Course syllabus
010113234-65 วิศวกรรมควบคุม (Control Engineering)
Course Syllabus
Data entry : Assoc.Prof.Chaiyan Suwancheewasiri
1. Course number and name
010113234-65 วิศวกรรมควบคุม (Control Engineering)
2. Credits and contact hours
3(3-0-6)
3. Instructor’s or course coordinator’s name
Assoc.Prof.Chaiyan Suwancheewasiri
4. Text book, title, author, and year
- Chaiyan Suwancheewasiri, Control Engineering, King Mongkut's University of Technology North Bangkok, 2012.
- Nise, Norman S., Control systems engineering 7th Edition, Wiley, November 2014.
5. Specific course information
- brief description of the content of the course (catalog description)
Structure of control system, System modelling, System response, Notion of system stability, Stability criterion, Sensitivity, System type, Steady state error, System specifications, Root locus, Controller design by using Root locus, Frequency response, Bode diagram, Nyquist plot and stability criterion, Controller design by using Frequency response. - prerequisites or co-requisites
010113031-65 Mathematics in Signal and System - indicate whether a required, elective, or selected elective (as per Table 5-1) course in the program
Required :
6. Specific goals for the course
- specific outcomes of instruction (e.g. The student will be able to explain the significance of current research about a particular topic.)
- CLO1 Model dynamic systems using transfer functions and block diagrams.
- CLO2 Analyze system response and stability using time-domain and frequency-domain methods.
- CLO3 Design feedback control systems using classical control techniques to meet specified performance requirements.
- 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) SO2 an ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors. - CLO1 Model dynamic systems using transfer functions and block diagrams.
- CLO2 Analyze system response and stability using time-domain and frequency-domain methods.
- CLO3 Design feedback control systems using classical control techniques to meet specified performance requirements.
7. Brief list of topics to be covered
| Week | Topic | Details | Activities |
|---|---|---|---|
| 1 | Control System Structure - open-loop control system, closed-loop control system | ||
| 2 | System Modelling - Model electrical and mechanical systems | ||
| 3 | System Modelling - Model mechanical and thermal systems | ||
| 4 | System Modelling – Linearization and Signal flow graph | ||
| 5 | Time Response – First and Second order systems | ||
| 6 | Stability Criterion - Routh-Hurwitz Criterion | ||
| 7 | Steady state Characteristics –Steady state error | ||
| 8 | Sensitivity and Disturbance rejection | ||
| 9 | System Specification | ||
| 10 | Root Locus Techniques | ||
| 11 | Controller design - Design via Root Locus | ||
| 12 | Frequency Response - Bode plots | ||
| 13 | Frequency Response - Nyquist Diagram | ||
| 14 | Controller design - Design via Frequency Response | ||
| 15 | Controller design - Design via Frequency Response |
8. Course Assessment
| Course assessment | Weight score (%) | Assessment tools | Date |
|---|---|---|---|
| Formative | 50 | midterm examination | 27 Jan 2026 |
| Summative | 50 | final examination | 19 Mar 2026 |
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