Course Name
|
Turkish |
Güç Elektroniği Devre Tasarımı
|
| English |
Dsgn of Power Electr Circuits |
Course Code
|
ELK 334E |
Credit |
Lecture
(hour/week) |
Recitation
(hour/week) |
Laboratory
(hour/week) |
| Semester |
7
|
3 |
3 |
- |
- |
| Course Language |
English |
| Course Coordinator |
Salih Barış Öztürk
|
| Course Objectives |
1) To give detailed knowledge of power electronic components
2) To give an understanding and an approach capability of design issues of power electronic circuits
3) To provide the ability to choose the proper circuit components for specific circuits and operation conditions
4) To provide the ability to accomplish hands-on projects
|
| Course Description |
Drive circuits for thyristors (SCRs), gate-turn-off thyristors (GTOs), bipolar transistors (BJTs), MOSFET, and insulated gate bipolar transistors (IGBTs). Switching losses, hard and soft switching. Thermal control and cooling design. Electronic components used in power electronic circuits and selection methods. Snubber circuits. Protection and control circuits. Power electronic circuits design examples: DC chopper, AC chopper, controlled rectifier and inverter.
Details of the Course Description:
Undergraduate-level courses on power electronics teach different power converter circuits and methods to analyze them. But all jobs related to power electronics need good knowledge of designing hardware. Proper hardware design in power electronics involves knowledge of several topics that are beyond the scope of a core course in power electronics. This course intends to fill this gap. In this course, students will learn the important concepts needed to design proper power electronic hardware, simulation tools, proper designing of power PCB, designing magnetics, reducing electromagnetic interference, etc. By the end of the course, students should be able to design and test any power electronic converter on their own.
Computer simulations will be used as a part of the coursework.
|
| Course Outcomes |
Students who pass this lecture will be able to:
1)Have a comprehensive knowledge of power electronic components
2)Design power electronic circuits
3)To choose the proper electronic components
4)Implement the designed power electronic circuits for the designed circuit
5)Work with a team
6)Test power electronic circuits and determine the design issues
7)Know how to simulate the power electronic systems using a computer simulation platform (such as MATLAB®/Simulink®, PSpice, OrCAD Capture, Proteus, LTSpice, QSpice, PSIM (powersimtech.com), PLECS, Simba, Simplorer, SIMetrix/SIMPLIS, etc). |
| Pre-requisite(s) |
Here are the pre-requisite(s) for this course: ELK331/331E (Power Electronic Circuits)
Therefore, success in this course depends on a good knowledge of the following fundamental electrical engineering topics:
1.Steady-state and transient analysis of linear electric circuits containing resistors, inductors, and capacitors.
2.The behavior of RLC circuits involving switches.
3.Solution of differential equations with initial conditions.
4.Mathematical modeling, feedback control and stability analysis in time and frequency domains.
5.Algebra with complex numbers, the transformation from rectangular to polar coordinate and vice-versa.
6.Good knowledge of MATLAB®/Simulink® including SimscapeTM, Simscape ElectricalTM, Simscape Electrical > Specialized Power Systems (formerly known as SimPowerSystemsTM), PSpice, OrCAD Capture, Proteus, LTSpice, QSpice, PSIM (powersimtech.com), PLECS, Simba, Simplorer, SIMetrix/SIMPLIS, etc. may be required for assignments to model and simulate power electronic circuits and systems.
Note1: The above subjects will not be directly covered/explained in the class - this course assumes you have sufficient knowledge of these topics. If you feel that your background on the above material is insufficient, you are advised to take a look at your circuit's and control systems notes and/or books as well as MATLAB®/Simulink® help documents and related resources on the web.
Note2: SimscapeTM ElectricalTM (formerly SimPowerSystemsTM and SimElectronics®) provides component libraries for modeling and simulating power electronic systems. It includes models of semiconductors and components for power electronics circuits.
https://www.mathworks.com/help/physmod/sps/getting-started-with-simscape-electrical.html |
| Required Facilities |
Use of power electronic circuit design and analysis simulations such as MATLAB®/Simulink®, PSpice, OrCAD Capture, Proteus, Altium, Ki CAD, LTSpice, QSpice, PSIM (powersimtech.com), PLECS, Simba, Simplorer, SIMetrix/SIMPLIS, etc. may be required for assignments. |
| Other |
For detailed and up-to-date information please visit the ninova site: https://ninova.itu.edu.tr/Sinif/31133.93044 as well as the course website at http://web.itu.edu.tr/ozturksb (not active yet !) and MATLAB® help documents, and MATLAB® File Exchange at https://www.mathworks.com/matlabcentral/fileexchange/ |
