5032: Power Electronics KL Diploma Syllabus for EEE 5th Sem 2015 Revision SITTTR

Power Electronics detailed syllabus for Electrical & Electronics Engineering (EEE) for 2015 revision curriculum has been taken from the SITTTRs official website and presented for the EEE students. For course code, course name, number of credits for a course and other scheme related information, do visit full semester subjects post given below.

For Electrical & Electronics Engineering 5th Sem scheme and its subjects, do visit EEE 5th Sem 2015 revision scheme. The detailed syllabus of power electronics is as follows.

Course Outcomes:

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Specific Outcome:

MODULE I Power electronics components and Commutation techniques

1. To explain the structure and characteristics of UJT and its application.
2. To describe the structure and operation of N-channel JFET with its characteristics.
3. To describe the structure and operation of P-channel JFET with its characteristics.
4. To distinguish between JFET and BJT.
5. To list the applications of BJT.
6. To explain the operation of MOSFET.
7. To differentiate JFET, MOSFET, and IGBT.
8. To describe the operation of DIAC.
9. To describe the operation of TRIAC.
10. To explain the structure of SCR.
11. To explain the characteristics of SCR.
12. To describe the terms – holding current, latching current, turn on time and turn off time
13. To explain the different methods of turning on of SCR- resistance triggering, voltage triggering, dv/dt triggering gate triggering.
14. To understand the commutation technique
15. To explain the natural commutation.
16. To explain the forced commutation.
17. To explain the gate turn off method.

MODULE II Convertors and inverters

1. To describe the principles of phase control.
2. To describe single phase half wave converter with R load.
3. To describe single phase half wave converter with RL load and freewheeling diode.
4. To describe single phase full wave converter with resistive load.
5. To describe single phase full wave converter with RL load and freewheeling diode.
6. To describe fully controlled bridge converter with resistive load.
7. To describe fully controlled bridge converter with RL load and freewheeling diode.
8. To explain the principle of DC chopper.
9. To explain the constant frequency and variable frequency method.
10. To describe the classification of inverters.
11. To describe series inverter.
12. To describe parallel inverter.
13. To describe inverter- half bridge inverter.
14. To describe inverter- full bridge inverter.
15. To explain three phase bridge inverter.

MODULE III Electric drives

1. To explain Single phase semi converter DC drives.
2. To explain Single phase full converter DC drives.
3. To explain Single phase dual converter DC drives.
4. To explain Speed control of single phase Induction motor.
5. To explain Speed controls of three phase Induction motor.
6. To explain Stator voltage control.
7. To explain Stator frequency control.
8. To explain v/f control.
9. To explain solid state control of a typical fan regulator.
10. To explain the concept of induction cooking system control.

MODULE IV Regulated power supply

1. To explain the operation of buck converter.
2. To explain the boost converter.
3. To differentiate between buck and boost converter.
4. To explain the principle of the servo stabilizer.
5. To draw the block diagram of static servo stabilizer.
6. To describe the principle of Pulse Width Modulation.
7. To study the SMPS.
8. To draw the block diagram of SMPS.
9. To distinguish between linear power supply and SMPS.
10. To explain the operation of UPS.
11. To list the classification of UPS.
12. To describe ONLINE UPS.
13. To describe OFFLINE UPS.
14. To describe line interactive UPS.
15. To describe the specification of UPS.
16. To explain the testing methods of UPS.

MODULE I

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MODULE II

Converter & Inverter circuits – Half and full wave control circuit – single phase-half wave converter with R,RL load and freewheeling diode, full wave and bridge converters with R , RL load and freewheeling diode -3 phase bridge converter with R, RL load and freewheeling diode -DC chopper circuits – Principles of operation – control of chopping periods – variable frequency control -constant frequency control -principle of operation with wave forms Inverters: – Requirements of Practical inverters – single phase series inverter -parallel inverters

MODULE III

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MODULE IV

Power Supplies – Principle of Servo stabilizer (Block Diagram approach)-Principle of Pulse Width Modulation – SMPS (Block Diagram approach)-Compare linear power supply and SMPS – classification of U.P.S-Online, Offline-specification-operation of buck & boost converter (block diagram).

Reference Books:

For the complete syllabus, results, class timetable, and many other features kindly download the iStudy App
It is a lightweight, easy to use, no images, and no pdfs platform to make students’s lives easier.
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For detailed syllabus of all other subjects of Electrical & Electronics Engineering, 2015 revision curriculum do visit EEE 5th Sem subject syllabuses for 2015 revision.

To see the syllabus of all other branches of diploma 2015 revision curriculum do visit all branches of SITTTR diploma 2015 revision.