1. Basic terms and definition of the subject.
2. System approach, controlled system, control system, control and feedback control, measuring and control systems, basic control circuits, technical means.
3. Methods of data acquisition, transfer, registration and data processing, DAQ.
4. Logic circuits, their division and application, truth tables, minimization, logic schemes, use in technical practice.
5. Dynamic systems, description, identification.
6. Function of control circuit, block diagrams.
7. Regulators, their properties and design.
8. Accuracy, stability and optimal adjustment of control circuits.
9. Use of control computers and PLC in automated control systems.
10. Sensors for measuring position, level and displacements (principles, applications, accuracy, reliability).
11. Sensors for measuring temperature, pH, humidity and conductivity (principles, applications, accuracy, reliability).
12. Sensors for measuring force, weight, pressure and flow (principles, applications, accuracy, reliability).
2. System approach, controlled system, control system, control and feedback control, measuring and control systems, basic control circuits, technical means.
3. Methods of data acquisition, transfer, registration and data processing, DAQ.
4. Logic circuits, their division and application, truth tables, minimization, logic schemes, use in technical practice.
5. Dynamic systems, description, identification.
6. Function of control circuit, block diagrams.
7. Regulators, their properties and design.
8. Accuracy, stability and optimal adjustment of control circuits.
9. Use of control computers and PLC in automated control systems.
10. Sensors for measuring position, level and displacements (principles, applications, accuracy, reliability).
11. Sensors for measuring temperature, pH, humidity and conductivity (principles, applications, accuracy, reliability).
12. Sensors for measuring force, weight, pressure and flow (principles, applications, accuracy, reliability).