Home/ Majors directory/Computer Engineering/Computer Circuits (курсова робота)
Computer Circuits (курсова робота)
Major: Computer Engineering
Code of subject: 6.123.00.O.125
Credits: 2.00
Department: Specialized Computer Systems
Semester: 4 семестр
Mode of study: денна
Computer Circuits (курсова робота)
Major: Computer Engineering
Code of subject: 6.123.00.O.124
Credits: 2.00
Department: Electronic Computing Machines
Lecturer: PhD, associate professor Klushyn Yuriy Sergiyovich
Semester: 4 семестр
Mode of study: денна
Learning outcomes: As a result of the discipline, the fahivets is guilty:
- know the global principles of encouraging integrated circuits of the lower technological groups and counting devices on their basis;
- to understand the features of the installation of integrated circuits of various technological groups in specific electronic circuits.
- to gain knowledge about the theoretical foundations of the selection of electronic components in the calculation of such equipment, functionally oriented simulation systems in real-life developments;
- master the architecture and technical and design characteristics
current typical electronic components;
- to learn how to choose electronic components for ensuring the tasks of technical characteristics in the design of calculation and simulation systems.
Required prior and related subjects: Previous academic disciplines: physics, theoretical bases of electrical engineering.
Related academic disciplines: computer logic, computer electronics
Summary of the subject: 1. Consequences and combinations of extensions.
Trigger. Mutual transformation of the trigger. Register. Memorable devices. Programmers. Lichniks. Frequency followers. Synthesis of personalities. Encryptors, decoders, code changers. Multiplexers and demultiplexers. Comparators. Pair control schemes. Sumatori. Sumatori with an accelerated transfer. agro-magnifying sumator. Arithmetic-logical additions. Programming timers. Tire molders. Addition of parallel and subsequent codes.
Multiple parallel and subsequent codes.
2. Computer attachments. Peculiarities of prompt schemes.
Synthesis of microprogramming automata
Classification and circuitry of basic matrix crystals. Programming logic IC (EPLD, CPLD, FPGA, FLEX).
Fundamentals of designing outbuildings on PLIS in CAD (MAX + Plus II, Quartus)
Typical structure of VIC zam'yatovuyuchih pristroїv. Increasing the number of ranks and the number of words in the OZP and PZP
The main features and features of digital-analog and analog-to-digital conversions.
Features of circuitry of interfaces of computer systems (RS-232, RS-485, ETHERNET, USB)
Impulse attachments based on digital circuits: impulse shapers, single-wave generators, recto-current impulse generators, quartz generators, frequency multipliers. Practical schemes (synchronization schemes, races and splashes of contacts, schemes of cob installations). Organization of intrasystem interfaces. Tire referee. Microprocessors, single-chip microcontrollers. Connection schemes.
Assessment methods and criteria: Evaluation is based on the results of the performance of lecture and semester tests, tests for practical classes, as well as the results of practical classes in the virtual educational environment of the university.
Total number of balls - 100.
Recommended books: 1. Horowitz, Hill W. The Art of Electronics. Cambridge University Press, 2015. 1125 p.
2. Novikov Yu.V. H73 Introduction to digital circuitry. M: Internet University of Information Technologies; BINOMIAL. Knowledge Laboratory, 2007. - 343 p., ill., tab. - (Series "Fundamentals of Information Technology").
3. Potekhin V.A. Circuitry of digital devices: textbook. manual for universities [Text] / V.A. Potekhin. - Tomsk: V-Spectrum, 2012. – 250 s.
4. Electronics and microcircuit engineering: Handbook for students of higher education. zakl. enlighten in 4 volumes. Ed. V.I. Senka. - T.1: Element base of electronic attachments. - K .: TOV "Vidavnitstvo Oberegi", 2000.- 300 p.
5. Kolontaevskii, Yu. P., Soskov, A.G. Electronics and microcircuit engineering. Kyiv "Caravela", 2009. - 416 p.
6. Evchuk, O. V. Computer electronics: lecture notes / O. V. Evchuk. - Ivano-Frankivsk: IFNTUNG, 2017. - 134 p.
7. Shilo V.L. Popular digital microcircuits. - M.: Metallurgy, 1988. - 352 p.
8. Tokkeim R. Fundamentals of digital electronics: TRANS. from English. - M.: Mir, 1988. - 392 p.
9. Folkenberry L. The use of operational amplifiers and linear ICs: Per. from English. - M.: Mir, 1985. -572 p.
10. Senko V. L, Panasenko M. V., Senko E. V. ta in. Electronics and microcircuit engineering. - T. 2. Analogue and impulse attachments. - Kharkov: Folio, 2002.-510s.
11. Pryanishnikov V. A. Electronics: a course of lectures. - St. Petersburg: KORONA print, 1998. - 400 p.
12. Getting Started with NI Circuit Design Suite.pdf.
13. Makarenko V.V. Simulation of radio electronic devices using the NI Multisim program / Electronic journal "Radio Yearbook" - Issue: April, 2013 (23), pp.141-267 - http://www.rlocman.ru
14. Stakhiv P. G., Korud, V. I., Gamala O. E. Fundamentals of electronics: functional elements and zastosuvannya. Lviv: : "New World - 2000"; Magnolia plus.—2003. —208 s.
15. Filatov M. Development of an electrical circuit diagram in the Proteus 8.1 software environment // Components and Technologies. 2015. No. 6.
16. http://www.aldec.com/
17. Safronov V. Practice of mathematical synthesis of microprogram control automata based on ROM and PLM // Components and technologies. 2014. No. 6.
