Assignments Throughout semester (4*10) 40

CPA Compensation Assessment 01-17 July 2020 60 minutes 30 3 Final Assessment 18-30 July 2020 120 minutes 30 Books and References

1. Michael Jacob, ‘Industrial Control Electronics – Applications and Design’, Prentice Hall, 1995. 2.

Thomas E. Kissell, ‘Industrial Electronics’, Prentice Hall India, 2003

2. Curtis D. Jhonson ‘Process Control Instrumentation technology’ Pearson New International Eighth edition,2014

3. Mehrdad Ehsani, Yimin Gao, Sebastien E. Gay, Ali Emadi ‘Modern Electric, Hybrid Electric and Fuel Cell Vehicles-Fundamentals, Theory and Design’ CRC Press 2004.

4. Mini S. Thomas, John D McDonald, Power Systems SCADA and Smart Grid, CRC Press, Taylor and Francis.

5. Welding Handbook, Volume-2, Seventh Edition, American Welding Society.

6. Power Electronics Applied to Industrial Systems and Transports. Volume 5: Measurement Circuits, Safeguards and Energy Storage, Imprint - ISTE Press – Elsevier.

COURSE EXIT SURVEY

 Feedback from the students during class committee meetings

 Anonymous feedback through questionnaire (Mid of the semester & End of the semester)



End semester feedback on course outcomes

COURSE POLICY (including compensation assessment to be specified) 1. Attending all the assessments mandatory for every student

2. One compensation assessment will be conducted for those students who are being physically absent for the assessment 1 and/or 2, only for the valid reason.

3. At any case CPA will not be considered as an improvement test.

4. Relative grading will be adopted for the course.

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Page 5 of 6 ATTENDANCE POLICY (A uniform attendance policy as specified below shall be

followed)

 At least 75% attendance in each course is mandatory.

 A maximum of 10% shall be allowed under On Duty (OD) category.

 Students with less than 65% of attendance shall be prevented from writing the final assessment and shall be awarded 'V' grade.

ACADEMIC DISHONESTY & PLAGIARISM

 Possessing a mobile phone, carrying bits of paper, talking to other students, copying from others during an assessment will be treated as punishable dishonesty.

 Zero mark to be awarded for the offenders. For copying from another student, both students get the same penalty of zero mark.

 The departmental disciplinary committee including the course faculty member, PAC chairperson and the HoD, as members shall verify the facts of the malpractice and award the punishment if the student is found guilty. The report shall be submitted to the Academic office.

 The above policy against academic dishonesty shall be applicable for all the programmes.

ADDITIONAL INFORMATION, IF ANY

FOR APPROVAL

Course Faculty _ ___ CC- Chairperson ________________ HOD ____________

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Guidelines

a) The number of assessments for any theory course shall range from 4 to 6.

b) Every theory course shall have a final assessment on the entire syllabus with at least 30%

weightage.

c) One compensation assessment for absentees in assessments (other than final assessment) is mandatory. Only genuine cases of absence shall be considered.

d) The passing minimum shall be as per the regulations.

B.Tech. Admitted in P.G.

2018 2017 2016 2015

35% or (Class average/2) whichever is greater.

(Peak/3) or (Class Average/2) whichever is lower

40%

e) Attendance policy and the policy on academic dishonesty & plagiarism by students are uniform for all the courses.

f) Absolute grading policy shall be incorporated if the number of students per course is less than 10.

g) Necessary care shall be taken to ensure that the course plan is reasonable and is objective.