| ELECTRICAL-ELECTRONICS ENGINEERING (MASTER) (WITH THESIS) (ENGLISH) | |||||
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| Qualification Awarded | Program Süresi | Toplam Kredi (AKTS) | Öğretim Şekli | Yeterliliğin Düzeyi ve Öğrenme Alanı | |
| 2 | 120 | FULL TIME |
TYÇ, TR-NQF-HE, EQF-LLL, ISCED (2011):Level 7 QF-EHEA:Second Cycle TR-NQF-HE, ISCED (1997-2013): 52 |
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| Course Code: | 3026002007 | ||||||||||
| Ders İsmi: | Power Electronics | ||||||||||
| Ders Yarıyılı: | Spring | ||||||||||
| Ders Kredileri: |
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| Language of instruction: | EN | ||||||||||
| Ders Koşulu: | |||||||||||
| Ders İş Deneyimini Gerektiriyor mu?: | No | ||||||||||
| Other Recommended Topics for the Course: | |||||||||||
| Type of course: | Department Elective | ||||||||||
| Course Level: |
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| Mode of Delivery: | Face to face | ||||||||||
| Course Coordinator : | Prof. Dr. Çağatay ULUIŞIK | ||||||||||
| Course Lecturer(s): | |||||||||||
| Course Assistants: |
| Course Objectives: | To Gain Design Ability of Power Electronics Circuits |
| Course Content: | Basic Principles and Methods of Power Electronics Circuit Design / Design Examples; Boost Type Switching Power Supply, DC Motor Control with a Controlled Rectifier and PWM Controlled Inverter / Determination and Classification of the Desired Properties of the Circuits / Design of Power, Control and Protection Circuits / Detailed Analysis and Simulation of Circuit and Components / Selection of Components and Assembling the Circuit / Obtaining Experimental Results and Commenting of the Results |
The students who have succeeded in this course;
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| Week | Subject | Related Preparation |
| 1) | Control Techniques in Power Electronics | Power Electronics: Converters, Applications, and Design, 3rd Edition Ned Mohan, Tore M. Undeland, William P. Robbins, WILEY, 2002. Power Electronics: Devices, Circuits, and Applications, International Edition, 4th edition, Pearson, 2015. Power Electronics: A First Course, 1st Edition Ned Mohan, WILEY, 2012. Power Electronics and Energy Conversion Systems, Volume 1, Fundamentals and Hard-switching Converter, Adrian Ioinovici, WILEY, 2013. |
| 2) | Definition and Classification of the control | Power Electronics: Converters, Applications, and Design, 3rd Edition Ned Mohan, Tore M. Undeland, William P. Robbins, WILEY, 2002. Power Electronics: Devices, Circuits, and Applications, International Edition, 4th edition, Pearson, 2015. Power Electronics: A First Course, 1st Edition Ned Mohan, WILEY, 2012. Power Electronics and Energy Conversion Systems, Volume 1, Fundamentals and Hard-switching Converter, Adrian Ioinovici, WILEY, 2013. |
| 3) | Comparison of the Power Devices | Power Electronics: Converters, Applications, and Design, 3rd Edition Ned Mohan, Tore M. Undeland, William P. Robbins, WILEY, 2002. Power Electronics: Devices, Circuits, and Applications, International Edition, 4th edition, Pearson, 2015. Power Electronics: A First Course, 1st Edition Ned Mohan, WILEY, 2012. Power Electronics and Energy Conversion Systems, Volume 1, Fundamentals and Hard-switching Converter, Adrian Ioinovici, WILEY, 2013. |
| 4) | Power Circuits and Applications | Power Electronics: Converters, Applications, and Design, 3rd Edition Ned Mohan, Tore M. Undeland, William P. Robbins, WILEY, 2002. Power Electronics: Devices, Circuits, and Applications, International Edition, 4th edition, Pearson, 2015. Power Electronics: A First Course, 1st Edition Ned Mohan, WILEY, 2012. Power Electronics and Energy Conversion Systems, Volume 1, Fundamentals and Hard-switching Converter, Adrian Ioinovici, WILEY, 2013. |
| 5) | Devices used in control and Circuits | Power Electronics: Converters, Applications, and Design, 3rd Edition Ned Mohan, Tore M. Undeland, William P. Robbins, WILEY, 2002. Power Electronics: Devices, Circuits, and Applications, International Edition, 4th edition, Pearson, 2015. Power Electronics: A First Course, 1st Edition Ned Mohan, WILEY, 2012. Power Electronics and Energy Conversion Systems, Volume 1, Fundamentals and Hard-switching Converter, Adrian Ioinovici, WILEY, 2013. |
| 6) | Driving Techniques in Power device | Power Electronics: Converters, Applications, and Design, 3rd Edition Ned Mohan, Tore M. Undeland, William P. Robbins, WILEY, 2002. Power Electronics: Devices, Circuits, and Applications, International Edition, 4th edition, Pearson, 2015. Power Electronics: A First Course, 1st Edition Ned Mohan, WILEY, 2012. Power Electronics and Energy Conversion Systems, Volume 1, Fundamentals and Hard-switching Converter, Adrian Ioinovici, WILEY, 2013. |
| 7) | Control Techniques in Power Circuits | Power Electronics: Converters, Applications, and Design, 3rd Edition Ned Mohan, Tore M. Undeland, William P. Robbins, WILEY, 2002. Power Electronics: Devices, Circuits, and Applications, International Edition, 4th edition, Pearson, 2015. Power Electronics: A First Course, 1st Edition Ned Mohan, WILEY, 2012. Power Electronics and Energy Conversion Systems, Volume 1, Fundamentals and Hard-switching Converter, Adrian Ioinovici, WILEY, 2013. |
