The following courses support career readiness in the field of microelectronics manufacturing, organized by topic area.
Fabrication of Microelectronics
Primary
| Class | Class Title | Topics | Syllabus Link |
|---|---|---|---|
| EEE 4331 | Microelectronic Fabrication Technologies | Principles of microelectronic device fabrication. Emphasis on the fundamentals of microfabrication processing and microelectronic device process flows. | Syllabus |
| EEL 4930 | Fabrication of Micro/Nano Systems | Introduction to the fabrication of microsystems and nanosystems, such as micro-electro-mechanical systems (MEMS) and nano-electro-mechanical systems (NEMS), which are used for many different applications (IoT, biomedical, aerospace, automotive, environmental, defense, biometric cyber security, etc.). | Syllabus |
Secondary
| Class | Class Title | Topics | Syllabus |
|---|---|---|---|
| EEE 4329 | Future of Microelectronics | Analysis and design of possible future transistor technology to fabricate microelectronics circuits | Syllabus |
| EEL 4930 | Introduction to Quantum Devices and Quantum Engineering | This course will provide both physics and engineering fundamentals of emerging quantum information science and technologies (QIST), and focus on quantum hardware | Syllabus |
Supportive
| EEL 3008 | Physics of Electrical Engineering | An introduction to the fundamental physics underlying components and devices and their application to electronics, power, and wireless. | Syllabus |
| EEE 3396 | Solid-State Electronic Devices | Present the theoretical and practical background of device physics so that students understand and are able to design and optimize the charge transport properties of semiconductor materials and devices | Syllabus |
| EEL 3111C | Circuits 1 | To build new concepts and ideas on concepts presented. Develop an understanding of the explicit connections among the many circuit analysis tools and methods. | Syllabus |
| EEL 3003 | Elements of Electrical Engineering | Syllabus |
EEL 3008 – Physics of Electrical Engineering (3 credits)
EEE 3396 – Solid-State Electronic Devices (3 credits)
EEL 3111C – Circuits 1 (4 credits)
EEL 3003 – Elements of Electrical Engineering (3 credits)