CTU FEE Moodle
Industrial computer systems
B232 - Summer 23/24
This is a grouped Moodle course. It consists of several separate courses that share learning materials, assignments, tests etc. Below you can see information about the individual courses that make up this Moodle course.
Industrial computer systems - A1B13PPS
Main course
| Credits | 5 |
| Semesters | Summer |
| Completion | Assessment + Examination |
| Language of teaching | Czech |
| Extent of teaching | 2+2L |
Annotation
The subject is focused on basic knowledges about computer control systems used in electrotechnic engineering and energetics. Students works with hardware for data acquisition and data processing, software tools and application examples. There are presented elementary digital circuits, the representation of numbers and their processing in microcomputer and fundamental block of microprocessor and microcomputer. The single chip microcomputer, embedded application, industrial PC and design to industrial condition are presented.
Study targets
Students orientatate in hardware for control and automation of technological technological processes; students try on practical excercises with logical control, with simple microprocessor and with example of SCADA system; students can orientate in influences of environment to industrial computers.
Course outlines
1. The fundamentals, the microcomputer, its fundamental blocks and functions.
2. The number representation and processing, logic variables, characters.
3. The combinative circuits, design, description, examples.
4. The sequential circuits, design, description, simplification, examples.
5. The function of microcomputer parts, buses, memory.
6. Interruption system, peripheral circuits, input-output, communication.
7. A/D, D/A converters, counters, timers and other circuits.
8. Instruction set.
9. The microcomputer programming, languages, environment, other tools.
10. The industrial computer programming, SCADA system.
11. Microprocesor development systems, microcomputer design.
12. The microcomputer environment, supply, disturbances, emissions, computer testing.
13. Industrial computers, PLC, PAC, IPC, design, environmental influences.
14. Application examples, functional safety and reliability.
2. The number representation and processing, logic variables, characters.
3. The combinative circuits, design, description, examples.
4. The sequential circuits, design, description, simplification, examples.
5. The function of microcomputer parts, buses, memory.
6. Interruption system, peripheral circuits, input-output, communication.
7. A/D, D/A converters, counters, timers and other circuits.
8. Instruction set.
9. The microcomputer programming, languages, environment, other tools.
10. The industrial computer programming, SCADA system.
11. Microprocesor development systems, microcomputer design.
12. The microcomputer environment, supply, disturbances, emissions, computer testing.
13. Industrial computers, PLC, PAC, IPC, design, environmental influences.
14. Application examples, functional safety and reliability.
Exercises outlines
1. Numerical systems and conversions.
2. Representation of negative numbers, aritmetical operations, radix point.
3. Laboratory exercise, design and implementation of combinatory circuts.
4. Laboratory exercise, design and implementation of sequential circuts.
5. Laboratory exercise, individual work. Test..
6. Laboratory exercise, work with microprocessor, development environment.
7. Laboratory exercise, work with microprocessor, input-output.
8. Laboratory exercise, work with microprocessor, A/D converter.
9. The programing of microprocessor in high-level language. Test.
10. Introduction into SCADA system.
11. Individual work with SCADA system.
12. Laboratory exercise, communication between SCADA and controlled process.
13. The examples of industrial computer solution.
14. Test, assessment.
2. Representation of negative numbers, aritmetical operations, radix point.
3. Laboratory exercise, design and implementation of combinatory circuts.
4. Laboratory exercise, design and implementation of sequential circuts.
5. Laboratory exercise, individual work. Test..
6. Laboratory exercise, work with microprocessor, development environment.
7. Laboratory exercise, work with microprocessor, input-output.
8. Laboratory exercise, work with microprocessor, A/D converter.
9. The programing of microprocessor in high-level language. Test.
10. Introduction into SCADA system.
11. Individual work with SCADA system.
12. Laboratory exercise, communication between SCADA and controlled process.
13. The examples of industrial computer solution.
14. Test, assessment.
Literature
Douša, J., Pluháček. A.: Introduction to Computer Systems. CVUT, Praha 2000
Requirements
Elaboration of laboratoty tasks.