| 8) | Midterm exam | |
| 9) | Definition and Classification of Protection | Power Electronics: Converters, Applications, and Design, 3rd Edition Ned Mohan, Tore M. Undeland, William P. Robbins, WILEY, 2002. Power Electronics: Devices, Circuits, and Applications, International Edition, 4th edition, Pearson, 2015. Power Electronics: A First Course, 1st Edition Ned Mohan, WILEY, 2012. Power Electronics and Energy Conversion Systems, Volume 1, Fundamentals and Hard-switching Converter, Adrian Ioinovici, WILEY, 2013. |
| 10) | Protection Features in Power device | Power Electronics: Converters, Applications, and Design, 3rd Edition Ned Mohan, Tore M. Undeland, William P. Robbins, WILEY, 2002. Power Electronics: Devices, Circuits, and Applications, International Edition, 4th edition, Pearson, 2015. Power Electronics: A First Course, 1st Edition Ned Mohan, WILEY, 2012. Power Electronics and Energy Conversion Systems, Volume 1, Fundamentals and Hard-switching Converter, Adrian Ioinovici, WILEY, 2013. |
| 11) | Protection Features in Power device | Power Electronics: Converters, Applications, and Design, 3rd Edition Ned Mohan, Tore M. Undeland, William P. Robbins, WILEY, 2002. Power Electronics: Devices, Circuits, and Applications, International Edition, 4th edition, Pearson, 2015. Power Electronics: A First Course, 1st Edition Ned Mohan, WILEY, 2012. Power Electronics and Energy Conversion Systems, Volume 1, Fundamentals and Hard-switching Converter, Adrian Ioinovici, WILEY, 2013. |
| 12) | Protection Techniques in Power Circuits | Power Electronics: Converters, Applications, and Design, 3rd Edition Ned Mohan, Tore M. Undeland, William P. Robbins, WILEY, 2002. Power Electronics: Devices, Circuits, and Applications, International Edition, 4th edition, Pearson, 2015. Power Electronics: A First Course, 1st Edition Ned Mohan, WILEY, 2012. Power Electronics and Energy Conversion Systems, Volume 1, Fundamentals and Hard-switching Converter, Adrian Ioinovici, WILEY, 2013. |
| 13) | Protection Techniques in Power Circuits | Power Electronics: Converters, Applications, and Design, 3rd Edition Ned Mohan, Tore M. Undeland, William P. Robbins, WILEY, 2002. Power Electronics: Devices, Circuits, and Applications, International Edition, 4th edition, Pearson, 2015. Power Electronics: A First Course, 1st Edition Ned Mohan, WILEY, 2012. Power Electronics and Energy Conversion Systems, Volume 1, Fundamentals and Hard-switching Converter, Adrian Ioinovici, WILEY, 2013. |
| 13) | Protection Techniques in Power Circuits | Power Electronics: Converters, Applications, and Design, 3rd Edition Ned Mohan, Tore M. Undeland, William P. Robbins, WILEY, 2002. Power Electronics: Devices, Circuits, and Applications, International Edition, 4th edition, Pearson, 2015. Power Electronics: A First Course, 1st Edition Ned Mohan, WILEY, 2012. Power Electronics and Energy Conversion Systems, Volume 1, Fundamentals and Hard-switching Converter, Adrian Ioinovici, WILEY, 2013. |
| 14) | Protection Techniques in Power Circuits | Power Electronics: Converters, Applications, and Design, 3rd Edition Ned Mohan, Tore M. Undeland, William P. Robbins, WILEY, 2002. Power Electronics: Devices, Circuits, and Applications, International Edition, 4th edition, Pearson, 2015. Power Electronics: A First Course, 1st Edition Ned Mohan, WILEY, 2012. Power Electronics and Energy Conversion Systems, Volume 1, Fundamentals and Hard-switching Converter, Adrian Ioinovici, WILEY, 2013. |
| 15) | Final exam |
| Course Notes / Textbooks: | Power Electronics: Converters, Applications, and Design, 3rd Edition Ned Mohan, Tore M. Undeland, William P. Robbins, WILEY, 2002. Power Electronics: Devices, Circuits, and Applications, International Edition, 4th edition, Pearson, 2015. Power Electronics: A First Course, 1st Edition Ned Mohan, WILEY, 2012. Power Electronics and Energy Conversion Systems, Volume 1, Fundamentals and Hard-switching Converter, Adrian Ioinovici, WILEY, 2013. |
| References: | Power Electronics: Converters, Applications, and Design, 3rd Edition Ned Mohan, Tore M. Undeland, William P. Robbins, WILEY, 2002. Power Electronics: Devices, Circuits, and Applications, International Edition, 4th edition, Pearson, 2015. Power Electronics: A First Course, 1st Edition Ned Mohan, WILEY, 2012. Power Electronics and Energy Conversion Systems, Volume 1, Fundamentals and Hard-switching Converter, Adrian Ioinovici, WILEY, 2013. |
| Ders Öğrenme Kazanımları | 1 |
2 |
3 |
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| Program Outcomes | |||||||||||
| 1) Through scientific research in the field of Electrical-Electronics Engineering, they expand and deepen their knowledge, evaluate, interpret, and apply the information. | |||||||||||