Computer Circuits
Major: Computer Engineering
Code of subject: 6.123.00.O.119
Credits: 6.00
Department: Specialized Computer Systems
Semester: 4 семестр
Mode of study: денна
Computer Circuits
Major: Computer Engineering
Code of subject: 6.123.00.O.118
Credits: 6.00
Department: Electronic Computing Machines
Lecturer: PhD, associate professor Klushyn Yuriy Sergiyovich
Semester: 4 семестр
Mode of study: денна
Learning outcomes: As a result of studying the discipline, the specialist should know:
- general principles of implementation of elements of computer circuitry;
- the main characteristics and features of the application of elements of computer circuitry;
- modern methods and means of designing computing and measuring systems of various functional purposes. .
A trained specialist should be able to:
- skillfully use theoretical knowledge and elements of computer circuitry in the development of computing and control devices, functionally oriented measuring systems;
- choose electronic components to ensure the specified technical characteristics when designing computing and measuring systems;
- use various software environments (such as Multisim, Proteus, Electronics Workbench) in the process of developing and debugging modern electronic devices;
- choose and correctly use typical electronic components, debugging modules and special hardware in the process of developing and debugging modern electronic devices;
- investigate the problem and determine limitations, including technical and due to the problems of sustainable development, as well as problems of impact on the environment and safety of life;
- to use integrated microcircuits of late technological groups in real cases;
- carry out independent development of a computer device on MIС and SIС.
Required prior and related subjects: Previous academic disciplines: physics, theoretical bases of electrical engineering.
Related academic disciplines: computer logic, computer electronics
Summary of the subject: 1. Consequences and combinations of extensions.
Trigger. Mutual transformation of the trigger. Register. Memorable devices. Programmers. Lichniks. Frequency followers. Synthesis of personalities. Encryptors, decoders, code changers. Multiplexers and demultiplexers. Comparators. Pair control schemes. Sumatori. Sumatori with an accelerated transfer. agro-magnifying sumator. Arithmetic-logical additions. Programming timers. Tire molders. Addition of parallel and subsequent codes.
Multiple parallel and subsequent codes.
2. Computer attachments. Peculiarities of prompt schemes.
Synthesis of microprogramming automata
Classification and circuitry of basic matrix crystals. Programming logic IC (EPLD, CPLD, FPGA, FLEX).
Fundamentals of designing outbuildings on PLIS in CAD (MAX + Plus II, Quartus)
Typical structure of VIC zam'yatovuyuchih pristroїv. Increasing the number of ranks and the number of words in the OZP and PZP
The main features and features of digital-analog and analog-to-digital conversions.
Features of circuitry of interfaces of computer systems (RS-232, RS-485, ETHERNET, USB)
Impulse attachments based on digital circuits: impulse shapers, single-wave generators, recto-current impulse generators, quartz generators, frequency multipliers. Practical schemes (synchronization schemes, races and splashes of contacts, schemes of cob installations). Organization of intrasystem interfaces. Tire referee. Microprocessors, single-chip microcontrollers. Connection schemes.
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: 1. Horowitz, Hill W. The Art of Electronics. Cambridge University Press, 2015. 1125 p.
2. Novikov Yu.V. H73 Introduction to digital circuitry. M: Internet University of Information Technologies; BINOMIAL. Knowledge Laboratory, 2007. - 343 p., ill., tab. - (Series "Fundamentals of Information Technology").
3. Potekhin V.A. Circuitry of digital devices: textbook. manual for universities [Text] / V.A. Potekhin. - Tomsk: V-Spectrum, 2012. – 250 s.
4. Electronics and microcircuit engineering: Handbook for students of higher education. zakl. enlighten in 4 volumes. Ed. V.I. Senka. - T.1: Element base of electronic attachments. - K .: TOV "Vidavnitstvo Oberegi", 2000.- 300 p.
5. Kolontaevskii, Yu. P., Soskov, A.G. Electronics and microcircuit engineering. Kyiv "Caravela", 2009. - 416 p.
6. Evchuk, O. V. Computer electronics: lecture notes / O. V. Evchuk. - Ivano-Frankivsk: IFNTUNG, 2017. - 134 p.
7. Shilo V.L. Popular digital microcircuits. - M.: Metallurgy, 1988. - 352 p.
8. Tokkeim R. Fundamentals of digital electronics: TRANS. from English. - M.: Mir, 1988. - 392 p.
9. Folkenberry L. The use of operational amplifiers and linear ICs: Per. from English. - M.: Mir, 1985. -572 p.
10. Senko V. L, Panasenko M. V., Senko E. V. ta in. Electronics and microcircuit engineering. - T. 2. Analogue and impulse attachments. - Kharkov: Folio, 2002.-510s.
11. Pryanishnikov V. A. Electronics: a course of lectures. - St. Petersburg: KORONA print, 1998. - 400 p.
12. Getting Started with NI Circuit Design Suite.pdf.
13. Makarenko V.V. Simulation of radio electronic devices using the NI Multisim program / Electronic journal "Radio Yearbook" - Issue: April, 2013 (23), pp.141-267 - http://www.rlocman.ru
14. Stakhiv P. G., Korud, V. I., Gamala O. E. Fundamentals of electronics: functional elements and zastosuvannya. Lviv: : "New World - 2000"; Magnolia plus.—2003. —208 s.
15. Filatov M. Development of an electrical circuit diagram in the Proteus 8.1 software environment // Components and Technologies. 2015. No. 6.
16. http://www.aldec.com/
17. Safronov V. Practice of mathematical synthesis of microprogram control automata based on ROM and PLM // Components and technologies. 2014. No. 6.