Circuit Engineering for Information Systems

Major: Information and Communication Systems
Code of subject: 6.126.01.O.017
Credits: 5.00
Department: Telecommunication
Lecturer: Ph.D. Associate Professor Burachok Roman Adamovich
Semester: 3 семестр
Mode of study: денна
Мета вивчення дисципліни: The discipline "Information systems schematics" is one of the basic disciplines in the training of specialists in the field of information and communication technologies. The subject teaches the mathematical foundations of logic algebra, the circuit engineering of digital devices, the basic methods of synthesis of combinational, sequence and pulse devices, the principles of construction of shapers, generators, digital signal converters, the principles of construction of memory devices and analog-to-digital converters (ADC), the basic concepts of programmable logic integrated circuits and microprocessors. Students should be able to apply the acquired knowledge in the synthesis of digital devices of various functional purposes, the creation of digital devices and the construction of digital automata for use in modern information and communication systems.
Завдання: The study of an educational discipline involves the formation of competencies in students of education: integral competence: The ability to solve complex specialized tasks and practical problems in the field of information systems and technologies, or in the learning process, characterized by the complexity and uncertainty of conditions that require the application of theories and methods of information technologies. general competences: KZ1. Ability to abstract thinking, analysis and synthesis. KZ2. Ability to apply knowledge in practical situations. KZ3. Ability to understand the subject area and professional activity. KZ5. Ability to learn and master modern knowledge. KZ6. Ability to search, process and summarize information from various sources. KZ7. Ability to develop and manage projects. KZ8. The ability to evaluate and ensure the quality of the work performed. KZ9. The ability to realize one's rights and responsibilities as a member of society, to realize the values of a civil (free democratic) society and the need for its sustainable development, the rule of law, the rights and freedoms of a person and a citizen in Ukraine. KZ10. The ability to preserve and increase the moral, cultural, scientific values and achievements of society based on an understanding of the history and patterns of development of the subject area, its place in the general system of knowledge about nature and society and in the development of society, technology and technologies, to use various types and forms of motor activity for active recreation and leading a healthy lifestyle. professional competences: CS1. The ability to analyze the object of design or operation and its subject area. CS2. Ability to apply standards in the field of information systems and technologies when developing functional profiles, building and integrating systems, products, services and elements of the organization's infrastructure. CS3. Ability to design, develop, debug and improve system, communication and software hardware of information systems and technologies, the Internet of Things (IoT), computer-integrated systems and system network structure, their management. CS4. The ability to design, develop and use the means of implementing information systems, technologies and information communications (methodical, informational, algorithmic, technical, software and others). CS5. The ability to evaluate and take into account economic, social, technological and environmental factors at all stages of the life cycle of information and communication systems. CS6. Ability to use modern information systems and technologies (production, decision support, intelligent data analysis, and others), cyber security methods and techniques while performing functional tasks and duties. CS10. Ability to choose. designing. deployment, integration. management. administration and support of information systems, technologies and information communications, services and infrastructure of the organization. CS11. Ability to analyze, synthesize and optimize information systems and technologies using mathematical models and methods. CS12. Ability to manage and use modern information and communication systems and technologies (including those based on the use of the Internet). CS14. Ability to form new competitive ideas and implement them in projects (startups).
Learning outcomes: - Conduct a system analysis of design objects and justify the choice of structure, algorithms and methods of information transmission in information systems and technologies. - Argue the choice of software and technical means for creating information systems and technologies based on the analysis of their properties, purpose and technical characteristics, taking into account system requirements and operating conditions; have skills in debugging and testing software and technical means of information systems and technologies. - Ability to communicate, including oral and written communication in Ukrainian and foreign (English) languages. - Ability to use various methods of modern information technologies for effective communication at professional and social levels. - Ability to adapt to new situations and make appropriate decisions. - The ability to realize the need for training in order to deepen the acquired and acquire new professional knowledge. - The ability to take responsibility for the work performed, to make decisions independently, to achieve the set goal in compliance with the requirements of professional ethics.
Required prior and related subjects: Previous disciplines: 1. Discrete mathematics 2. Electronics of information systems Related and the following disciplines: 1. Embedded systems 2. Computer architecture
Summary of the subject: The discipline "Information systems schematics" is one of the basic disciplines in the training of specialists in the field of information and communication technologies. The discipline teaches the mathematical foundations of logic algebra, the circuit engineering of digital devices, the main methods of synthesis of combinational, sequence and pulse devices, the principles of construction of shapers, generators, digital signal converters, the principles of construction of memory devices and analog-to-digital converters (ADCs), the basic concepts of programmable logic integrated circuits and microprocessors. Students should be able to apply the acquired knowledge in the synthesis of digital devices of various functional purposes, the creation of digital devices and the construction of digital automata for use in modern information and communication systems.
