ELE-6056 BASICS OF RF AND MICROWAVE ELECTRONICS, 8 cr
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Courses persons responsible
N.N.
Lecturers
N.N.
Lecturetimes and places
Per IV,V: Tuesday 10 - 12, TC161
Implementations
Period 1 | Period 2 | Period 3 | Period 4 | Period 5 | Summer | |
Lecture | - | - | - | 2 h/week | 2 h/week | - |
Exercise work | - | - | - | 3 h/week | 3 h/week | - |
Exam |
Objectives
The objective of this course is to learn the essential concepts of RF and microwave electronics. The student shoud learn the basic definitions and concepts relating to high frequency design. From that on the student can build a firm understanding of how active and passive RF circuits function.
Content
Content | Core content | Complementary knowledge | Specialist knowledge |
1. | Practical use of transmission line theory. | Microstrips | |
2. | Impedance matching using e.g. the Smith chart. |   | |
3. | Description of linear multiport networks. | Signal flow charts. | |
4. | RF and microwave resonators and filters implementations. | Filter design. |
Requirements for completing the course
Students collect points from various tasks that contribute to learning (homework, attending lectures, weekly tests, project work, final exam, course feeback, etc.) There will be a minimum number of points for passing the course, e.g., 50 out of 100.
Evaluation criteria for the course
Study material
Type | Name | Auhor | ISBN | URL | Edition, availability... | Exam material | Language |
Book | RF circuit design Theory and Applications | Ludwig - Bretchko | 0-13-122475-1 | No | English |
Prerequisites
Code | Course | Credits | M/R |
SMG-8306 | SMG-8306 Transmission lines and waveguides | 7 | Recommendable |
Prequisite relations (Sign up to TUT Intranet required)
Distance learning
- In information distribution via homepage, newsgroups or mailing lists, e.g. current issues, timetables
- In compiling teaching material, particularly for online use or other electronic media
- In distributing and/or returning exercise work, material etc
- In the visualization of objects and phenomena, e.g. animations, demonstrations, simulations, video clips
- Contact teaching: 30 %
- Distance learning: 0 %
- Proportion of a student's independent study: 70 %
Scaling
Methods of instruction | Hours |
Lectures | 24 |
Exercises | 108 |
Laboratory assignments | 50 |
Study materials | Hours |
Text book | 35 |
Other scaled | Hours |
Exam/midterm exam | 3 |
Total sum | 220 |
Last modified | 24.08.2007 |
Modified by | Victor Acinas Garzon |