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Microprocessor Programmable Instrumentation for Automation
Major: Automation and Computer-integrated Technologies
Code of subject: 6.174.00.O.035
Credits: 8.00
Department: Automation and Computer-Integrated Technologies
Lecturer: Kostyk Ihor Volodymyrovych, Senior Lecturer, Candidate of Technical Sciences
Semester: 7 семестр
Mode of study: денна
Завдання: General competencies:
- Ability to apply knowledge in practical situations;
- Ability to realize the need for lifelong learning in order to deepen acquired and acquire new professional knowledge.
Special (professional, subject) competences of the specialty:
- the ability to justify the choice of technical means of automation based on an understanding of the principles of their operation, analysis of their properties, purpose and technical characteristics, taking into account the requirements for the automation system and operating conditions; adjust technical means of automation and control systems;
- the ability to use the latest technologies in the field of automation and computer-integrated technologies to solve professional tasks, in particular, the design of multi-level control systems, data collection and their archiving to form a database of process parameters and their visualization using human-machine interface tools;
- ability to justify the choice of technical structure and be able to develop application software for microprocessor control systems based on local automation tools, industrial logic controllers and programmable logic matrices and signal processors;
- the ability to develop automation systems of technological processes, embedded automation systems based on microcontrollers and industrial microprocessor controllers, network technologies and computer-integrated complexes, taking into account the principles of cyber security of such systems;
- the ability to develop a control system for a robotic technological complex based on sensors of technological parameters, technical vision systems, microprocessor control devices;
- the ability to develop automation systems for life support processes based on modern microprocessors and network technologies.
Learning outcomes: As a result of studying the academic discipline, the student must be able to demonstrate the following learning outcomes:
- know the principles of operation of automation technical means and be able to justify their choice based on the analysis of their properties, purpose and technical characteristics, taking into account the requirements for the automation system and operating conditions; have skills in setting up technical means of automation and control systems;
- know the basics of modern technologies and data exchange protocols in automation systems, information technologies for integrating automation systems into local and global information networks based on the principles of information security of such systems;
- be able to design multi-level control and data collection systems for the formation of a database of process parameters and their visualization using human-machine interface tools, using the latest computer-integrated technologies;
- be able to justify the choice of structure and develop application software for microprocessor control systems based on local automation tools, industrial logic controllers and programmable logic matrices and signal processors;
- be able to develop automation systems of technological processes, embedded automation systems based on microcontrollers and industrial microprocessor controllers, network technologies and computer-integrated complexes, taking into account the principles of cyber security of such systems;
- be able to develop a control system for a robotic technological complex based on sensors of technological parameters, technical vision systems, microprocessor control devices;
- be able to develop automation systems for life support processes based on modern microprocessors and network technologies;
- the ability to realize the need for lifelong learning in order to deepen the acquired and acquire new professional knowledge.
Required prior and related subjects: Previous academic disciplines:
- systems and networks for data communication;
- theory of nonlinear and digital control systems;
- microprocessor technique;
- automation devices;
- automatization of technological processes;
- programming for real time systems;
- microcontrollers and actuators of robotic systems;
- automation of batch productions;
- vision systems;
- automation devices for life support systems;
- programming of control system applications;
- automation of life support processes.
Associated academic disciplines:
- automation of periodical action plants;
- robotic complexes for industrial productions;
- smart house technologies.
The following academic disciplines:
- multilevel control systems of technological processes.
Summary of the subject: The discipline involves the study of: basic methods of programming microprocessor-based programmable automation tools (programmed logic controllers (PLCs)) of domestic and foreign manufacturers; criteria for selecting a PLC model and its configuration depending on the system of automatic object management; schemes for connecting peripheral devices; software, for the development of PLC operation programs.
Опис: Topic 1. Digital control of technological objects. Advantages of using centralized control systems.
Topic 2. Basic rules and methods of graphical presentation of algorithms for the functioning of regulation circuits.
Topic 3. Programming languages, rules and principles of building programs for the functioning of programmable logic controllers.
Topic 4. Human-machine interfaces in automated technological process control systems.
Topic 5. Microprocessor programmable controllers of Unitronics company. General overview of model series.
Topic 6. JAZZ series programmable logic controller manufactured by Unitronics.
Topic 7. Vision V570 series programmable logic controller manufactured by Unitronics.
Topic 8. Microprocessor programmable controllers of the Schneider Electric corporation. General overview of model lines.
Topic 9. Modicon M340 series programmable logic controller manufactured by Schneider Electric Corporation.
Topic 10. Microprocessor programmable controllers of the Siemens corporation. General overview of model series.
Topic 11. Programmable logic controller of the Simatic S7-300 series produced by Siemens Corporation.
Topic 12. Melsec programmable logic controllers manufactured by Mitsubishi Electric.
Topic 13. Small-channel programmable logic controller series MIK-5.. produced by the Mikrol company.
Topic 14. Programmable logic controller of the Foxtrot series produced by the Teco company.
Topic 15. Programmable logic controller of the CECC series produced by the Festo company.
Topic 16. Frequency-controlled devices, as local controllers of automation systems.
Topic 17. Frequency-controlled device of the ATV320 series produced by Schneider Electric Corporation.
Assessment methods and criteria: Methods of evaluating the level of results achieved by the applicants:
- lecture classes - information-receptive method, reproductive method, heuristic method, method of problem presentation.
- laboratory classes - reproductive method, heuristic method, research method.
