By completing the course, students have gained the knowledge about industrial information and control systems. Students know components of these systems and how to work with them. Students master the common industrial information interchange standards: flowcharts for description of processes and algorithms; process diagrams (PFD, P&ID, LD, SAMA) for description of components and instruments of industrial plants. Students have a basic knowledge of distributed control systems, SCADA systems, and advanced skills in programming of Siemens SIMATIC logic controllers, design and implementation of control algorithms for industrial applications, as well as the design of operator screens (both, for panels and Web-based). Students master the standards and rules for high-performance HMI design and safety.
Prerequisites for registration:
none
Course contents:
Recommended or required reading:
Recommended:
HOLLIFIELD, B. – HABIBI, E – OLIVER, D. – NIMMO, I. The High Performance HMI Handbook; Plant Automation Services, Inc., 2013, ISBN 9780977896950
KUPHALDT, T.R.; Lessons In Industrial Instrumentation, 2019, (publikované ako voľne dostupný text pod Creative Commons Attribution 4.0 International Public License), dostuné online (https://www.ibiblio.org/kuphaldt/socratic/sinst)
Planned learning activities and teaching methods:
Contact teaching:
lectures - 13h
laboratory practice - 39h
Contactless teaching:
preparation for lectures and laboratory practice (study of literature, calculations) - 20h
reports preparing - 20h
preparation of presentation and defence of the project - 8h
Assesment methods and criteria:
The final grade consists of an evaluation of two reports from laboratory assignments with a weight of 50% and an evaluation of final final project with a weight of 50%. The final grade is given by the Study rules of the STU. To obtain credits for the subject, the student has to reach at least 56% of the maximum number of points.