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Opintojakso, lukuvuosi 2023–2024
COMM.RF.300

Analysis of Electromagnetic Systems, 5 op

Tampereen yliopisto
Opetusperiodit
Aktiivinen periodissa 2 (23.10.2023–31.12.2023)
Aktiivinen periodissa 3 (1.1.2024–3.3.2024)
Aktiivinen periodissa 4 (4.3.2024–31.5.2024)
Koodi
COMM.RF.300
Opetuskieli
englanti
Lukuvuodet
2021–2022, 2022–2023, 2023–2024
Opintojakson taso
Aineopinnot
Arvosteluasteikko
Yleinen asteikko, 0-5
Vastuuhenkilö
Vastuuopettaja:
Mikko Valkama
Vastuuopettaja:
Jari Kangas
Vastuuorganisaatio
Informaatioteknologian ja viestinnän tiedekunta 100 %
Järjestävä organisaatio
Sähkötekniikan opetus 100 %
Ydinsisältö
  • Analysis of resistive circuits and the steady field conduction problem.
    Setting up simulation model to find the resistance of a conducting object, basics of finite element method simulations (Comsol).
    Interpretation of field and circuit quantities in case of materials with different conductivities.
    Related in-class hands-on tasks where e.g. breadboards and DAQ -devices are utilized.
  • Analysis of capacitive systems and the electrostatic field problem.
    Analysis of inductive systems and the magnetostatic field problem.
    Energy and potentials in electric and magnetic problems.
    Setting up simulation models for simple capacitive and inductive systems. Related in-class hands-on tasks.
    Multivariable analysis and its applications in electromagnetic theory.
  • Analysis of the magnetoquasistatic field problem, electromagnetic induction, electromotive force. Time-harmonic field quantities.
  • Ampere-Maxwell law. Analysis of monochromatic electromagnetic plane waves. Basics of wave propagation in nonconducting and conducting media. Basics of origin of waves, Hertz dipole.
Täydentävä tietämys
  • Assumptions underneath the electric circuit analysis (with lumped parameters). KVL, KCL, and the resistive circuit element interpreted in terms of field quantities.
  • Boundary conditions to define circuit elements in terms of field quantities. Well-posedness of static EM problems.
  • Basics about electromagnetic compatibility.
  • Elementary concepts of electromagnetic metamaterials.Application examples: metamaterials in antenna designs, EM cloaking.
Osaamistavoitteet
Esitietovaatimukset
Suositellut esitiedot
Lisätiedot
Oppimateriaalit
Vastaavat opintojaksot
Kokonaisuudet, joihin opintojakso kuuluu
Suoritustapa 1
To pass the course the student must pass two modeling labs. In addition, the student must complete either of the following two options:1) Obtain enough bonus points (from exercise sessions, homework, online tasks, the compulsory labs), but this can only yield the highest final grade of three. 2) Take the final exam in which case any grade 0-5 is possible. The exam can be also completed via midterms/small exams.
Kaikkien osuuksien suorittaminen on pakollista.

Osallistuminen opetukseen

23.10.2023 12.12.2023
Aktiivinen periodissa 2 (23.10.2023–31.12.2023)

Tentti

15.12.2023 15.12.2023
Aktiivinen periodissa 2 (23.10.2023–31.12.2023)
23.10.2023 10.12.2023
Aktiivinen periodissa 2 (23.10.2023–31.12.2023)
07.02.2024 07.02.2024
Aktiivinen periodissa 3 (1.1.2024–3.3.2024)
19.03.2024 19.03.2024
Aktiivinen periodissa 4 (4.3.2024–31.5.2024)