|
Lecturer(s)
|
-
Dostál Jiří, doc. PhDr. PaedDr. Ph.D.
-
Serafín Čestmír, prof. Ing. Dr.
-
Havelka Martin, Mgr. Ph.D.
-
Basler Jaromír, PhDr.
|
|
Course content
|
The course aims at providing a complex overview, didactically transformed, of basic elektrotechnical materials, their characteristics, applications and technological processes based on the interaction between material and electromagnetic field.
|
|
Learning activities and teaching methods
|
Lecture, Monologic Lecture(Interpretation, Training), Work with Text (with Book, Textbook)
- Attendace
- 26 hours per semester
- Preparation for the Exam
- 20 hours per semester
- Semestral Work
- 10 hours per semester
|
|
Learning outcomes
|
The course aims at providing a complex overview, didactically transformed, of basic elektrotechnical materials, their characteristics, applications and technological processes based on the interaction between material and electromagnetic field.
Students will deepen and extend knowledge in the field of electrical engineering electrical machinery, apparatus and electricity.
|
|
Prerequisites
|
not specified
|
|
Assessment methods and criteria
|
Mark
Electrotechnology 1. Technology, basic technology concepts. 2. Product quality, reliability and durability. 3. Building materials, basic concepts, the electron energy levels. Ties between the atoms, molecules. 4. Gases in electrical engineering. 5. Fluids in electrical engineering. 6. Solid substances in electrical engineering, single crystals. 7. Polycrystalline substances, amorphous substance. 8. Conductive materials, cable distribution, properties of conductors. 9. Superconducting materials and kryovodivé. 10. Resistive materials. 11. Materials for contacts, solder materials and fuses. 12. Carbon. Production technology of resistors. 13. Semiconductors, characteristics, belt model. 14. Mobility of charge carriers, semiconductors conductivity. 15. Grants semiconductors, disorder in semiconductors, methods subsidies. 16. N-type semiconductors and the type of P. 17. PN, formation. PN without external stress and the accompanying stress. 18. VA characteristics of PN. 19. Methods of PN. 20. Production technology of semiconductor devices. 21. Installation of the integrated circuit. 22. Insulators and dielectrics, the difference between the insulator and the dielectric, dielectric losses. 23. Relative permittivity, loss factor. 24. Glass. 25. Electroceramics, Asbestos. 26. Thermoplastics. 27. Thermosets. 28. Elastomers. 29. Silicones. 30. Natural fiber insulators, paints. 31. The production technology of ceramic and wound (foil) capacitor. 32. Production Technology and sloupkových mica capacitors. 33. Production technology of air and electrolytic capacitors. 34. Piezoelectric substances resonance phenomenon. 35. Liquid crystals. 36. Magnetic materials, principle, classification. 37. Properties of magnetic materials, permeability, hysterzní loop. 38. Types of soft magnetic materials and their uses.
|
|
Recommended literature
|
-
Rous, B. (1988). Materiály pro elektroniku a mikroelektroniku. Praha : SNTL.
-
Stoffa, J. (1994). Elektrotechnológia. Bratislava : Alfa.
-
Šavel, J. (2004). Elektrotechnologie : Materiály, technologie a výroba v elektrotechnice a elektronice. Praha : BEN.
-
Šesták, J. a Strnad, Z. aj. (1993). Speciální technologie a materiály. Praha : Academia.
-
Škeřík, J. (1991). Plasty v elektrotechnice a elektronice. Praha : SNTL.
|