Solid State Electronics (курсова робота)

Major: Micro and Nanosystem Technology
Code of subject: 6.153.03.O.67
Credits: 2.00
Department: Semiconductor Electronics
Lecturer: Dr.Sc., Prof. Anatoli O. Druzhinin
Semester: 6 семестр
Mode of study: денна
Learning outcomes: As a result of the study of the academic discipline, the student of education should be capable 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. To analyze the electrophysical properties of conductors, semiconductors 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 academic subjects: Quantum mechanics and statistical physics, Physics of semiconductors and dielectrics, part 1, Quantum electronics and laser machinery Accompanying and following educational disciplines: Fundamentals of micro- and nanotechnology, Physics of semiconductors and dielectrics, part 2, Microcircuit engineering, part 1,2
Summary of the subject: Abstract of the academic discipline In the course work (in the first part), a theoretical analysis of the main physical processes in semiconductor devices and devices of micro-nanosystem technology is carried out. Mathematical analysis includes principles of operation of semiconductor devices and explanation of physical phenomena, physics of contact phenomena in semiconductors, metal-semiconductor contacts, metal-dielectric-semiconductor structures. Static characteristics and dynamic parameters of bipolar and field-effect transistors are calculated with the help of manuals or reference sheets of technical data (specifications). The second part of the course work involves the study of changes in the parameters and properties of semiconductor devices depending on the operating modes according to your task option.
Assessment methods and criteria: Methods of knowledge diagnosis 1. Current control in the form of a teacher checking parts of the course work according to the description stages of course work. 2. Final control in the form of coursework defense. Criteria for evaluating the results of course work Current control -0, Checking the text and graphic part of the coursework -40, Defense of coursework -60.
Recommended books: 1. 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 technology: methodical instructions for completing 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 technology" - Lviv: Publishing House of Lviv Polytechnic, 2019. - 46 p. 2. Druzhinin A.O., Lyakh-Kaguy N.S., Nichkalo S.I. (20017). Laboratory practice with of 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 technology" / author: A.O. Druzhinin, N.S. Lyakh-Kaguy, SI. Nichkalo.– Lviv: Publishing House of Lviv Polytechnic, 2017.– 64 p. 3. Druzhinin A.O., Nichkalo S.I., Lyakh-Kaguy N.S. (2018). Laboratory practice on solid state electronics Part 2: Thyristors. Field-effect transistors: method. instructions for students basic direction 6.050801 "Micro- and nanoelectronics" and specialty 153 "Micro- and nanosystem technology" / editor: A.O. Druzhinin, S.I. Nichkalo, N.S. Lyakh-Kaguy. – Lviv: Lviv Polytechnic Publishing House, 2018. – 48 p. 4. Druzhynin A.O., Lyakh-Kaguy N.S. Solid-state electronics. Part 1: electronic educational methodological complex. – registration number No. E41-124-24/2015 dated 06.16.2015 – address location: http://vns.lp.edu.ua/course/view.php?id=13009 5. Druzhinin, A. O. (2009). Solid-state electronics. Physical foundations and properties semiconductor devices. Lviv: Publishing House of the National University of Lviv polytechnic - 332 p. 6. Druzhinin A.O., Ostrovsky I.P., Khoverko Y.M., Nichkalo S.I. (2013). Devices on the basis MES-structures in micro- and nanoelectronics: a synopsis of lectures for masters and specialists specialty 7.05080101 (8.05080101) "Micro- and nanoelectronic devices and devices". – Lviv: Lviv Polytechnic Publishing House. - 68 p.