Опис: - The role and place of digital technology in modern communication systems. Elements of the mathematical apparatus of digital technology. Binary arithmetic. Functions of the algebra of logic. Functionally complete systems. Properties of logical functions. - Methods of minimizing logical expressions. The concept of minterms and maxterms. Minimization of logical functions by Carnot maps. - Schematics of digital elements. Classification of digital elements. Characteristics and static parameters of integrated circuits of logical elements. Statistical characteristics of microcircuits of logic elements. Immunity. Load capacity. Branching coefficient. Basic schemes of logical elements. Contact, non-contact logical elements. - Synthesis of combinational devices (CMDs). Examples of methods for the synthesis of CCP according to the truth table. The principle of cascading in digital devices. Typical combination devices. Encoder of a unitary code into an equivalent n-bit binary code. Mathematical model of the cipher. Binary code decoder. Mathematical model. Examples of the synthesis of decoders for converting one type of code into another. - Combination adders. Definition and mathematical model. Adder with serial carry. Formation of the carry value in the serial adder. Methods of forming the carry in parallel adders. Digital comparators. Construction of comparators based on adders. - Multiplexers and demultiplexers. Construction of combinational circuits on multiplexers. - Synthesis of combinational devices on programmable logic matrices (PLM). Examples of filling out tables for PLM programming. - Serial devices. Mathematical model of a digital automaton. Model of the machine of the 1st kind, model of the machine of the 2nd kind. Moore and Miley automata. Triggers. Graphic symbols of triggers. Classification of triggers. Asynchronous RS trigger. Construction of different types of triggers. Universal JK-trigger, T-trigger and D-trigger. - Examples of sequential devices. Registers of the RIRO, SISO type. Structural diagrams of serial and parallel registers. - Counters. Classification of counters. Counters with serial transfer. Counters with parallel transfer. Comparative characteristics of counters of different types. Construction of schemes for forming pulses of a given duration using counters with preliminary installation. - Pulse circuits on digital elements. - Shapers. Generators of rectangular pulses. Multivibrators. - Analog-to-digital (ADC) and digital-to-analog converters (DAC). Classification and main parameters. Principles of transformation. - DAC based on R-2R resistor matrix. - Integrated memory devices. Classification of memory devices. Structural diagrams of drives with one- and two-coordinate sampling. - Integrated circuits of operational memory devices (RAM). Static and dynamic RAM. - Integrated circuits of non-volatile memory devices (LPDs). Main parameters and architecture.
Assessment methods and criteria: Testing on topics passed (in a virtual learning environment). Protection of laboratory work in the form of a survey based on completed reports. Examination control (written component – tests and individual task, oral component – survey based on the list of questions to be studied and submitted for semester control.
Критерії оцінювання результатів навчання: Current control: performance and protection of laboratory work - 30 points, performance and protection of RGR - 10 points
Recommended books: 1. Ryabenky V.M. Zhuykov V.Ya. Yamnenko Yu.S. Zagranichnyi A.V. Schemotechnika: Devices of digital electronics VOLUME 1. Kyiv: 2016, 399 st. 2. Ryabenky V.M. Zhuykov V.Ya. Yu.S. Yamnenko Zagranichnyi A.V. Schemotechnika: Devices of digital electronics VOLUME 2. Kyiv: 2016, 358 st. 3. Boyko V.I., Bagrii V.V. Digital circuit technology. - K: IZMN, 2001. - 228 p. 4. Knight B.E. Digital technology: Study guide / K.: UMK VO. - 1991. -372 p. 5. Durnyak B.V., Strebko I.T., Titov G.N., Tymchenko O.V. Basics of designing digital logic devices: Tutorial. - Lviv: Publication of the Ukrainian Academy of Printing, 2006. - 272p. 6. Lebedev O.M., Ladyk O.I. Digital technology: Education. manual / Under the editorship M. Yu. Ilchenko. - K.: IVC "Polytechnic Publishing House", 2004. - 320p. 7. Lebedev O.M., Sidorov O.M., Ladyk O.I. Digital devices for means of telecommunications / Ed. M. Yu. Ilchenko. - K.: KVIUZ, 1999. - 182 p. 8. Kostinyuk L.D., Paranchuk Y.S., Shchur I.Z. Microprocessor devices and systems - Lviv: Publishing House "Lviv Polytechnic", 2002. - 200 p.