Lectures:
1. Introduction, schedule, conditions of successful completion of the course. Types of electrotechnical materials, conductors, insulators, semiconductors, magnetic materials, materials used in optoelectronics.
2. Basic physical properties and technical parameters of materials used in electrotechnology. Changes in material properties caused by changes in their structure and composition.
3. Thin film technology, steaming, sputtering, application. Thick film technology, screen printing, application.
4. Manufacturing of electrical insulating materials: inorganic, layered and plastic. Manufacturing of conducting materials for conductors, contacts and special purposes (resistive materials, carbon).
5. Manufacturing of passive electrical components.
6. Physical explanation of semi conductivity, production of semiconductor materials.
7. Manufacturing of semiconductor components and integrated circuits.
8. Printed circuit technology, design and construction of printed circuits, printed circuit board etching. Printed circuit boards; surface mounting technology (SMD).
9. Machine layout of printed circuits, other types of joints in microelectronics, flexible printed circuit boards. Soldering in electrical engineering.
10. Manufacturing of winding in electrical components and machines.
11. Magnetic materials used in electrotechnology and their production.
12. Assembly of electrical machines.
13. Manufacturing of switchboards, materials used, dimensioning.
Seminaries:
1. Introduction, security instructions, course project assignment.
2. Measuring insulant properties, specific resistance, permitivity.
3. Measuring conductor properties, specific resistance, temperature dependence of resistance.
4. Measuring magnetic material properties, permeability, losses.
5+6. Designing printed circuit boards.
7+8. Manufacturing a printed circuit board
9+10. Soldering.
11. Visit to an industrial plant.
12. Visit to an industrial plant.
13. Final test, awarding credit.
1. Introduction, schedule, conditions of successful completion of the course. Types of electrotechnical materials, conductors, insulators, semiconductors, magnetic materials, materials used in optoelectronics.
2. Basic physical properties and technical parameters of materials used in electrotechnology. Changes in material properties caused by changes in their structure and composition.
3. Thin film technology, steaming, sputtering, application. Thick film technology, screen printing, application.
4. Manufacturing of electrical insulating materials: inorganic, layered and plastic. Manufacturing of conducting materials for conductors, contacts and special purposes (resistive materials, carbon).
5. Manufacturing of passive electrical components.
6. Physical explanation of semi conductivity, production of semiconductor materials.
7. Manufacturing of semiconductor components and integrated circuits.
8. Printed circuit technology, design and construction of printed circuits, printed circuit board etching. Printed circuit boards; surface mounting technology (SMD).
9. Machine layout of printed circuits, other types of joints in microelectronics, flexible printed circuit boards. Soldering in electrical engineering.
10. Manufacturing of winding in electrical components and machines.
11. Magnetic materials used in electrotechnology and their production.
12. Assembly of electrical machines.
13. Manufacturing of switchboards, materials used, dimensioning.
Seminaries:
1. Introduction, security instructions, course project assignment.
2. Measuring insulant properties, specific resistance, permitivity.
3. Measuring conductor properties, specific resistance, temperature dependence of resistance.
4. Measuring magnetic material properties, permeability, losses.
5+6. Designing printed circuit boards.
7+8. Manufacturing a printed circuit board
9+10. Soldering.
11. Visit to an industrial plant.
12. Visit to an industrial plant.
13. Final test, awarding credit.