Individual course details
Study programme Applied and computational physics
Chosen research area (module)  
Nature and level of studies  
Name of the course Automatic control
Professor (lectures) Ivan Belča
Professor/associate (examples/practical) Ivan Belča
Professor/associate (additional) Stevan Stojadinović
ECTS   Status (required/elective)  
Access requirements  
Aims of the course Introduction to basic concepts  of automatic control
Learning outcomes Adoption of basic teoretical and practical knowledge aboout automatic control: automatic control systems; anologies to electronic circutes; application areas
Contents of the course
Lectures General postulates of  of automatic control, response of the system; Laplace transformation; transfer functions;potentiometer, Electronic amplifier,DC generator, tachogenerator, gear reducer, differential reducer, giroscope, centrifugal regulator,DC motor, two phase asinhronous motor, selsyns; Hydraulic amplifier, pneumatic amplifier, thermometer, combined heat transfer, frequency characteristics, parameters of transient characteristics, proportional elements, Integral elements, combined elements; normal model equations, state of a system; relei systems; Impuse systems; digital systems; step motors;
Examples/ practical classes PID control of temperature, computer symulation of automatic control systems; automatic control in physics experiments.
Recommended books
1  Аутоматско управљање, Др Бошко Ћирилов, Др Александар Жикић
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Number of classes (weekly)
Lectures Examples&practicals   Student project Additional
2 2      
Teaching and learning methods  
Assessment (maximal 100)
assesed coursework mark examination mark
coursework   written examination  
practicals   oral examination  
papers      
presentations