Course Objectives: |
To equip students with the practical skills and knowledge necessary to effectively utilize electromagnetic simulation software for the analysis, design, and optimization of electromagnetic systems and devices. |
Course Content: |
Basic Concepts in Electromagnetic Modeling, Use of Electromagnetic simulation sotware, Meshing Techniques, Boundary Conditions and Excitation Setup, Simulation Solvers and Algorithms. Post-Processing and Analysis of Simulation Results, Antenna Simulation and Design, RF and Microwave Circuit Simulation,
Transmission Line and Waveguide Simulation, Electromagnetic Compatibility (EMC) Analysis, Advanced Topics and Case Studies in Electromagnetic Simulation |
Week |
Subject |
Related Preparation |
1) |
Introduction to Electromagnetic Simulation Software |
None. |
2) |
Basic Concepts in Electromagnetic Modeling |
Read the relevant section of the textbook.
|
3) |
Setting up Simulation Projects |
Read the relevant section of the textbook.
|
4) |
Meshing Techniques for Electromagnetic Simulation |
Read the relevant section of the textbook.
|
5) |
Boundary Conditions and Excitation Setup |
Read the relevant section of the textbook.
|
6) |
Simulation Solvers and Algorithms |
Read the relevant section of the textbook.
|
7) |
Post-Processing and Analysis of Simulation Results |
Read the relevant section of the textbook.
|
8) |
Antenna Simulation and Design |
Read the relevant section of the textbook.
|
9) |
Midterm |
Review |
10) |
RF and Microwave Circuit Simulation |
Read the relevant section of the textbook.
|
11) |
Transmission Line and Waveguide Simulation |
Read the relevant section of the textbook.
|
12) |
Electromagnetic Compatibility (EMC) Analysis |
Read the relevant section of the textbook.
|
13) |
Advanced Topics and Case Studies in Electromagnetic Simulation |
Read the relevant section of the textbook.
|
14) |
Final. |
Review |
|
Program Outcomes |
Level of Contribution |
1) |
Knowledge and ability to apply the interdisciplinary synergetic approach of mechatronics to the solution of engineering problems |
|
2) |
Ability to design mechatronic products and systems using the mechatronics approach |
|
3) |
Knowledge and ability to analyze and develop existing products or processes with a mechatronics approach |
|
4) |
Ability to communicate effectively and teamwork with other disciplines |
|
5) |
Understanding of performing engineering in accordance with ethical principles |
|
6) |
Understanding of using technology with awareness of local and global socioeconomic impacts |
|
7) |
Approach to knowing and fulfilling the necessity of lifelong learning |
|