Computer Electronics

Major: Computer Engineering
Code of subject: 6.123.00.O.043
Credits: 4.00
Department: Specialized Computer Systems
Semester: 3 семестр
Mode of study: денна

Computer Electronics

Major: Computer Engineering
Code of subject: 6.123.00.O.042
Credits: 4.00
Department: Electronic Computing Machines
Lecturer: PhD, associate professor Klushyn Yuriy Sergiyovich
Semester: 3 семестр
Mode of study: денна
Learning outcomes: As a result of studying the discipline, the specialist should know: - general principles of realization of elements of computer electronics; - main characteristics and features of application of computer electronics elements; - Features of the inclusion of passive and active elements of computer electronics in specific electronic circuits. A trained specialist must be able to: - to build linear and nonlinear schemes of information transformation with the use of operational amplifiers taking into account the specified accuracy and frequency properties; - to build functional units of analog electronics (generators of sinusoidal and non-sinusoidal oscillations, multivibrators, filters, comparators, analog switches, etc.) with the specified characteristics; - to build simple low-power secondary power supplies and to calculate their parameters, to provide protection of power supplies; - to determine the static noise immunity of the digital form of information representation, to calculate the dynamic parameters of the digital signal and the analysis of electrical circuits of logic elements - to calculate standard digital units (generators, pulse generators, auxiliary circuits, etc.) taking into account the features of the element base used.
Required prior and related subjects: Previous academic disciplines: physics, theoretical foundations of electrical engineering. Associated academic disciplines: computer logic, computer circuitry
Summary of the subject: Basic parameters of electronic circuits. Ideal and real sources of voltage and current. Galvanic cells and accumulators. Batteries. Resistors, capacitors, inductors - basic parameters and switching circuits. Physical foundations of semiconductors. Diodes. Unipolar and bipolar transistors. Thyristors. Optoelectronic devices. Single and full wave AC rectifiers. Pulse voltage and current stabilizers. Amplifiers and Oscillators. Digital electronics.
Assessment methods and criteria: Written reports on laboratory work, the verbal questioning (30%) Final assessment (70 %, control method, exam): written-verbal form (70%)
Recommended books: . Andronik Bunyak. Electronics and microcircuitry: a basic guide for other educational plots. Kiev, Ternopil, 2001. 2. Skarzhepa V.A., Lutsenko A.N. Electronics and microcircuitry. - K. VSh. 1989., P and C, 1991. 3. Stepanenko P.I. Fundamentals of Microelectronics. M.-SPb. Fizmatlit. 2001. 4. Kolontaevskiy Yu.P., Soskov A.G. Promislova electronics and microcircuitry: theory and practice. Ed. A.G. Soskova. - K., Karavela, 2003 .-- 368 p. 5. Dmitriv V.T., Shimanskiy V.M. Electronics and microcircuitry. Afisha, Lviv, 2004. 6. Stakhiv P.G., Corud V.I. Fundamentals of electronics with elements of microelectronics. Magnolia plus, Lviv, 2006. 7. Osadchy Yu.F., Gludkin OP, Gurov A.I. Analog and digital electronics. M., Hotline - Telecom, 2005. 8. Bobrovnikov L.Z. Electronics. 5th edition. Peter, 2004. 9. Budishchev M.S. Electrical engineering, electrical engineering and microprocessor technology. Pidruchnik. - Lviv: Afisha, 2001 .-- 424 p. 10. Evchuk, O. V. Computer electronics: lecture notes / O. V. Evchuk. - Ivano-Frankivsk: ІFNTUNG, 2017 .-- 134 p.