Infopaket

RADIO ELECTRONICS

ОК 22

Обов’язкова дисципліна для ОП

First

2023/2024

4 Trimester

10

The student must know the essence of the underlying physical phenomena operation of semiconductor devices; classification, principles of operation, main characteristics, parameters and features of the use of semiconductor devices and radio-electronic devices, including digital devices built on the basis of semiconductor devices; methods of calculation and construction of typical analog and digital electronic circuits. The student must be able to explain the essence of physical phenomena that lie in the basis of the operation of semiconductor devices; classify semiconductor devices, explain their purpose and principles of operation; classify radio-electronic devices, including digital ones built on the basis of semiconductor devices, explain their purpose and principles of operation; choose the necessary ones yourself semiconductor devices in design and calculation radio-electronic devices, including digital ones.

Full-time form

The educational discipline "Radioelectronics" is a mandatory component of the educational program "Applied Physics, Nanoelectronics and Computer Technologies" and uses the results of the mandatory disciplines "Higher Mathematics", "General Physics", "Radio Circuits and Signals", and is basic discipline for studying the academic disciplines "Oscillations and waves", "Microprocessor technology", "Technology and microwave devices" and a number of special disciplines provided for in the educational program.Prerequisites: 1. To have differential and integral calculus. 2. Have basic knowledge of the theory of the function of a complex variable. 3. Know the main characteristics of conductors, semiconductors and dielectrics. 4. To be able to explain such physical phenomena and concepts as electric current, potential, potential difference, etc. 5. To be able to calculate the parameters of passive elements of electric circuits, using the methods of radio engineering.

The discipline program examines the physical phenomena and processes underlying the operation of semiconductor devices; principles of operation of radio electronic devices, including digital ones built on the basis of semiconductor devices; methods of calculation and construction of typical analog and digital electronic circuits and devices that can be used in conducting research in the field applied physics, nanoelectronics and computer technologies.

1. С.М. Левитський. Основи радіоелектроніки. Підручник. - Київ: ВПЦ “Київський університет”, - 2007 р., - 455 с. 2. І.І. Бех, С.М Левитський. Фізичні основи комп'ютерної електроніки. - К.: ТОВ “Карбон”, - 2010 р., - 233 с. 3. І.І. Бех, С.М Левитський. Цифрові пристрої. Навчальний посібник. - Київ: Видавнича лабораторія факультету радіофізики, електроніки та комп'ютерних систем Київського університету імені Тараса Шевченка, - 2016 р., - 336 с. 4. О.М. Нікітчин, С.М. Левитський. Сигнали і процеси в радіотехніці: навчальний посібник. – Київ: Логос,- 2014, – 188 с. 5. С.М. Левитський. Основи радіоелектроніки. Навчальний посібник. - Київ: ВПЦ “КУ”, - 2002 р., - 83 с.

Lectures, practical classes; laboratory work; independent work.

Semester evaluation: during the semester, two oral modular tests on the lecture material (colloquiums) and three written tests on the materials of practical classes are provided. Other forms of control are a written report on the performance of twelve individual calculation and graphic works based on the materials of practical classes and a written report on the performance of ten laboratory works. A separate form of control is the protection of course work. Final assessment - - in the form of the exam: the form of the exam is written. In total, you can get from 0 to 60 points for the exam. A condition for achieving a positive grade for a discipline is to obtain at least 60 points, while the exam grade cannot be less than 20 points.

Ukrainian