6 ECTS credits
160 h study time
Offer 1 with catalog number 1004220BNR for all students in the 1st and 2nd semester at a (B) Bachelor - advanced level.
The course consists of two parts.
Part 1: Introduction to system theory. Describing the behaviour of linear dynamic systems (continuous time, discrete time) in the time domain and in the frequency domain. It is also shown how these descriptions can be combined with information from measurements (sampling, discrete Fourier transform, reconstruction).
Part 2: analysis (calculus with block diagrams, state equations, time response frequency response, root locus, Nyquis diagram, Bode plot) and design of feedback controllers (state feedback controllers, compensation regulators such as PD, lead, PI, lag, and PID). The course ends with a number of practical examples such as de operational amplifier, de voltageregulator, and the compact disc player; and with an introduction to digital and nonlinear control.
- Aims and objectives :
Understanding the behaviour of linear dynamic systems and verify this insight by experiments.
Knowing the basic aspects of control theory
- Exam requirements :
(1) understanding the behaviour of linear dynamic systems
(2) understanding the relations between time/frequency domain
(3) understanding the sampling process and being able to use discrete Fourier transforms
(4) understanding the basic concepts of control theory
(5) analysis and design of a feeback controller
THIS COURSE IS NOT TAUGHT IN ENGLISH
This course contributes to the following programme outcomes of the Bachelor in Engineering Sciences:
The Bachelor in Engineering Sciences has a broad fundamental knowledge and understanding of
1. scientific principles and methodology of exact sciences with the specificity of their application to engineering;
3. integrated design methods according to customer and user needs with the ability to apply and integrate knowledge and understanding of other engineering disciplines to support the own specialisation engineering one;
4. fundamental, basic methods and theories to schematize and model problems or processes.
The Bachelor in Engineering Sciences can
6. monitor, interpret and apply the results of analysis and modelling in order to bring about continuous improvement;
8. apply an horizontal broadening and vertical deepening of the discipline within a continuously changing society and industrial context, in a multi-disciplinary environment;
12. reason in a logical, abstract and critical way;
The Bachelor in Engineering Sciences has
16. a creative, problem-solving, result-driven and evidence-based attitude, aiming at innovation;
The final grade is composed based on the following categories:
Other Exam determines 100% of the final mark.
Within the Other Exam category, the following assignments need to be completed:
This offer is part of the following study plans:
Bachelor of Engineering: Electronics and Information Technology (only offered in Dutch)
Bachelor of Engineering: Electronics and Information Technology Profile Profile Computer Science (only offered in Dutch)
Bachelor of Engineering: verkort traject elektronica en informatietechnologie na vooropleiding industriële wetenschappen (only offered in Dutch)
Bachelor of Engineering: Biomedical Engineering (only offered in Dutch)
Bachelor of Physics and Astronomy: Default track (only offered in Dutch)
Master of Physics and Astronomy: Minor Economy and Business
Preparatory Programme Master of Science in Photonics Engineering: Standaard traject (only offered in Dutch)
Preparatory Programme Master of Science in Photonics Engineering: Standaard traject
Preparatory Programme Master of Science in Biomedical Engineering: Standaard traject
Preparatory Programme Master of Science in Biomedical Engineering: Bachelor en Master Bio-ingenieur
Preparatory Programme Master of Science in Biomedical Engineering: Bachelor en Master fysica & sterrenkunde
Preparatory Programme Master of Science in Biomedical Engineering: Master industriële wetenschappen
Preparatory Programme Master of Science in Biomedical Engineering: Master industr wet: biochemie
Preparatory Programme Master of Science in Biomedical Engineering: Bachelor en Master IngWet: architectuur
Preparatory Programme Master of Science in Biomedical Engineering: Bachelor en Master geneesk & biomed wet
Preparatory Programme Master of Science in Electrical Engineering: Standaard traject