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Course Title: |
ELECTRICAL MACHINES |
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Course Code: |
EEM4105 |
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Type of Course: |
Optional |
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Level of Course: |
First Cycle |
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Year of Study: |
4 |
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Semester: |
7 |
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ECTS Credits Allocated: |
4 |
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Theoretical (hour/week): |
2 |
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Practice (hour/week) : |
0 |
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Laboratory (hour/week) : |
2 |
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Prerequisites: |
None |
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Recommended optional programme components: |
None |
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Language: |
Turkish |
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Mode of Delivery: |
Face to face |
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Course Coordinator: |
Öğr.Gör.Dr. SEVİM KURTULDU |
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Course Lecturers: |
- |
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Contactinformation of the Course Coordinator: |
E-posta:kurtuldu@uludag.edu.tr
Tel: (224) 294 2021
Adres: Elektronik Mühendisliği Bölümü 1. Kat, No:109
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Website: |
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Objective of the Course: |
Aims of this course are acknowledgement of basic principles of magnetic fields and characteristics of magnetic materials; comprehension of structures, characteristics and applications of transformers, direct current machines, induction motors, synchronous machines and special electrical machines. |
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Contribution of the Course to Professional Development |
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| Week |
Theoretical |
Practical |
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Magnetic properties of matter: Bohr's atomic model. Magnetic dipole moment. Vector. Magnetic hysteresis. Magnetic energy and Coenergy. |
Application examples in MATLAB. |
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Magnetic Circuit Model: magnetic circuit axioms. Magnetomotive force, magnetic resistance, analysis. |
Application examples in MATLAB. |
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Single and three phase transformers: construction, equivalent circuit and steady state analysis. |
Application examples in MATLAB. |
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Electromechanical conversion principles: Linear and Non-Linear systems. Actuators. |
Application examples in MATLAB. |
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Direct current machines: structure, working principle and the equivalent circuit. |
Application examples in MATLAB. |
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Direct current machines: the excitation types - Independent, Series, Shunt, and Kompund Machines. |
Application examples in MATLAB. |
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Direct current machines: Characteristics and performance analysis. |
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Direct current machines: speed control |
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Midterm Exam + Review of Past Lecturers |
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The concept of induction. Rotating the magnetic field. Alternating current machines. Synchronous machines: structure, working principle and the equivalent circuit model. |
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Synchronous machines: steady-state analysis. |
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Induction machines: structure, working principle and the equivalent circuit model. |
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Induction machines: steady-state analysis, and speed control. |
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Textbooks, References and/or Other Materials: |
1. “Electric Machinery”, A. E. Fitzgerald, Jr., Charles Kingsley, Stephen D. Umans, Electric, 5th ed. New York, NY: McGraw-Hill, 1992. ISBN: 0070707708-3.
2. “Elektrik Makinaları I-II: Teori-Çözümlü Problemler”, N. Güzelbeyoğlu, , Birsen Yayınevi, 2005.
3. “Elektrik makinaları Ders Notları”, Yük. Müh. Sami Ongun.
4. "Dynamic Simulations of Electric Machinery : Using MATLAB/SIMULINK", Chee Mun-Ong,2006. |
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Assesment |
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