1. Course number and name

010113246-65 การขับเคลื่อนด้วยไฟฟ้าและการกักเก็บพลังงาน (Electric Drives and Energy Storage)

2. Credits and contact hours

3(3-0-6)

3. Instructor’s or course coordinator’s name

Asst.Prof.Khatathap Swatdipisal

4. Text book, title, author, and year

1. “ Electric Motor Control: DC, AC, and BLDC Motors 1st ”, Elsevier Science, Sang-Hoon Kim, 2017.
2. “ Industrial Motion Control: Motor selection, Drives, Controller Tuning, Applications ”, John Wiley & Sons, Ltd, Hakan Gürocak, 2016.
3. “ Energy Storage for Power Systems 3rd “, The Institution of Engineering and Technology, Andrei G. Ter-Gazarian, 2020.

5. Specific course information

1. brief description of the content of the course (catalog description)
   a. Electric drive components, load characteristics, 4-quadrant operating region of drives, Electric power conversion and utilization of electric drives, Starting and braking methods of electric motor, Sizing, Torque-speed characteristics of electric motors, DC motor drives, Servo Drives, AC motor Drives, Protection and safety of electrical design and installation for electric drives, Energy storage for power system, Energy storage and smart grid, Mobile energy storage systems, Electrical energy storage in transportation systems, Introduction to electric drives in electric vehicle (EV).
2. prerequisites or co-requisites
   010113230-65 Electrical Machines
   010113232-65 Power Electronics
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 develop firmly understanding of electric drive components, load characteristics, and 4-quadrant drives.
   2. CLO2 The student will be able to understand electric power conversion and utilization of electric drives.
   3. CLO3 The student will be able to understand DC, AC drive systems, the basics of PWM, and space vector theory.
   4. CLO4 The student will be able to understand the mathematical models of DC and AC motors clearly.
   5. CLO5 The student will be able to simulate electric drive systems by Matlab/Simulink.
   6. CLO6 The student will be able to understand the concepts of electric vehicles (EV).
   7. CLO7 The student will be able to understand clearly and design the protection and safety of electrical design and installation for electric drives.
   8. CLO8 The student will be able to develop a firm understanding of Energy storage for power systems and smart grids.
   9. CLO9 The student will be able to understand the concepts of mobile energy storage systems and electrical energy storage in transportation systems.
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.

   CLO1 The student will be able to develop firmly understanding of electric drive components, load characteristics, and 4-quadrant drives. CLO2 The student will be able to understand electric power conversion and utilization of electric drives. CLO3 The student will be able to understand DC, AC drive systems, the basics of PWM, and space vector theory. CLO4 The student will be able to understand the mathematical models of DC and AC motors clearly. CLO5 The student will be able to simulate electric drive systems by Matlab/Simulink. CLO6 The student will be able to understand the concepts of electric vehicles (EV). CLO7 The student will be able to understand clearly and design the protection and safety of electrical design and installation for electric drives. CLO8 The student will be able to develop a firm understanding of Energy storage for power systems and smart grids. CLO9 The student will be able to understand the concepts of mobile energy storage systems and electrical energy storage in transportation systems.

7. Brief list of topics to be covered

8. Course Assessment