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Solid State Electronics, Part 1
Major: Micro and Nanosystems of the Internet of Things
Code of subject: 6.153.03.O.030
Credits: 7.00
Department: Semiconductor Electronics
Lecturer: Dr.Sc., Prof. Anatoli O. Druzhinin
Semester: 5 семестр
Mode of study: денна
Завдання: The study of an educational discipline involves the formation of competencies in students of education:
general competences:
1. Basic knowledge of fundamental sciences, to the extent necessary for mastering general professional disciplines; in the field of micro- and nanosystem engineering, necessary for mastering professionally oriented disciplines.
2. The ability to solve tasks and make appropriate decisions; the ability to analyze and synthesize, to apply knowledge in practice;
3. Ability to search and analyze information from various sources; have research skills; the ability to work both individually and in a team.
professional competences:
1. Basic knowledge of scientific concepts, theories and methods necessary for understanding the principles of operation and functional purpose of devices and devices of micro- and nanosystem technology; basic knowledge of the main regulatory and legal acts and reference materials, current standards and technical conditions, instructions and other regulatory documents in the field of "Automation and Instrumentation";
2. the ability to use knowledge and skills for calculation, research, selection, implementation, repair, and design of devices and devices of micro- and nanosystem technology and their components; the ability to develop methods of assessing the quality of materials of micro- and nanosystem technology, methods of testing devices and devices, metrological verification systems; the ability to argue the choice of methods for solving specialized problems, critically evaluate the obtained results and defend the decisions made.
Learning outcomes: As a result of studying the academic discipline, the student must be able to demonstrate the following learning outcomes:
1. Know the main stages of development of solid-state electronics;
2. Know the classification of materials according to their electrical properties;
3. Analyze electrophysical properties of conductor, semiconductor and dielectric materials;
4. Analyze physical processes in metals, semiconductors and dielectrics;
5. Know the classification of magnetic materials and their properties.
Required prior and related subjects: . Previous educational disciplines
1. Quantum mechanics and statistical physics
2. Physics of semiconductors and dielectrics, part 1
3. Quantum electronics and laser technology
Accompanying and following
academic disciplines:
1. Fundamentals of micro- and nanotechnology
2. Physics of semiconductors and dielectrics, part 2
3. Microcircuit engineering, part 1,2
Summary of the subject: The program of the study discipline "Solid State Electronics" is designed for students of the Institute of Telecommunications, Radio Electronics and Electronic Engineering who are studying Micro- and Nanosystem Engineering.
The educational discipline is dedicated to the study of the main physical processes in semiconductor devices and devices of micro-nanosystem technology. Considerable attention is paid to the mathematical analysis of the operation of semiconductor devices and the explanation of physical phenomena. The physics of contact phenomena in semiconductors, metal-semiconductor contacts, metal-dielectric-semiconductor structures are analyzed in more detail; static characteristics and dynamic parameters of bipolar and field-effect transistors, as well as changes in the parameters and properties of semiconductor devices depending on the operating modes.
Опис: Physics of contact phenomena in semiconductors. . Charge carriers in equilibrium semiconductors. Stationary physical phenomena in p-n junctions. Physical foundations of metal-semiconductor contact. Semiconductor diodes. Stationary mode of operation of a semiconductor diode. Nonstationary physical processes in semiconductor diodes. VAH of a semiconductor diode during p-n junction breakdown. Types of semiconductor diodes. Bipolar transistors Physical basics of bipolar transistors. Dynamic parameters and static characteristics of a bipolar transistor. Equivalent circuits and characteristic parameters of transistors. Dependence of transistor parameters on operating mode and temperature. Nonstationary physical processes in bipolar transistors. Analysis of processes in transistors with a field in the base region.
Assessment methods and criteria: Description of methods for assessing the level of achievement of learning outcomes
Current control: completed and protected laboratory work, solving problems in the classroom, completing homework.
Final control: exam.
Критерії оцінювання результатів навчання: Current control - 20 percent, exam control - 80 percent
Recommended books: 1. Druzhinin, A. O. (2009). Solid-state electronics. Physical foundations and properties of semiconductor devices. Lviv: Publishing House of the National University" Lviv Polytechnic. - 332 p.
2. Druzhinin A.O., Lyakh-Kaguy N.S., Nichkalo S.I. (2017). Laboratory workshop on solid-state electronics. Part 1: Semiconductor diodes and bipolar transistors: method. instructions for students of the basic direction 6.050801 "Micro- and nanoelectronics" and specialty 153 "Micro- and nanosystem engineering" / compiled by: A.O. Druzhinin, N.S. Lyakh-Kaguy, S.I. Nichkalo.– Lviv: Publishing House of Lviv Polytechnic, 2017.– 64 p.
3. Druzhinin A.O., Nichkalo S.I., Lyakh-Kaguy N.S. (2018). Laboratory workshop on solid-state electronics. Part 2: Thyristors. Field-effect transistors: method. instructions for students of the basic direction 6.050801 "Micro- and nanoelectronics" and specialty 153 "Micro- and nanosystem engineering" / compiled by: A.O. Druzhinin, S.I. Nichkalo, N.S. Lyakh-Kaguy.– Lviv: Publishing House of Lviv Polytechnic, 2018.– 48 p.
4. Druzhinin A.O., Lyakh-Kaguy N.S., Nichkalo S.I. (2019). Calculation and design of semiconductor diodes and transistors as elements of micro- and nanosystem engineering: methodical instructions for coursework from the course "Solid-state electronics, part 1" for students of the basic direction 6.050801 "Micro- and nanoelectronics" and specialty 153 "Micro- and nanosystem engineering » – Lviv: Publishing House of Lviv Polytechnic, 2019. – 46 p.
5. Druzhinin A.O., Lyakh-Kaguy N.S., Nichkalo S.I. (2020). Calculation and design of field-effect transistors as elements of micro- and nanosystem engineering: methodological instructions for completing the course work from the course "Solid-state electronics, part 1" for students of the basic direction 6.050801 "Micro- and nanoelectronics" and specialty 153 "Micro- and nanosystem engineering" - Lviv: Publishing House of Lviv Polytechnic, 2020. – 40 p.
6. Druzhinin A.O., Lyakh-Kaguy N.S., Nichkalo S.I. Solid-state electronics. Part 2: electronic educational and methodological complex. – registration number No. E41-124-96/2021 dated 05/13/2021 – Certificate No. 03993. hosting address: http://vns.lpnu.ua/course/view.php?id=6000
7. Druzhinin A.O., Lyakh-Kaguy N.S. Solid-state electronics. Part 1: electronic educational and methodological complex. – registration number No. E41-124-24/2015 dated 06.16.2015 – hosting address: http://vns.lp.edu.ua/course/view.php?id =13009
8. Druzhinin A.O., Ostrovsky I.P., Hoverko Y.M., Nichkalo S.I. (2013). Devices based on MOS structures in micro- and nanoelectronics: lecture notes for masters and specialists of specialty 7.05080101 (8.05080101) "Micro- and nanoelectronic devices and devices". – Lviv: Lviv Polytechnic Publishing House. - 68 p.
http://vns.lpnu.ua/course/view.php?id=6000
http://vns.lp.edu.ua/course/view.php?id=13009
http://essuir.sumdu.edu.ua/handle/123456789/38908
http://essuir.sumdu.edu.ua/handle/123456789/38908
https://ela.kpi.ua/bitstream/123456789/24896/1/tverdotilna_elektronika.pdf