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Electronics and Microprocessor Technology
Major: Robotics and Industrial Engineering
Code of subject: 6.131.07.O.015
Credits: 5.00
Department: Department of Robotics and Integrated Mechanical Engineering Technologies
Lecturer: Ihor Zelinskyi
Semester: 3 семестр
Mode of study: денна
Завдання: The study of the academic discipline involves the formation and development of students' competencies in accordance with the Standard of Higher Education in the specialty 131 "Applied Mechanics" for the First Level of Higher Education (Order of the Ministry of Education and Culture of Ukraine No. 865 of June 20, 2019):
Integral Competence (INT): The ability to solve complex specialized tasks and solve practical problems in the field of applied mechanics or in the learning process, which involves the application of certain theories and methods of mechanical engineering and is characterized by the complexity and uncertainty of conditions.
General competences (CG):
ZK1. Ability to abstract thinking, analysis and synthesis.
ZK2. Knowledge and understanding of the subject area, understanding of professional activity.
ZK3. Ability to identify, pose and solve problems.
ZK4. Ability to apply knowledge in practical situations.
ZK7. Ability to learn and master modern knowledge.
ZK9. Skills in using information and communication technologies.
ZK10. Skills of performing safe activities.
ZK12. Ability to search, process and analyze information from various sources.
ZK13. The ability to evaluate and ensure the quality of the work performed.
Special (professional, subject) competences (FC):
FK1. The ability to analyze materials, structures and processes based on the laws, theories and methods of mathematics and natural sciences, including – applied mechanics.
FC7. Ability to use computer-aided design (CAD), manufacturing (CAM), engineering calculation (CAE) systems, and specialized application software to solve engineering problems in applied mechanics.
FC9. The ability to present the results of one's engineering activities in compliance with generally accepted norms and standards.
FC10. The ability to describe and classify a wide range of technical objects and processes, based on a deep knowledge and understanding of basic mechanical theories and practices, as well as basic knowledge of related sciences.
Learning outcomes: PH2. Use knowledge of the theoretical foundations of mechanics of solids, liquids and gases, heat engineering, electronics and electrical engineering to solve professional tasks.
PH11. To understand the principles of operation of systems of automated control of technological equipment, in particular microprocessor ones, to choose and use optimal means of automation.
Required prior and related subjects: Previous academic disciplines
- Physics
- Electrical engineering and electric drive
Associated and subsequent academic disciplines
- Information processes and systems in production
Summary of the subject: The subject of study of the discipline is the theory and practice of using semiconductor discrete and integral elements, in particular microprocessors, in control systems of technological processes and equipment in mechanical engineering.
All information presented in the course corresponds to modern trends in the construction of control systems for various equipment
Опис: TOPIC 1. Physical foundations of semiconductors
1.1. Intrinsic and impurity conductivity of semiconductors (n/p)
1.2. Physical processes in p-n transition 2
TOPIC 2. Semiconductor devices
2.1. Rectifier diodes, zener diodes, Schottky diodes, LEDs, photodiodes, diode optocouplers
2.2. Controlled bipolar elements (varicaps, photoresistors, resistor optocouplers)
2.3. Bipolar transistors
2.4. Unipolar transistors
2.5. Multilayer n/p (dynistors, thyristors)
2.6. Integrated microcircuits
SUBJECT 3. Analog technology
3.1. Stabilized power supply
3.2. Operational amplifier (OP), analog circuits on OP
3.3. Power amplifier
SUBJECT 4. Digital technology
4.1. Logical elements on bipolar and field-effect transistors
4.2. Combinational integrated circuits (ICs) of medium integration (adders, decoders, multiplexers, arithmetic logic devices)
4.3. Integral triggers
SUBJECT 5. Microprocessor technology
5.1. Architecture of microprocessors and microcontrollers
5.2. Microcontroller command system
5.3. Explicit and implicit addressing, working with arrays, interrupts.
5.4. Periphery of microcontrollers. Timers, ADCs, communication modules
Assessment methods and criteria: 1. Current control is carried out during laboratory and practical classes in order to check the student's readiness to perform specific work and the level of assimilation of lecture material.
2. Protection of the results of laboratory work. It is conducted orally by means of a survey on the topic, method of implementation and the main results obtained during the performance of the work.
3. Protection of the results of practical works. It is conducted orally through a survey on the topic and the main results obtained during the performance of the work.
4. Examination based on the results of studying the discipline. The written component is conducted in a test form in the Virtual Primary Environment. The oral component is conducted based on the results of the written component for a more thorough assessment of knowledge.
Критерії оцінювання результатів навчання: Current control
laboratory 15
priactic 15
Examination control
Written component 60
Oral component 10
Total for discipline 100
Recommended books: Basic
1. Дружинін А. О Твердотільна електроніка. Фізичні основи і властивості напівпровідникових приладів Навчальний посібник. Львів: Видавництво Львівської політехніки, 2009. 332 с.
2. Мілих В.І., Шавьолкін О.О. Електротехніка, електроніка та мікропроцесорна техніка: Підручник / За ред. В.І.Мілих.- - К.: Каравела, 2007.- 688 с.
Auxiliary
1. Основи технології напівпровідникових матеріалів: навчальний посібник / І. В. Курило, С. К. Губа; Міністерство освіти і науки, молоді та спорту України, Національний університет "Львівська політехніка", 2012. - 237 с.
2. Схемотехніка электронних схем: У 3 кн. Кн.3 Мікропроцесори та мікроконтролери: Підручник / В.І.Бойко, А.М.Гуржій, В.Я.Жуйков та ін. – 2-ге вид., допов. і переробл.—К.: Вища шк.., 2004.- 399 с.
3. Дмитрів В.Т., Шиманський В.М. Електроніка і мікросхемотехніка. Навчальний посібник. Львів: Афіша, 2006. 175 с.