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The Elements and Components of Metrological Support
Major: Metrology and Information-measuring Technology
Code of Subject: 6.152.04.E.141
Credits: 5
Department: Measuring Information Technologies
Lecturer: Ph.D. Rak Volodymyr Stepanovych
Semester: 5 семестр
Mode of Study: денна
Learning outcomes:
- know the basic principles underlying the operation of analog and digital converters of physical quantities;
- know how to evaluate the characteristics required for measurement accuracy;
- know how to choose the necessary methods and means to achieve the desired accuracy;
- know the principles of optimal choice of elements and components in constructing block diagrams of measuring instruments for achieving the required accuracy.
- be able to apply basic knowledge of fundamental mathematics and physics sections to the extent necessary for use in the field of knowledge "Automation and Instrumentation";
- be able to use mathematical methods and physical effects in their chosen profession;
- be able to use the basic knowledge of science and modern information technologies;
- be able to carry out the collection, analysis and systematization of scientific and technical information;
- - be able to apply the theory of electric and magnetic circuits in the design of elements of measurement systems;
- be able to work with your computer;
- be able to apply basic knowledge about the most important physical effects inherent conductors, semiconductors and insulators and magnetic properties of materials;
- be able to apply basic knowledge of the principles of the basic parameters and properties of the electronic components of measuring instruments;
- be able to apply basic knowledge of the operation and design of digital units of measurement devices;
- be able to apply basic knowledge about the basic methods of analog-to-digital conversion and construction principles on the basis of electronic measuring instruments.
- know how to evaluate the characteristics required for measurement accuracy;
- know how to choose the necessary methods and means to achieve the desired accuracy;
- know the principles of optimal choice of elements and components in constructing block diagrams of measuring instruments for achieving the required accuracy.
- be able to apply basic knowledge of fundamental mathematics and physics sections to the extent necessary for use in the field of knowledge "Automation and Instrumentation";
- be able to use mathematical methods and physical effects in their chosen profession;
- be able to use the basic knowledge of science and modern information technologies;
- be able to carry out the collection, analysis and systematization of scientific and technical information;
- - be able to apply the theory of electric and magnetic circuits in the design of elements of measurement systems;
- be able to work with your computer;
- be able to apply basic knowledge about the most important physical effects inherent conductors, semiconductors and insulators and magnetic properties of materials;
- be able to apply basic knowledge of the principles of the basic parameters and properties of the electronic components of measuring instruments;
- be able to apply basic knowledge of the operation and design of digital units of measurement devices;
- be able to apply basic knowledge about the basic methods of analog-to-digital conversion and construction principles on the basis of electronic measuring instruments.
Required prior and related subjects:
Previous disciplines:
higher mathematics;
physics;
theory of electrical signals and circuits
Related disciplines:
methods and tools of measurings, testings and control;
bases of the metrological support.
higher mathematics;
physics;
theory of electrical signals and circuits
Related disciplines:
methods and tools of measurings, testings and control;
bases of the metrological support.
Summary of the subject:
- Principles and technical specifications of discrete passive and active electrical components and semiconductors;
- the basic schemes of inclusion of electric and discrete semiconductor components, the linear integrated circuits, digital circuits and microprocessor components test systems;
- foundations of the analysis and synthesis of digital machines and the basis of microprocessor technology for use in test systems.
Recommended Books:
1. Орнатский П.П. Автоматические измерения и приборы. - Київ: Вища школа, 1986.- 389 с.
2. Нетребенко К.А. Цифровые делители напряжения. - М.:- Энергия, 1970.- 245 с.
3. Алексенко А.Г., Коломбет Е.А., Стародуб Г.И. Применение прецизионных аналоговых ИС. – М.: Радио и связь, 1981. – 224 с.
4. Гутников В.С. Применение операционных усилителей в измерительной технике. – Л.: Энергия, 1975. –118 с
5. Аналоговые интегральные схемы: Пер. с англ. / Под ред. Дж. Конелли – М.: Мир, 1977. – 439 с.
6. Пейтон А. Дж., Волш В. Аналоговая электроника на операционных усилителях: Пер. с англ. – М.: БИНОМ, 1994.- 352 с.
7. Усилители с полевыми транзисторами / Немчинов В.М., Никитаев В.Г., Ожогин М.А., Ляхович В.В.; Под ред. И.П.Степаненко. – М.: Сов. радио, 1980. – 192 с.
8. Остапенко Г.С. Аналоговые полупроводниковые интегральные микросхемы. – М.: Радио и связь, 1981. – 280 с.
9. Федорков Б.Г., Телец В.А., Дегтяренко В.П. Микроэлектронные цифро-аналоговые и аналого-цифровые преобразователи. – М.: Радио и связь, 1984. – 320 с.
10. Тугов Н.М., Глебов Б.А., Чарыков Н.А. Полупроводниковые приборы. – М.: Энергоатомиздат, 1990. – 320 с.
2. Нетребенко К.А. Цифровые делители напряжения. - М.:- Энергия, 1970.- 245 с.
3. Алексенко А.Г., Коломбет Е.А., Стародуб Г.И. Применение прецизионных аналоговых ИС. – М.: Радио и связь, 1981. – 224 с.
4. Гутников В.С. Применение операционных усилителей в измерительной технике. – Л.: Энергия, 1975. –118 с
5. Аналоговые интегральные схемы: Пер. с англ. / Под ред. Дж. Конелли – М.: Мир, 1977. – 439 с.
6. Пейтон А. Дж., Волш В. Аналоговая электроника на операционных усилителях: Пер. с англ. – М.: БИНОМ, 1994.- 352 с.
7. Усилители с полевыми транзисторами / Немчинов В.М., Никитаев В.Г., Ожогин М.А., Ляхович В.В.; Под ред. И.П.Степаненко. – М.: Сов. радио, 1980. – 192 с.
8. Остапенко Г.С. Аналоговые полупроводниковые интегральные микросхемы. – М.: Радио и связь, 1981. – 280 с.
9. Федорков Б.Г., Телец В.А., Дегтяренко В.П. Микроэлектронные цифро-аналоговые и аналого-цифровые преобразователи. – М.: Радио и связь, 1984. – 320 с.
10. Тугов Н.М., Глебов Б.А., Чарыков Н.А. Полупроводниковые приборы. – М.: Энергоатомиздат, 1990. – 320 с.
Assessment methods and criteria:
- current control (15%);
performance and protection of laboratory work (15%);
- conducting semester test and exam (70%);
- exam by the results of learning rate.
performance and protection of laboratory work (15%);
- conducting semester test and exam (70%);
- exam by the results of learning rate.