| 2) They have comprehensive knowledge of the current techniques and methods applied in Electrical-Electronics Engineering, as well as their limitations. | |||||||||||
| 3) Using uncertain, limited, or incomplete data, they complement and apply knowledge through scientific methods; they can integrate information from different disciplines. | |||||||||||
| 4) They are aware of new and emerging applications in Electrical-Electronics Engineering, and when necessary, they investigate and learn about them. | |||||||||||
| 5) They define and formulate Electrical-Electronics Engineering problems, develop methods to solve them, and apply innovative approaches in the solutions. | |||||||||||
| 6) They develop new and/or original ideas and methods; design complex systems or processes and develop innovative/alternative solutions in their designs. | |||||||||||
| 7) They design and apply theoretical, experimental, and modeling-based research; they analyze and solve complex problems encountered during this process. | |||||||||||
| 8) They can work effectively in both interdisciplinary and multidisciplinary teams, lead such teams, and develop solution approaches in complex situations; they can work independently and take responsibility. | |||||||||||
| 9) They communicate effectively in both spoken and written forms using a foreign language at least at the B2 General Level of the European Language Portfolio. | |||||||||||
| 10) They communicate the processes and results of their work in a systematic and clear manner, either in writing or verbally, in national and international contexts, both within and outside their field. | |||||||||||
| 11) They are aware of the social, environmental, health, safety and legal aspects of Electrical and Electronics Engineering applications, project management and business life practices and are aware of the constraints these impose on engineering applications. | |||||||||||
| 12) They observe social, scientific and ethical values in the stages of collecting, interpreting and announcing the data and in all professional activities. | |||||||||||
| No Effect | 1 Lowest | 2 Low | 3 Average | 4 High | 5 Highest |
| Program Outcomes | Level of Contribution | |
| 1) | Through scientific research in the field of Electrical-Electronics Engineering, they expand and deepen their knowledge, evaluate, interpret, and apply the information. | |
| 2) | They have comprehensive knowledge of the current techniques and methods applied in Electrical-Electronics Engineering, as well as their limitations. | |
| 3) | Using uncertain, limited, or incomplete data, they complement and apply knowledge through scientific methods; they can integrate information from different disciplines. | |
| 4) | They are aware of new and emerging applications in Electrical-Electronics Engineering, and when necessary, they investigate and learn about them. | |
| 5) | They define and formulate Electrical-Electronics Engineering problems, develop methods to solve them, and apply innovative approaches in the solutions. | |
| 6) | They develop new and/or original ideas and methods; design complex systems or processes and develop innovative/alternative solutions in their designs. | |
| 7) | They design and apply theoretical, experimental, and modeling-based research; they analyze and solve complex problems encountered during this process. | |
| 8) | They can work effectively in both interdisciplinary and multidisciplinary teams, lead such teams, and develop solution approaches in complex situations; they can work independently and take responsibility. | |
| 9) | They communicate effectively in both spoken and written forms using a foreign language at least at the B2 General Level of the European Language Portfolio. | |
| 10) | They communicate the processes and results of their work in a systematic and clear manner, either in writing or verbally, in national and international contexts, both within and outside their field. | |
| 11) | They are aware of the social, environmental, health, safety and legal aspects of Electrical and Electronics Engineering applications, project management and business life practices and are aware of the constraints these impose on engineering applications. | |
| 12) | They observe social, scientific and ethical values in the stages of collecting, interpreting and announcing the data and in all professional activities. |
| Alan Çalışması | |
| Bireysel çalışma ve ödevi | |
| Proje Hazırlama |
| Yazılı Sınav (Açık uçlu sorular, çoktan seçmeli, doğru yanlış, eşleştirme, boşluk doldurma, sıralama) | |
| Homework | |
| Bireysel Proje |
| Semester Requirements | Number of Activities | Level of Contribution |
| Project | 1 | % 30 |
| Midterms | 1 | % 30 |
| Semester Final Exam | 1 | % 40 |
| total | % 100 | |
| PERCENTAGE OF SEMESTER WORK | % 60 | |
| PERCENTAGE OF FINAL WORK | % 40 | |
| total | % 100 | |
| Activities | Number of Activities | Duration (Hours) | Workload |
| Course Hours | 14 | 3 | 42 |
| Study Hours Out of Class | 14 | 8 | 112 |
| Project | 1 | 30 | 30 |
| Midterms | 1 | 2 | 2 |
| Final | 1 | 2 | 2 |
| Total Workload | 188 | ||