ELT-47246 Passive RF Circuits, 5 cr
Person responsible
Jari Kangas, Toni Björninen
Lessons
Implementation | Period | Person responsible | Requirements |
ELT-47246 2016-01 | 3 - 4 |
Toni Björninen Jari Kangas |
This course is completed by collecting points homework assignments and either simulation or design project. 100% participation to any of these activities is not compulsory, but the final grade will be determined based on the amount of points collected from the learning activities. There is no final exam. |
Learning Outcomes
After passing the course, students know how to design, implement and characterize passive two-port and multi-port microwave transmission line components. They know how to summarize the relevant design details and performance data in a concise and cohesively composed technical report and how to communicate the relevant engineering concepts to others.
Content
Content | Core content | Complementary knowledge | Specialist knowledge |
1. | Fundamentals of microwave circuit theory related especially to power efficiency indicators and analysis of transmission lines as impedance transformers. S-parameters. Z-parameters. Mictrostrip transmission line technology. | Co-planar transmission line technology. Two-transmission lines method for the measurement of dielectric constant. Measurement of characteristic impedance. | |
2. | Operation principles of passive microwave components: power dividers, hybrids, couplers, impedance tuners, filters,... | Some commonly used modifications to the basic configurations. | Trends in the current technology. |
3. | Building and testing passive microwave components: power dividers, hybrids, couplers, impedance tuners, filters,... | Modern simulation software. | Understanding the impact of uncertainties in implementation and practical limitations to the electromagnetic performance. |
4. | Communications skills: composing a technical report and giving feedback to peers. |
Instructions for students on how to achieve the learning outcomes
Although homework submission are optional part of the course, any effort in working on them is expected to deepen the knowledge on the matters discussed in the contact teaching. It is also possible to pass the course by only submitting the homework solutions, but this can only yield the highest final grade of 3. Higher grades are attainable only by completing either a simulation or design project. Everyone in the course are required to participate in peer review of the project reports. There is no final exam in this course.
Assessment scale:
Numerical evaluation scale (0-5)
Partial passing:
Study material
Type | Name | Author | ISBN | URL | Additional information | Examination material |
Book | Foundations for Microwave Engineering | Robert E. Collin | Ch. 2,3,5,6. Available in IEEE XPlore. | Yes | ||
Book | Microwave Engineering | David M. Pozar | Ch. 2,4,5,7,8 | Yes | ||
Lecture slides | Available in Moodle. | Yes | ||||
Other online content | Toni Björninen | Available in Moodle. | Yes |
Additional information about prerequisites
Knowledge of the basics of RF engineering. If you have studied in TUT, a relevant prerequisite is ELT-47206 - Basics of RF Engineering.
Correspondence of content
Course | Corresponds course | Description |
ELT-47246 Passive RF Circuits, 5 cr | ELE-6156 Basics of RF Engineering II, 5 cr |