Course Syllabus EGCI 230 Electric Circuit Analysis 1. Course Name Bachelor of Engineering Program in Computer Engineering (International Program) 2. Course Code/Title EGCI 230 Electric Circuit Analysis 3. Number of Credits 4 (4-0-8) Credit (Lecture-Lab-Research) 4. Prerequisites None 5. Type of Course Major Course (Required Major) 6. Session / Academic year This course will be offered upon request, starting from Academic year 2008. 7. Course Conditions Class size will be in the range of 5-40 students. 8. Course Description Circuit elements; Kirchhoff’s law; node and mesh analysis; Thevenin’s theorem and Norton’s theorem; circuit theorem, operational amplifier, energy storage elements; the complete response of first–order and second order circuits; AC steady-state response and phasor concept; complex power, real power, and reactive power; frequency response. 9. Course Objectives After successful completion of this course, students will be able to 9.1 Provide the basic knowledge and understanding of the concepts in theory of electrical engineering 9.2 Apply the knowledge for advanced electrical engineering courses 10. Course Outline Week 1 2 3 4 5 6 7 8 9 10 11 Hour Instructor Lecture Lab Circuit Elements and Ohm’s Law 4 See 16 Kirchhoff’s Law: KCL and KVL and Resistive Circuits 4 Nodal and Mesh circuit analysis. 4 Thevenin’s theorem and Norton’s theorem 4 Linear & nonlinear circuit, superposition 4 Operational Amplifiers 4 Midterm Exam Energy Storage Elements 4 The complete response of First-Order RL-RC Circuits 4 The complete response of Second-Order RLC Circuits 4 AC Steady State Response and Complex power. 4 Frequency Response. 4 Final Examination Total 44 Topics 11. Teaching Method Lecture, group discussion, and oral presentation. 12. Teaching Media Lecture handouts, transparency notes, multimedia, CAI, etc. 13. Measurement and Evaluation of Student Achievement Student’s achievement will be evaluated according to the faculty and university standard, using the symbols: A, B, B+, C, C+, C, D+, D and F. Weight: 1. Midterm, final exam 2. Assignments Total 70 % 30 % 100 % 14. Course Evaluation 14.1 Evaluate as indicated in number 13 above. 14.2 Evaluate student’s satisfaction towards teaching and learning of the course using a questionnaire. 15. References - Electrical Engineering for all Engineers, William H. Roadstrum and Dan H. Wolaver, 2 nd Edition, Publisher: John Wiley - Introduction to Electric Circuit Analysis, Richard Dorf and John Svoboda, 7 th Edition, Publisher: John Wiley 16. Instructor Asst. Prof. Dr. Konglit Hunchangsith Department of Computer Engineering, Faculty of Engineering, Mahidol University Phone : 02-889-2138 ext 6251, 6252 Email : [email protected] 17. Course Coordinator Asst. Prof. Dr. Konglit Hunchangsith Department of Computer Engineering, Faculty of Engineering, Mahidol University Phone : 02-889-2138 ext 6251, 6252 Email : [email protected]
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