1. Course number and name

010113221-65 การแปรสภาพพลังงานกลไฟฟ้า (Electromechanical Energy Conversion)

2. Credits and contact hours

3(3-0-6)

3. Instructor’s or course coordinator’s name

Asst.Prof. Dr.Jirawut Benjanarasut
Assoc.Prof. Dr.Bunlung Neammanee

4. Text book, title, author, and year

1. Sen, P. C. (Paresh Chandra), Principles of electric machines and power electronics / Dr. P.C. Sen, Fellow IEEE. — Third edition.

5. Specific course information

1. brief description of the content of the course (catalog description)
   Magnetic circuit, behaviors of magnetic system, magnetic field energy, Magnetic materials and magnetization curve, sinusoidal excitation, core losses and permanent magnet materials. Ideal transformer, Equivalent circuit of two winding transformer, efficiency of transformer, single phase and three phase transformer, Basic principles of electromechanical energy conversion, energy and coenergy, basic principles of rotating machines, DC machine, equivalent circuit of DC machine, efficiency of DC machine, starting and speed control of DC machine.
2. prerequisites or co-requisites
   010113010-65 Electric Circuit Theory
3. indicate whether a required, elective, or selected elective (as per Table 5-1) course in the program
   Required :

6. Specific goals for the course

1. specific outcomes of instruction (e.g. The student will be able to explain the significance of current research about a particular topic.)
   1. CLO1 The student will be able to analyze magnetic circuit.
   2. CLO2 The student will be able to understand the magnetic material, relationship between flux density and magnetic intensity, hysteresis, eddy current, core loss, and behavior of sinusoidal exciting current.
   3. CLO3 The student will be able to understand the magnetization of permanent magnet and permanent magnet material.
   4. CLO4 The student will be able to understand the construction of transformer, transformer characteristics, equivalent circuit of practical transformer, phasor diagram of transformer and determination of equivalent circuit parameter.
   5. CLO5 The student will be able to calculate voltage regulation, loss and efficiency of transformer.
   6. CLO6 The student will be able to understand the basic principles of electromechanical energy conversion, field energy, coenergy and linear system.
   7. CLO7 The student will be able to calculate the mechanical force in the electromagnetic system.
   8. CLO8 The student will be able to understand the torque generation in rotating machine.
   9. CLO9 The student will be able to understand the construction of DC machine, armature voltage, electromagnetic torque, magnetization curve and armature reaction.
   10. CLO10 The student will be able to identify classification of DC machine.
   11. CLO11 The student will be able to understand the torque-speed characteristic of DC machine, starting and speed control of DC machine.
   12. CLO12 The student will be able to analyze transients dynamic and steady-stage characteristic of DC machine.
2. explicitly indicate which of the student outcomes listed in Criterion 3 or any other outcomes are addressed by the course.

   ABET Student Outcome (SO) Listed in Criterion 3	Course learning outcome (CLO)
   SO1 an ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics.	CLO2 The student will be able to understand the magnetic material, relationship between flux density and magnetic intensity, hysteresis, eddy current, core loss, and behavior of sinusoidal exciting current. CLO12 The student will be able to analyze transients dynamic and steady-stage characteristic of DC machine. CLO11 The student will be able to understand the torque-speed characteristic of DC machine, starting and speed control of DC machine. CLO10 The student will be able to identify classification of DC machine. CLO9 The student will be able to understand the construction of DC machine, armature voltage, electromagnetic torque, magnetization curve and armature reaction. CLO8 The student will be able to understand the torque generation in rotating machine. CLO7 The student will be able to calculate the mechanical force in the electromagnetic system. CLO6 The student will be able to understand the basic principles of electromechanical energy conversion, field energy, coenergy and linear system. CLO5 The student will be able to calculate voltage regulation, loss and efficiency of transformer. CLO3 The student will be able to understand the magnetization of permanent magnet and permanent magnet material. CLO1 The student will be able to analyze magnetic circuit.
   SO7 an ability to acquire and apply new knowledge as needed, using appropriate learning strategies.	CLO1 The student will be able to analyze magnetic circuit. CLO2 The student will be able to understand the magnetic material, relationship between flux density and magnetic intensity, hysteresis, eddy current, core loss, and behavior of sinusoidal exciting current. CLO6 The student will be able to understand the basic principles of electromechanical energy conversion, field energy, coenergy and linear system. CLO7 The student will be able to calculate the mechanical force in the electromagnetic system. CLO8 The student will be able to understand the torque generation in rotating machine. CLO10 The student will be able to identify classification of DC machine. CLO11 The student will be able to understand the torque-speed characteristic of DC machine, starting and speed control of DC machine. CLO12 The student will be able to analyze transients dynamic and steady-stage characteristic of DC machine.

7. Brief list of topics to be covered

8. Course Assessment