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Materials for electronics

Course Code: EA2105 • Study year: II • Academic Year: 2022-2023
Domain: Electronic engineering and telecommunications • Field of study: Applied Electronics
Type of course: Compulsory
Language of instruction: Romanian
Erasmus Language of instruction: English
Name of lecturer: Constantin Huțanu
Seminar tutor: Constantin Huțanu
Form of education Full-time
Form of instruction: Class / Seminary
Number of teaching hours per semester: 42
Number of teaching hours per week: 3
Semester: Autumn
Form of receiving a credit for a course: Grade
Number of ECTS credits allocated 3

Course aims:

- Assimilation by students of the physical sizes and fundamental laws that govern the phenomena of nature on a macroscopic scale with the purpose of basic intellectual training of the future electronic engineer;
- Training students to understand the problems of applicative nature in the technical fields from the point of view of the fundamental legalities of nature;
- Developing creative technical thinking by understanding and handling the concepts of physics that underlie modern measuring materials and devices.
- Development of students' ability to operate with the concepts of mechanical physics, electricity and optics using the mathematical apparatus specific to the university level (functions of several variables, complex functions, differential operators, etc.);
- Initiation of future engineers in the development and use of physical models, as a practical way of extracting the essentials from a complex set of empirical phenomena;

Course Entry Requirements:

EA 1104 Physics

Course contents:

1.. Dielectric material. Definitions. Classification. Electrical properties of materials. 2. Polarization of displacement and orientation of dielectrics. Dielectric rigidity. 3. Ferroelectric crystals. Spontaneous ordering of liquid crystals. 4. Piezoelectric polarization. Piezoelectric crystals. 5. Magnetic materials. 6. Conductive materials. 7. Semiconductor materials. Experimental determination of semiconductor material parameters. 8. Reliability of semiconductor materials. Applications of the electrical properties of semiconductor materials. 9. Discrete components. Discrete semiconductor devices. 10. MOS integrated circuits. 11. Film integrated circuits. Seminar-laboratory 1. Recapitulation of the main theorems of electricity 2. Determination of semiconductor charge carrier concentrations 3. Determination of semiconductor junction parameters 4. Circuits with semiconductor junctions 5. Influence of parasitic elements of bipolar transistors on the frequency band of amplifiers 6. The influence of parasitic elements of TEC-MOS on the frequency band of amplifiers 7. Recapitulation, exam preparation

Teaching methods:

Presentation, debate, lecture. Course and seminar materials, experimental laboratory stand or video materials without restrictions of use for didactic / educational purposes.

Learning outcomes:

The course presents in a unitary conception, notions regarding the object of the science and engineering of materials, with the purpose of generating and applying the knowledge regarding the composition, structure and processing of materials for electronics. The course focuses on the nature of the materials, presenting the theories that explain the relationship; structure - processing - property - performance (operating behavior).

Learning outcomes verification and assessment criteria:

Written evaluation 50%, Check in progress 20%, Performing laboratory workPerforming laboratory work 30%

Recommended reading:

Kwock, H.L.,, Electronic Materials, PWS Publishing Company, Alba Iulia, 1997, All pages.
R. F. Hummel, Electronic Properties of Materials, Springer-Verlag, Berlin, 1993, 23.
Sze, S.M.,, Semiconductor Devices, Phisics and Technology, John Willey and Sons, Alba Iulia, 1995, All pages.
C. Tannous, J. Gieraltowski, Giant magneto-impedance and its applications, J. Mat. Science :Materials in electronics, Volume 15, Alba Iulia, 2004, 125-133.