| Textbook |
• M. Brown, Power Supply Cookbook, 2nd Ed., Newnes, 2001, ISBN-13: 978-0750673297
• P. Schertz, S. Monk, Practical Electronics for Inventors, 4th ed., McGraw-Hill, 2016, ISBN-13: ?978-1259587542
• T. Williams, The Circuit Designer's Companion, 2nd ed., Newnes, 2005, ISBN-13: 978-0750663700 |
| Other References |
•S. Maniktala, Switching Power Supplies A - Z, 2nd ed., Newnes, 2005, ISBN-13: 978-0123865335
•R. A. Mack, Demystifying Switching Power Supplies, Newnes, 2005, ISBN-13: 978-0750674454
•A. Pressman, K. Billings, and T. Morey, Switching Power Supply Design, 3rd ed., McGraw Hill, 2009, ISBN-13: ?978-0071482721
•Z. Sha, X. Wang, Y. Wang, and H. Ma, Optimal Design of Switching Power Supply, Wiley, 2015, ISBN-13: ?978-1118790908
•K.C. Wu, Switch-Mode Power Converters: Design and Analysis, Academic Press, 2005, ISBN-13: ?978-0120887958
•H. W. Whittington, B. W. Flynn, D. E. Macpherson, Switched Mode Power Supplies, 2nd Ed., John Wiley & Sons Inc., 1997, ISBN-13: 978-0863802034
•C. Basso, Designing Control Loops for Linear and Switching Power Supplies: A Tutorial Guide, Artech House, 2000, ISBN-13: ?978-1630812379
•J. C. Bennett, Practical Computer Analysis of Switch Mode Power Supplies, Taylor & Francis, 2018, ISBN-13: ?978-1138582286
•J. G. Kassakian, D. J. Perreault, G. C. Verghese, and M. F. Schlecht, Principles of Power Electronics, 2nd ed. Cambridge: Cambridge University Press, Oct., 5th 2023, ISBN-13: 978-1316519516
•J. G. Kassakian, M. F. Schlecht, and G. C. Verghese, Principles of Power Electronics, 1st ed. Addison-Wesley Publishing Co., Inc., 1991, ISBN:0-201-09689-7
•R. W. Erickson and D. Maksimovic, Fundamentals of Power Electronics, Springer, 3rd Ed., 2020, ISBN-13: 978-3030438791
•L. Corradini, D. Maksimovic, P. Mattavelli, and R. Zane, Digital Control of High-Frequency Switched-Mode Power Converters, John Wiley& Sons, Inc., Hoboken, New Jersey, 2015, ISBN-13: 978-1-118-93510-1
•Philip T. Krein, Elements of Power Electronics, 2nd ed. Oxford University Press, 2014, ISBN-13: 978-0199388417
•M. H. Rashid, Power Electronics: Circuits, Devices, and Applications, 4th ed., Pearson, 2013, ISBN-13: 978-0133125900
•N. Mohan, T. M. Undeland, and W. P. Robbins, Power Electronics: Converters, Applications, and Design, Int. Ed., 3rd ed., John Wiley & Sons, Inc., 2003, ISBN-13: 978-0471429081
•Cyril W. Lander, Power Electronics, 3rd ed., McGraw Hill, 1993, ISBN-13: 9780077077143
•Daniel W. Hart, Power Electronics, Int. Ed., 1st ed., New York, NY: McGraw-Hill, 2013, ISBN-13: 978-0071321204
•Ned Mohan, Power Electronics: A First Course, 1st ed., Hoboken, NJ: John Wiley & Sons, Inc., 2011, ISBN-13: 978-1118074800
•Muhammad H. Rashid, Power Electronics Handbook, 4th ed., Butterworth-Heinemann, 2017, ISBN-13: 978-0128114070
•Bogdan M. Wilamowski, J. David Irwin, Power Electronics and Motor Drives, 1st Ed., CRC Press, 2017, ISBN-13: 978-1-138-07747-8
•Issa Batarseh, Ahmad Harb, Power Electronics: Circuit Analysis and Design, 2nd ed., Springer, 2018, ISBN-13: 978-3319683652
PCB Related Supplementary Books:
•E. Bogatin, Bogatin's Practical Guide to Prototype Breadboard and PCB Design, Artech House, 2022, ISBN-13: ? 978-1630819620
•K. Mitzner, B. Doe, A. Auklin, A. Suponin, and D. Müller, Complete PCB Design Using OrCAD Capture and Layout, 2nd ed., Academic Press, 2019, ISBN-13: ?978-0128176849
•P. Wilson, The Circuit Designer's Companion, 4th ed., Newnes, 2017, ISBN-13: ?978-0081017647
•C. Pfeil, BGA Breakouts and Routing: Effective Design Methods for Very Large BGAs, 2nd ed., CreateSpace Independent Publishing Platform, 2010, ISBN-13: ?978-1452867588
•K. T. Ng, The Art of PCB Reverse Engineering: Unravelling the Beauty of the Original Design, 2nd ed., CreateSpace Independent Publishing Platform, 2015, ISBN-13: 978-1518800535
•P. Dalmaris, KiCad Like a Pro A: Comprehensive Hands-on Guide for Learning the World's Favourite Open Source Printed Circuit Board Design Tool, 3rd ed., Tech Explorations Publishing, 2022
•L. W. Ritchey, Right the First Time: A Practical Handbook on High Speed PCB and System Design, Speeding Edge, 2008, ISBN-0-9741936-0-7
•P. Dalmaris, KiCad 6 Like A Pro - Fundamentals and Projects, Elektor, 2022, ISBN-13: ?978-3895764967
•S. Mark and D. Amos, Make Your Own PCBs with EAGLE: From Schematic Designs to Finished Boards, McGraw Hill - TAB, 2017, ISBN-13: ?978-1260019193
•S. Bibilisco, Beginner's Guide to Reading Schematics, 3rd ed., McGraw-Hill Education TAB, 2018, 978-1260031102
•D. Brooks and J. Adam, PCB Design Guide to Via and Trace Currents and Temperatures, Artech House, 2021, ISBN-13: 978-1630818609
•M. I. Montrose, EMC & The Printed Circuit Board: Design, Theory, & Layout Made Simple, Wiley - IEEE Press, 1998, ISBN-13: ?978-0780347038
•M. I. Montrose, Printed Circuit Board Design Techniques for EMC Compliance: A Handbook for Designers, 2nd ed., Wiley-IEEE Press, 2000, ISBN-13: 978-0780353763 |
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