一、課程說明(Course Desc <x> desc<x>ription)
<br>Introduction to the static and dynamic characteristics of various electric 
<br>machines. The theoretic backgrounds established from this course will be helpful
<br>for performing the research in the fields of motor drive, power system and 
<br>control engineering. 
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<br>二、指定用書(Text Books)
<br>P. C. Krause, O. Wasynczuk and S. D. Sudhoff, Analysis of Electric Machinery and 
<br>Drive Systems, 3rd Edition, IEEE Press, 2013.
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<br>三、參考書籍(References)
<br>1. G. K. Dubey, Fundamental of electrical drives, Pangbourne, UK, Alpha 
<br>   Science, 2001.
<br>2. J. J. Cathey, “Electric Machines: Analysis and Design Applying Matlab,” 
<br>   McGraw Hill, 2001.
<br>3. B. K. Bose, Modern Power Electronics and AC Drives, Prentice Hall PTR, New 
<br>   Jersey, 2002. 
<br>4. R. Krishnan, Electric Motor Drives: Modeling, Analysis and Control,   
<br>   Prentice Hall PTR, New Jersey, 2001.
<br>5. John Chiasson, Modeling and high-performance control of electric machines,
<br>   John Wiley & Sons, 2005.
<br>6. S. E. Lyshevski, Nano- and Micro- Electromechanical Systems. Fundamentals 
<br>   of Nano- and Microengineering, CRC Press, 2005. 
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<br>四、教學方式(Teaching Method): 面授.
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<br>五、教學進度(Syllabus)
<br>1. Fundamentals of electric machines
<br>(1) Magnetically coupled circuits.
<br>(2) Electromechanical energy conversion.
<br>(3) Machine windings and air-gap MMF.
<br>(4) Winding inductances and voltage equations.
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<br>2. DC machines: operating characteristics and dynamic modeling	
<br>(1)Voltage and torque equations.
<br>(2) Types of DC machines. 
<br>(3) Dynamic characteristics.
<br>(4) State equations, control system blocks.
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<br>3. Generalized reference-fr<x> fr<x>ame theory
<br>(1) Transformation equations.
<br>(2) Commonly used references reference fr<x> fr<x>ames.
<br>(3) Transformation of a balanced set. 
<br>(4) Balanced steady-state voltage equations.
<br>(5) Variables observed from various reference fr<x> fr<x>ames.
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<br>4. Symmetrical induction motors
<br>(1) Voltage and torque equations in machine variables. 
<br>(2) Voltage and torque equations in reference fr<x> fr<x>ames. 
<br>(3) Per-unit system.
<br>(4) Free-acceleration and dynamic load regulation.
<br>(5) Computer simulation
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<br>5. Synchronous machines: basics
<br>(1) Voltage and torque equations in machine variables.  
<br>(2) Voltage and torque equations in arbitrary reference fr<x> fr<x>ames. 
<br>(3) Voltage and torque equations in rotor reference fr<x> fr<x>ames.
<br>(4) Per-unit system.
<br>(5) Free-acceleration and dynamic load regulation.
<br>(6) Computer simulation.
<br>(7) Transient stability limit and critical clearing time of three-phase fault.
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<br>6. Synchronous machines: operational impedances
<br>(1) Park’s equations in operational form.
<br>(2) Operational impedances.
<br>(3) Standard machine reactances and time constants.
<br>(4) Derived machine reactances and time constants.
<br>(5) Parameters from frequency response characteristics.
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<br>7. Small signal modeling of induction and synchronous machines
<br>(1) Linearization of machine equation.
<br>(2) Eigenvalue analysis.
<br>(3) Transfer function models.
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<br>8. Reduced-order modeling for induction and synchronous machines
<br>(1) Reduced-order equations.
<br>(2) Large-excursion behavior predicted by Reduced-order equations.
<br>(3) Linearized reduced-order equations.
<br>(4) Eigenvalue analysis
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<br>9. Symmetrical and Unsymmetrical Two-Phase Induction Machines
<br>(1) Symmetrical two-phase induction machines.
<br>(2) Voltage and torque equations in machine variables for unsymmetrical two-
<br>phase induction machines.
<br>(3) Voltage and torque equations in stationary reference fr<x>ame for 
<br>unsymmetrical two-phase induction machines.
<br>(4) Single-phase induction machines.
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<br>10. DC Machine Drives
<br>(1) Solid-state converters.
<br>(2) AC-DC converter fed DC drives.
<br>(3) One-quadrant DC-DC converter fed drive. 
<br>(4) Two-quadrant DC-DC converter fed drive.
<br>(5) Four-quadrant DC-DC converter fed drive.
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<br>11. Induction Motor Drives
<br>(1) V/f scalar control.
<br>(2) Field-oriented control.
<br>(3) Direct rotor field-oriented control.
<br>(4) Indirect rotor field-oriented control.
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<br>12. Brushless DC Motor Drives
<br>(1) Definition of brushless DC Motor.
<br>(2) Square-wave brushless DC Motor.
<br>(3) Sine-wave brushless DC Motor.
<br>(4) Key issues for enhancing the driving performance of brushless DC Motor.
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<br>13.Switched reluctance motors
<br>(1) Machine structure. 
<br>(2) The commonly used converters.
<br>(3) Voltage and torque equations.
<br>(4) Control approaches. 
<br>(5) Key issues for enhancing the driving performance of switched reluctance 
<br>motor drive.
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<br> 六、成績考核(Evaluation)
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<br>     作業, 模擬, 期中考, 期末考, 報告.
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<br> 七、可連結之網頁位址
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<br>    系建個人網址.
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