Критерії оцінювання результатів навчання: Assessment criteria:
- maximum score in points (100), including:
1) current control (30);
2) examination control (70).
Порядок та критерії виставляння балів та оцінок: 100-88 points - certified with an “excellent” grade - High level: the student demonstrates an in-depth mastery of the conceptual and categorical apparatus of the discipline, systematic knowledge, skills and abilities of their practical application. The mastered knowledge, skills and abilities provide the ability to independently formulate goals and organize learning activities, search and find solutions in non-standard, atypical educational and professional situations. The applicant demonstrates the ability to make generalizations based on critical analysis of factual material, ideas, theories and concepts, to formulate conclusions based on them. His/her activity is based on interest and motivation for self-development, continuous professional development, independent research activities, implemented with the support and guidance of the teacher. 87-71 points - certified with a grade of “good” - Sufficient level: involves mastery of the conceptual and categorical apparatus of the discipline at an advanced level, conscious use of knowledge, skills and abilities to reveal the essence of the issue. Possession of a partially structured set of knowledge provides the ability to apply it in familiar educational and professional situations. Aware of the specifics of tasks and learning situations, the student demonstrates the ability to search for and choose their solution according to the given sample, to argue for the use of a particular method of solving the problem. Their activities are based on interest and motivation for self-development and continuous professional development. 70-50 points - certified with a grade of “satisfactory” - Satisfactory level: outlines the mastery of the conceptual and categorical apparatus of the discipline at the average level, partial awareness of educational and professional tasks, problems and situations, knowledge of ways to solve typical problems and tasks. The applicant demonstrates an average level of skills and abilities to apply knowledge in practice, and solving problems requires assistance, support from a model. The basis of learning activities is situational and heuristic, dominated by motives of duty, unconscious use of opportunities for self-development. 49-00 points - certified with a grade of “unsatisfactory” - Unsatisfactory level: indicates an elementary mastery of the conceptual and categorical apparatus of the discipline, a general understanding of the content of the educational material, partial use of knowledge, skills and abilities. The basis of learning activities is situational and pragmatic interest.
Recommended books: 1. Ельперін І. B. Промислові контролери: Навчальний посібник. — К.: НУХТ, 2003. — 320 с.
2. Автоматизація виробничих процесів: Підручник. / І.В Ельперін, О.М. Пупена,
В.М. Сідлецький, С.М. Швед. — К. Видавництво Ліра-К, 2015 — 300 с
3. Пупена О.М. Розроблення людино-машинних інтерфейсів та систем збирання даних з використанням програмних засобів SCADA/HMI.: Навчальний посібник. Київ: Видавництво Ліра-К, 2020. – 594с.
4. Руководство по решениям в автоматизации. Практические аспекты систем управления технологическими процессами. ЗАО «Шнейдер Электрик», 2019.
5. ДСТУ IEC 61131-1:2005 Контролери програмовні. Частина 1. Загальні відомості (ІEC 61131-1:2003, ІDT).
6. ДСТУ EN 61131-2:2017 Контролери програмовані. Частина 2. Вимоги до устатковання та випробування (EN 61131-2:2007, IDT; IEC 61131-2:2007, IDT).
7. ДСТУ IEC/TR 61131-4:2010 Контролери програмовні. Частина 4. Настанови для користувача (IEC/TR 61131-4:2004, IDT).
8. М. В. Загірняк, Т. В. Коренькова, А. П. Калінов, А. І. Гладир, В. Г. Ковальчук. Сучасні перетворювачі частоти в системах електропривода / – навч. посібник 2-ге вид., переробл. і доповн. – Харків: Видавництво «Точка», 2017. – 206 с.
Уніфікований додаток: Lviv Polytechnic National University ensures the realization of the right of persons with special educational needs to obtain higher education. Inclusive educational services are provided by the "Without Limits" service of accessibility to learning opportunities, which is to offer permanent individual support for the educational process of students with disabilities and chronic diseases. An essential tool for implementing the inclusive education policy at the University is the Program for improving the qualifications of scientific and pedagogical workers and teaching and support staff in the social inclusion and inclusive education field. Contact at:
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E-mail: nolimits@lpnu.ua
Websites: https://lpnu.ua/nolimits https://lpnu.ua/integration
Академічна доброчесність: The policy regarding the academic integrity of participants in the educational process is based on compliance with the principles of academic integrity, taking into account the norms "Regulations on academic integrity at the Lviv Polytechnic National University" (approved by the academic council of the university on June 20, 2017, protocol No. 35).
Microprocessor Programmable Instrumentation for Automation (курсовий проєкт)
Major: Automation and Computer-integrated Technologies
Code of subject: 6.174.01.E.055
Credits: 3.00
Department: Automation and Computer-Integrated Technologies
Semester: 7 семестр
Mode of study: денна
Microprocessor Programmable Instrumentation for Automation (курсовий проєкт)
Major: Automation and Computer-integrated Technologies
Code of subject: 6.174.02.E.069
Credits: 3.00
Department: Automation and Computer-Integrated Technologies
Semester: 7 семестр
Mode of study: денна
Microprocessor Programmable Instrumentation for Automation (курсовий проєкт)
Major: Automation and Computer-integrated Technologies
Code of subject: 6.174.03.E.084
Credits: 3.00
Department: Automation and Computer-Integrated Technologies
Semester: 7 семестр
Mode of study: денна