High-Speed Circuits and Systems Graduate Academic Certificate
Students who obtain this certificate will learn the principles of signal/power integrity (SPI) and electromagnetic compatibility (EMC) engineering, and apply them to the analysis, design, and optimization of high-speed circuits and systems.
All required coursework must be completed with a grade of B or better (O-10-b).
| Code | Title | Hours |
|---|---|---|
| ECE 530 | Advanced Electromagnetic Theory I | 3 |
| ECE 533 | Antenna Theory | 3 |
| Select two from the following: | 6 | |
| Advanced Topics in Electromagnetics | ||
| Analog Integrated Circuit Design | ||
| Mixed Signal IC Design | ||
| Introduction to Electronic Packaging | ||
| Transients in Power Systems | ||
| Understanding Power Quality | ||
| Utility Applications of Power Electronics | ||
| Advanced Frequency-Domain Control | ||
| Total Hours | 12 | |
Courses total 12 credits for this certificate
1. The capability to recognize, articulate, and resolve problems related to high-speed circuits and systems by leveraging principles from engineering, science, and mathematics.
2. Proficiency in communicating about HSCS concepts and technologies to diverse audiences effectively.
3. Expertise in designing and executing relevant high-speed circuits and systems experiments, analyzing the data, and employing engineering discernment to derive conclusions concerning high-speed circuits and systems.
These learning outcomes underscore that students completing the high-speed circuits and systems certificate have gained the requisite knowledge, competencies, and aptitudes essential for success in various sectors of the high-speed circuits and systems industry. Such students are aptly prepared to advance in further educational pursuits or to embark on careers in the high-speed circuits and systems domain.