Microelectronics Fabrication Undergraduate Academic Certificate
All required coursework must be completed with a grade of C or better (O-10-a).
| Code | Title | Hours |
|---|---|---|
| ECE 465 | Introduction to Microelectronics Fabrication | 3 |
| Select one of the following: | 3 | |
| Semiconductor Devices | ||
| Solid State Physics | ||
| Select two from the following (must be different from the core course chosen): | 6-7 | |
| Surfaces and Colloids | ||
| Introduction to Electronic Packaging | ||
| Semiconductor Devices | ||
| Finite Element Applications in Engineering | ||
| Corrosion | ||
| Fundamentals of Thin Film Fabrication | ||
| Advanced Physics Lab | ||
| Optics | ||
| Solid State Physics | ||
| Probability and Statistics | ||
| Total Hours | 12-13 | |
Courses to total 12 credits for this certificate
Develop the ability to
1. identify, formulate, and solve microelectronics fabrication problems by applying principles of engineering, science, and mathematics;
2. communicate effectively on topics related to microelectronics fabrication concepts and technologies with a range of audiences; and
3. develop and conduct appropriate microelectronic fabrication experimentation, analyze and interpret data, and use engineering judgment to draw conclusions about microelectronics fabrication.
Overall, these learning outcomes demonstrate that students who have completed a certificate in microelectronics fabrication have acquired the knowledge, skills, and abilities necessary to succeed in various fields of the microelectronics fabrication industry. The students are well-prepared to pursue further education or employment in the microelectronics fabrication field.