Content, progress and pedagogy of the
module
Learning objectives
Knowledge
- Be able to comprehend dynamic models of the transformer, the
synchronous machine and the induction machine
- Have knowledge about the limitations for a dynamic model of an
electrical machine
- Comprehend techniques for scalar variable-speed control of
induction machines
- Have knowledge about implementation of controllers for
variable-speed AC-drives using digital platforms
- Have knowledge about basic Finite Element Method for parameter
estimation of dynamic systems
Skills
- Independently be able to define and analyse scientific problems
involving a dynamic model of an electrical machine
- Be able to construct dynamic models for different electrical
machines and implement them in simulation software
- Be able to analyse and design scalar controllers for electrical
drives
- Be able to apply the Finite Element Method for determination of
parameters used in dynamic models
Competences
- Independently be able to define and analyse scientific problems
involving a dynamic model of an electrical machine
- Be able to construct dynamic models for different electrical
machines and implement them in simulation software
- Be able to analyse and design scalar controllers for electrical
drives
- Be able to apply the Finite Element Method for determination of
parameters used in dynamic models
Type of instruction
The course will be taught by a mixture of lectures, workshops,
exercises, mini-projects and self-study and e-learning.
Extent and expected workload
Since it is a 5 ECTS course module, the work load is expected to
be 150 hours for the student.
Exam
Exams
Name of exam | Dynamic Modelling of Electrical Machines and Control
Systems |
Type of exam | Written or oral exam |
ECTS | 5 |
Assessment | 7-point grading scale |
Type of grading | Internal examination |
Criteria of assessment | The criteria of assessment are stated in the Examination
Policies and Procedures |