Succesfull test results.
Succesfull test results.
Industrial computer systems - AD1B13PPS
| Credits | 5 |
| Semesters | Summer |
| Completion | Assessment + Examination |
| Language of teaching | Czech |
| Extent of teaching | 14KP+6KL |
Annotation
The subject is focused on basic knowledges about computer control systems used in electrotechnic engineering and energetics. Students works with hardware for data acquisition and data processing, software tools and application examples. There are presented elementary digital circuits, the representation of numbers and their processing in microcomputer and fundamental block of microprocessor and microcomputer. The single chip microcomputer, embedded application, industrial PC and design to industrial condition are presented.
Study targets
Students orientatate in hardware for control and automation of technological technological processes; students try on practical excercises with logical control, with simple microprocessor and with example of SCADA system; students can orientate in influences of environment to industrial computers.
Course outlines
1. The fundamentals, the microcomputer, its fundamental blocks and functions.
2. The number representation and processing, logic variables, characters.
3. The combinative circuits, design, description, examples.
4. The sequential circuits, design, description, simplification, examples.
5. The function of microcomputer parts, buses, memory.
6. Interruption system, peripheral circuits, input-output, communication.
7. A/D, D/A converters, counters, timers and other circuits.
8. Instruction set.
9. The microcomputer programming, languages, environment, other tools.
10. The industrial computer programming, SCADA system.
11. Microprocesor development systems, microcomputer design.
12. The microcomputer environment, supply, disturbances, emissions, computer testing.
13. Industrial computers, PLC, PAC, IPC, design, environmental influences.
14. Application examples, functional safety and reliability.
2. The number representation and processing, logic variables, characters.
3. The combinative circuits, design, description, examples.
4. The sequential circuits, design, description, simplification, examples.
5. The function of microcomputer parts, buses, memory.
6. Interruption system, peripheral circuits, input-output, communication.
7. A/D, D/A converters, counters, timers and other circuits.
8. Instruction set.
9. The microcomputer programming, languages, environment, other tools.
10. The industrial computer programming, SCADA system.
11. Microprocesor development systems, microcomputer design.
12. The microcomputer environment, supply, disturbances, emissions, computer testing.
13. Industrial computers, PLC, PAC, IPC, design, environmental influences.
14. Application examples, functional safety and reliability.
Exercises outlines
1. Numerical systems and conversions.
2. Representation of negative numbers, aritmetical operations, radix point.
3. Laboratory exercise, design and implementation of combinatory circuts.
4. Laboratory exercise, design and implementation of sequential circuts.
5. Laboratory exercise, individual work. Test..
6. Laboratory exercise, work with microprocessor, development environment.
7. Laboratory exercise, work with microprocessor, input-output.
8. Laboratory exercise, work with microprocessor, A/D converter.
9. The programing of microprocessor in high-level language. Test.
10. Introduction into SCADA system.
11. Individual work with SCADA system.
12. Laboratory exercise, communication between SCADA and controlled process.
13. The examples of industrial computer solution.
14. Test, assessment.
2. Representation of negative numbers, aritmetical operations, radix point.
3. Laboratory exercise, design and implementation of combinatory circuts.
4. Laboratory exercise, design and implementation of sequential circuts.
5. Laboratory exercise, individual work. Test..
6. Laboratory exercise, work with microprocessor, development environment.
7. Laboratory exercise, work with microprocessor, input-output.
8. Laboratory exercise, work with microprocessor, A/D converter.
9. The programing of microprocessor in high-level language. Test.
10. Introduction into SCADA system.
11. Individual work with SCADA system.
12. Laboratory exercise, communication between SCADA and controlled process.
13. The examples of industrial computer solution.
14. Test, assessment.
Literature
Douša, J., Pluháček. A.: Introduction to Computer Systems. CVUT, Praha 2000
Requirements
Elaboration of laboratoty tasks.
Succesfull test results.
Succesfull test results.