| Relevance of Course Objectives and Core Learning Outcomes(%) |
Teaching and Assessment Methods for Course Objectives |
| Course Objectives |
Competency Indicators |
Ratio(%) |
Teaching Methods |
Assessment Methods |
|
|
|
|
|
| Course Content and Homework/Schedule/Tests Schedule |
| Week |
Course Content |
| Week 1 |
Introduction
What is IC?
Why CMOS IC?
What is RF (Radio Frequency) ?
|
| Week 2 |
Difference of RF IC design
RF IC for Wireless Communication |
| Week 3 |
Impendence matching
Maximum Power Transfer
Impedance Conjugate Matching
|
| Week 4 |
Low Noise Amplifier |
| Week 5 |
Low Noise Amplifier |
| Week 6 |
Middle Exam |
| Week 7 |
Oscillator |
| Week 8 |
Oscillator |
| Week 9 |
Mixers |
| Week 10 |
Mixers |
| Week 11 |
FinFET ADFP Plateform |
| Week 12 |
FinFET ADFP Plateform |
| Week 13 |
FinFET ADFP Plateform |
| Week 14 |
Power Amplifier |
| Week 15 |
Power Amplifier |
| Week 16 |
Final Exam |
self-directed
learning |
03.Preparing presentations or reports related to industry and academia.
|
|
| Evaluation |
Middle term examination : 30%
Final term examination : 35%
Projects ,Circuit Project : 35%
|
| Textbook & other References |
Thomas H. Lee, “The Design of CMOS Radio Frequency Integrated Circuits,” Cambridge University Press
Behzad Razavi, “RF Microelectronics,” Prentice Hall
David M. Pozar, “Microwave Engineering,” 3rd edition, Wiley
Microwave Transistor Amplifiers – Analysis and Design 2nd edition. Guillermo Gonzalez.(Wave part)
IEEE papers
|
| Teaching Aids & Teacher's Website |
|
| Office Hours |
| THU PM 3:00-4:30 |
| Sustainable Development Goals, SDGs(Link URL) |
| 04.Quality Education 07.Affordable and Clean Energy 08.Decent Work and Economic Growth 09.Industry, Innovation and Infrastructure | include experience courses:N |
|