Course Code : | 5031FTISEA |

Study domain: | Electronics |

Academic year: | 2019-2020 |

Semester: | 2nd semester |

Sequentiality: | The student must have been enrolled in 4-Mathematics (5002FTIWIS) |

Contact hours: | 24 |

Credits: | 3 |

Study load (hours): | 84 |

Contract restrictions: | Credit and exam contract not possible |

Language of instruction: | Dutch |

Exam period: | exam in the 2nd semester |

Lecturer(s) | Walter Daems |

At the start of this course the student should have acquired the following competences:

an active knowledge of

general notion of the basic concepts of

an active knowledge of

- Dutch

- English

- general knowledge of the use of a PC and the Internet

general notion of the basic concepts of

- Mathematics:
- Complex numbers,
- Calculus (derivatives and integrals)
- Fourier series
- Laplace transform

- Electronics/mechanics:
- Branch equations (for resistive, capacitive and inductive elements) and Kirchhoff's laws
- Solving simple electrical networks
- Newton's laws

- The student is able to analyse and model time-continuous systems with the aid of Fourier- and Laplace transformations.
- The student is able to calculate the transient response of systems.
- The student is able to draw the frequency response of systems.

We treat the different domains that allow for the analysis of a time continuous system. The focus will be on the next basic competences: setting up a transferfunction (by working with complex impedances), calculating the transient response (via inverse Laplace-transformation) and calculating the frequencie response (drawing the Bode diagramme).

Class contact teachingLectures

**5.3 Facilities for working students ***

Classroom activities

Classroom activities

- Lectures: recording available via video link on Blackboard

ExaminationWritten examination without oral presentation Open book

Systeemanalyse in 8 domeinen", Mark Van Paemel, course notes on Blackboard

walter.daems@uantwerpen.be

(Campus Groenenborger, lokaal G.U.133)