Michigan, United States
Qualification
Bachelor's Degree
Study mode
Full-time, Part-time
Duration
4 years
Intakes
September
Total tuition fee (local)
B$ 78,651
Total tuition fee (foreign)
B$ 268,007
Entry Requirements
- All undergraduate first-year applicants are required to submit test results from either the SAT with writing or the ACT with writing.
- Submit the School Report.
- Submit one Teacher Evaluation.
- Submit a Counselor Recommendation (encouraged, but not required).
- Submit high school transcript. An official English translation is required to accompany the transcript if the transcript is not issued in English by the school. (Students who have already completed high school, including university transfer applicants, should be sure to have final high school transcript submitted showing the graduation date. Also provide a detailed explanation of any educational gaps.)
- If you are a speaker of English as a second language, you will need to submit your MELAB, TOEFL, or IELTS scores.
Curriculum
- Discrete Mathematics
- Introduction to Electronic Circuits
- Introduction to Signals and Systems
- Electromagnetics I
- Introduction to Logic Design
- Information Systems Design and Programming
- Electronic Circuits
- Digital Integrated Circuits
- Electrical Circuits, Systems, and Applications
- Introduction to Semiconductor Devices
- Electromagnetics II
- Principles of Optics
- Digital Signal Processing and Analysis (formerly EECS 451)
- Design of Microprocessor-Based Systems
- Object-Oriented and Advanced Programming
- Probabilistic Methods in Engineering
- Patent Fundamentals (video video overview)
- Microwave Circuits I
- Monolithic Amplifier Circuits (video video overview)
- Introduction to MEMS
- Power Electronics
- Electric Machinery and Drives
- Properties of Transistors
- Solid-State Device Laboratory
- Integrated Microsystems Laboratory (video video overview)
- VLSI Design I (video video overview)
- Semiconductor Optoelectronic Devices
- Radiowave Propagation and Link Design (video video overview)
- Principles of Photonics
- Advanced Lasers and Optics Laboratory
- Digital Signal Processing and Analysis PLEASE NOTE: This course is now EECS 351
- Digital Signal Processing Design Laboratory (video video overview)
- Digital Communication Signals and Systems
- Control Systems Analysis and Design
- Embedded Control Systems
- Power System Design and Operation
- Logic Circuit Synthesis and Optimization
- Computer Networks
- Computer Game Design and Development
- Major Design Projects
- Hands-On Robotics (video video overview)
- Solid State Physics
- Semiconductor Lasers and LEDs
- Machine Learning
- Electronic Commerce
- Discrete Events Systems
- Advanced Computer Networks
- Advanced Programming Languages
- Complexity and Emergence
- Quantum Optics
- Electronic and Optical Properties of Semiconductors
- Channel Coding Theory and Applications
- Advanced Topics in Signal Processing