Subject description - AD0B13ETM

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AD0B13ETM Electrotechnical materials Extent of teaching:14+3L
Guarantors:  Roles:V Language of
Teachers:  Completion:Z,ZK
Responsible Department:13113 Credits:4 Semester:L


The main material characteristics as conductivity, permittivity, magnetic susceptibility etc. and their relations to the composition and structure are explained. The subject is concentrated namely on the metal conductors, semiconductors, dielectrics, magnetics and superconductors.

Study targets:

The goals of study are the learning of main material characteristics and understanding of material properties in relation to their structure and chemical composition.

Course outlines:

1. The physical origin of material properties. Atoms, bonds, molecules, crystals.
2. States of matter - gaseous, liquid, solid phases, phase equilibrium.
3. The crystal state, crystal structure, defects.
4. Diffusion and thermal properties of solid state.
5. Electron states in crystals, band model of conductors, semiconductors and insulators
6. Electrical conductivity of metals and electrolytes, Ohms law in differential form.
7. Materials for cables, resistors and contacts.
8. Electron states in semiconductors and band model of intrinsic, N type, P type semiconductor
9. Electrical conductivity of semiconductors and their temperature dependence. Properties and applications of known semiconductors, p-n junction.
10. Electrical conductivity of dielectrics, electrical breakdown intrinsic and thermal.
11. Dielectric polarization in harmonic field, complex permittivity, loss factor. Ferroelectric, pyroelectric and piezoelectric materials.
12. Magnetic phenomena and their physical origin. The dia- , para-, fero-, feri-, and antifero- magnetic materials.
13. Soft and hard magnetic materials. Transformers and memory materials.
14. Superconductivity. Basic properties of superconductors. Materials and their application.

Exercises outline:

1. Exercise schedule and introduction to laboratory exercises.
2. The temperature dependence of the conductors and semiconductors conductivity.
3. The measurements of the complex permittivity of the dielectric.
4. The magnetic properties as a function of the frequency of applied field.
5. The crystal structure and properties, examples for computations.
6. The properties of conductors and semiconductors, examples for computations.
7. The properties of dielectrics and magnetics, example for computations. Credits.


[1] Hampl, J.: Introduction to Electrical Materiále, skripta ČVUT, Praha 2006
[2] Jiles, D.: Introduction to the Electronic Properties of Materials, Chapman and Hall 1994
[3] Weidmann, G., Lewis, P., Reid, N.: Structural Materiále, Alden press London 1990
[4] Askeland, D.R., Phule, P.P.: The Science and Engineering of Materiále, Thompson/Cole, Pacifik Grove 2003


The credit requirements - seminar presentation, protocols of labs. and test.



Subject is included into these academic programs:

Program Branch Role Recommended semester
BKOI1 Computer Systems V
BKOI_BO Common courses V
BKOI3 Software Systems V
BKOI2 Computer and Information Science V
BKEEM1 Applied Electrical Engineering V
BKEEM_BO Common courses V
BKEEM2 Electrical Engineering and Management V
BKKYR1 Robotics V
BKKYR_BO Common courses V
BKKYR3 Systems and Control V
BKKYR2 Sensors and Instrumentation V
BKKME1 Communication Technology V
BKKME_BO Common courses V
BKKME4 Network and Information Technology V
BKKME3 Applied Electronics V
BKKME2 Multimedia Technology V
BIS(ECTS)-D Intelligent Systems V
BKSTMWM Web and Multimedia V
BKSTMSI Software Engineering V
BKSTMMI Manager Informatics V
BKSTMIS Intelligent Systems V
BKSTM_BO Common courses V
BSI(ECTS)-D Software Engineering V
BWM(ECTS)-D Web and Multimedia V
BMI(ECTS)-D Manager Informatics V

Page updated 17.6.2019 09:52:48, semester: Z,L/2020-1, L/2018-9, Z,L/2019-20, Send comments about the content to the Administrators of the Academic Programs Proposal and Realization: I. Halaška (K336), J. Novák (K336)