Subject description - AE2M17MOS
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| AE2M17MOS | Microwave Circuits and Subsystems | ||
|---|---|---|---|
| Roles: | Extent of teaching: | 2+2c | |
| Department: | 13117 | Language of teaching: | EN |
| Guarantors: | Completion: | Z,ZK | |
| Lecturers: | Credits: | 5 | |
| Tutors: | Semester: | L | |
Web page:
https://moodle.fel.cvut.cz/courses/AE2M17MOSAnotation:
The subject provides wide theoretical and practical knowledge both for scientific-research work and carrier profession in the field of rf. and microwave region. It makes students familiar with rf. and microwave passive and active circuits realized in planar and monolithic structures - lines, directional couplers, power dividers, resonant circuits, filters and CAD tools for design of rf. and microwave circuits. It also contains basis of microwave transistors, bipolar, MESFET and HEMPT, design of low noise, power, narrow band and wideband amplifiers, diode and transistor oscillators, detectors, mixer and frequency multipliers.Study targets:
It makes students familiar with rf. and microwave passive and active circuits realized in planar and monolithic structures.Course outlines:
| 1. | Planar and monolithic technology | |
| 2. | Lines in planar and monolithic structures | |
| 3. | Coupled lines and directional coupler | |
| 4. | Hybrid couplers - Lange, branch line, rat race, de Ronde | |
| 5. | Power dividers for equal ad different power ratio | |
| 6. | Microwave planar resonant circuits and filters | |
| 7. | Structures of bipolar transistor, MESFET and HEMPT, definition of gains, stability | |
| 8. | Low noise and power amplifiers | |
| 9. | Narrow and wideband amplifiers | |
| 10. | Parameters of rf. nonlinear circuits, noise, inter-modulation, cross-modulation, compression | |
| 11. | Microwave diode and transistor oscillators | |
| 12. | Rf. and microwave detectors and mixers | |
| 13. | Diode and transistor frequency multipliers | |
| 14. | Microwave subsystems of communication systems |
Exercises outline:
| 1. | CAD tools, Microwave Office, simulation of connector connection on microstrip line | |
| 2. | Project 1. Simple planar lines | |
| 3. | Project 2. Coupled lines, directional coupler | |
| 4. | Project 3. Hybrid couplers | |
| 5. | Project 4. Power dividers | |
| 6. | Project 5. Planar filters I. | |
| 7. | Project 6. Planar filters II. | |
| 8. | Project 7. Low noise amplifier | |
| 9. | Project 8. Power amplifier | |
| 10. | Project 9. Transistor oscillator | |
| 11. | Project 10. Frequency multiplier | |
| 12. | work on projects | |
| 13. | work on projects | |
| 14. | work on projects, final checking |
Literature:
Lee T. H., Planar Microwave Engineering, Cambridge University Press Vendelin, Pavio, Rohde, Microwave Circuit Design Usany Linear and Nonlinear Techniques, John WilleyRequirements:
Smith chart and impedance matching, properties of electromagnetic wave on a line, s-parameters. https://moodle.fel.cvut.cz/Keywords:
planar microwave components, microwave, passive circuits, active circuits, amplifier, oscillator, multiplier, mixer, microstrip, microwave filter
Subject is included into these academic programs:
| Program | Branch | Role | Recommended semester |
| Page updated 15.3.2025 15:51:03, semester: L/2024-5, Z/2025-6, Z/2024-5, L/2025-6, Send comments about the content to the Administrators of the Academic Programs | Proposal and Realization: I. Halaška (K336), J. Novák (K336) |