Control Oriented Modelling of AC Actuators
Overview
Compentency | Electromagnetic modeling of AC actuators |
|---|---|
Module type | elective module |
Semester | summer |
Site | Sfax |
Language | English |
Workload | 30 hours course attendance; 70 hours tutored project |
Credits points | 4 |
Recommended qualifications | none |
Learning Outcome
After the successful participation in the course Induction Machine Modelling the students are able to:
- make the synthesis and the implementation of induction machine vector control strategies
- make the synthesis and the implementation of induction machine direct torque control strategies
- make the synthesis and the implementation of induction machine direct power control strategies
Content
- Principle of Operation: Induction Phenomenon
- Model Simplification Hypothesis
- IM A-B-C Model
- Park Transform
- IM Park Model
- Park Model-Based Analysis of the IM Steady-State Operation
Details
- Lecturer: Ahmed Masmoudi
- Teaching method: lecture, exercise
- SWS: 1
- Credit points: 2
- Examination: exam (70%); tutored project defense (30%)
Learning Outcome
After the successful participation in the course Synchronous Machine Modelling the students are able to:
- make the synthesis and the implementation of synchronous machine vector control strategies,
- make the synthesis and the implementation of synchronous machine direct torque control strategies,
- make the synthesis and the implementation of synchronous machine maximum torque per ampere control strategies
Content
- Salient Pole SM A-B-C model
- SM Park Model
- Electromagnetic Torque Formulation
- Operation at Maximum Torque
- Operation at Unity Power Factor
- Flux Weakening Operation
Details
- Lecturer: Badii Bouzidi
- Teaching method: lecture, exercise
- SWS: 1
- Credit points: 2
- Examination: exam (70%); tutored project defense (30%)