CTU FEE Moodle
Antenna Design and Technology
B232 - Summer 23/24
This is a grouped Moodle course. It consists of several separate courses that share learning materials, assignments, tests etc. Below you can see information about the individual courses that make up this Moodle course.
Antenna Design and Technology - B0M17NKA
Main course
| Credits | 5 |
| Semesters | Winter |
| Completion | Assessment + Examination |
| Language of teaching | Czech |
| Extent of teaching | 2P+2L |
Annotation
Basics of practical antenna design for selected frequency bands and communication, identification and radar services. Modelling (full-wave analysis), design relationships and specifics of antenna construction using professional software tools. Design and manufacture of antenna sample. Practical measurements.
Study targets
Practical design of antennas for specific frequency bands, modeling, design and construction of antenna and antenna systems.
Course outlines
1. Microstrip antennas - multiband, circular polarization, arrays.
2. Small antennas I.
3. Small antennas II.
4. RFID and wearable antennas
5. Car antennas and antennas for automotive radar sensors
6. Reflector antennas
7. Helix antennas
8. Electromagnetic modelling of radiating structures
9. Characteristic mode theory, quality factor
10. Antenna systems for 5G standard
11. Symmetrisation and transformation elements in antenna technology
12. Wideband antennas - spirals, cone dipoles
13. Wideband horn antennas
14. Project presentations
2. Small antennas I.
3. Small antennas II.
4. RFID and wearable antennas
5. Car antennas and antennas for automotive radar sensors
6. Reflector antennas
7. Helix antennas
8. Electromagnetic modelling of radiating structures
9. Characteristic mode theory, quality factor
10. Antenna systems for 5G standard
11. Symmetrisation and transformation elements in antenna technology
12. Wideband antennas - spirals, cone dipoles
13. Wideband horn antennas
14. Project presentations
Exercises outlines
1. Microstrip antennas, transmission line model (project 1)
2. Electromagnetic modelling of antennas
3. Small antennas, design and modelling (project 2)
4. Small antennas, project solution
5. RFID and wearable antennas, read range calculation, experiment
6. Reflector antennas, radiation pattern calculation with: waveguide aperture, horn antenna and Hertz dipole radiator, (project 3)
7. Reflector antennas, project solution
8. Electromagnetic modelling of radiating structures
9. Characteristic mode theory, calculation of energy, radiating power and quality factor of wire antennas
10. Artificial materials in antenna technology, design, properties, experiment
11. Balancing and transformation elements in antenna technology, differential impedance measurement
12. Helix antennas ? design and modelling of dualband helix antenna
13. Wideband horn antennas
14. Presentation of projects
2. Electromagnetic modelling of antennas
3. Small antennas, design and modelling (project 2)
4. Small antennas, project solution
5. RFID and wearable antennas, read range calculation, experiment
6. Reflector antennas, radiation pattern calculation with: waveguide aperture, horn antenna and Hertz dipole radiator, (project 3)
7. Reflector antennas, project solution
8. Electromagnetic modelling of radiating structures
9. Characteristic mode theory, calculation of energy, radiating power and quality factor of wire antennas
10. Artificial materials in antenna technology, design, properties, experiment
11. Balancing and transformation elements in antenna technology, differential impedance measurement
12. Helix antennas ? design and modelling of dualband helix antenna
13. Wideband horn antennas
14. Presentation of projects
Literature
1.Johnson, C.R.: Antenna Engineering Handbook. McGraw-Hill, Inc., London,
1993
2.Mott, H.: Antennas for Radar and Communications. John Wiley and Sons,
Inc., New York, 1992
3.Milligan, T.A.: Modern Antenna Design. McGraw-Hill Book Company. London,
1985
4.Balanis, A.: Antenna Theory. John Wiley and Sons, Inc., New York, 1997
5.Kraus, J.D., Marhefka, J.: Antennas For All Applications. Tata,
McGraw-Hill, New York, 2003
1993
2.Mott, H.: Antennas for Radar and Communications. John Wiley and Sons,
Inc., New York, 1992
3.Milligan, T.A.: Modern Antenna Design. McGraw-Hill Book Company. London,
1985
4.Balanis, A.: Antenna Theory. John Wiley and Sons, Inc., New York, 1997
5.Kraus, J.D., Marhefka, J.: Antennas For All Applications. Tata,
McGraw-Hill, New York, 2003
Requirements
https://moodle.fel.cvut.cz/
Antenna Design and Technology - A0M17NKA
| Credits | 5 |
| Semesters | Winter |
| Completion | Assessment + Examination |
| Language of teaching | Czech |
| Extent of teaching | 2+2L |
Annotation
Basics of practical design of antennas for specific frequency bands, modeling, design and construction of antennas. Modeling
on professional software tools for antenna design.
on professional software tools for antenna design.
Study targets
Practical design of antennas for specific frequency bands, modeling, design and construction of antenna and antenna systems.
Course outlines
1. Microstrip antennas
2. Small antennas I.
3. Small antennas II.
4. RFID and wearable antennas
5. Car antennas and antennas for automotive radar sensors
6. Reflector antennas
7. Helix antennas
8. Electromagnetic modelling of radiating structures
9. Characteristic mode theory, quality factor
10. Planck probe antenna systems
11. Symmetrisation and transformation elements in antenna technology
12. Wideband antennas - spirals, cone dipoles
13. Wideband horn antennas
14. Project presentations
2. Small antennas I.
3. Small antennas II.
4. RFID and wearable antennas
5. Car antennas and antennas for automotive radar sensors
6. Reflector antennas
7. Helix antennas
8. Electromagnetic modelling of radiating structures
9. Characteristic mode theory, quality factor
10. Planck probe antenna systems
11. Symmetrisation and transformation elements in antenna technology
12. Wideband antennas - spirals, cone dipoles
13. Wideband horn antennas
14. Project presentations
Exercises outlines
1. Microstrip antennas, transmission line model (project 1)
2. Electromagnetic modelling of antennas
3. Small antennas, design and modelling (project 2)
4. Small antennas, project solution
5. RFID and wearable antennas, read range calculation, experiment
6. Reflector antennas, radiation pattern calculation with: waveguide aperture, horn antenna and Hertz dipole radiator, (project 3)
7. Reflector antennas, project solution
8. Electromagnetic modelling of radiating structures
9. Characteristic mode theory, calculation of energy, radiating power and quality factor of wire antennas
10. Artificial materials in antenna technology, design, properties, experiment
11. Balancing and transformation elements in antenna technology, differential impedance measurement
12. Helix antennas ? design and modelling of dualband helix antenna
13. Wideband horn antennas
14. Presentation of projects
2. Electromagnetic modelling of antennas
3. Small antennas, design and modelling (project 2)
4. Small antennas, project solution
5. RFID and wearable antennas, read range calculation, experiment
6. Reflector antennas, radiation pattern calculation with: waveguide aperture, horn antenna and Hertz dipole radiator, (project 3)
7. Reflector antennas, project solution
8. Electromagnetic modelling of radiating structures
9. Characteristic mode theory, calculation of energy, radiating power and quality factor of wire antennas
10. Artificial materials in antenna technology, design, properties, experiment
11. Balancing and transformation elements in antenna technology, differential impedance measurement
12. Helix antennas ? design and modelling of dualband helix antenna
13. Wideband horn antennas
14. Presentation of projects
Literature
1.Johnson, C.R.: Antenna Engineering Handbook. McGraw-Hill, Inc., London,
1993
2.Mott, H.: Antennas for Radar and Communications. John Wiley and Sons,
Inc., New York, 1992
3.Milligan, T.A.: Modern Antenna Design. McGraw-Hill Book Company. London,
1985
4.Balanis, A.: Antenna Theory. John Wiley and Sons, Inc., New York, 1997
5.Kraus, J.D., Marhefka, J.: Antennas For All Applications. Tata,
McGraw-Hill, New York, 2003
1993
2.Mott, H.: Antennas for Radar and Communications. John Wiley and Sons,
Inc., New York, 1992
3.Milligan, T.A.: Modern Antenna Design. McGraw-Hill Book Company. London,
1985
4.Balanis, A.: Antenna Theory. John Wiley and Sons, Inc., New York, 1997
5.Kraus, J.D., Marhefka, J.: Antennas For All Applications. Tata,
McGraw-Hill, New York, 2003
Requirements
https://moodle.fel.cvut.cz/