Présentation
Prerequisite
- Electromagnetic induction. Single-phase Transformer.
- Mathematical Tools for Electrical and Automatic control engineering
- Mathematical Tools for Electrical and Automatic control engineering
Goal
Students are to understand the machinery of electro-mechanical energy converters, and they are to know the characteristics of electrical machines, and use these machines as a practical application of the course.
Presentation
Magnetic circuit :
- Magnetic material
- AC excitation
- Permanent magnets
Three-phase Transformer
Introduction to Electromechanical Energy Conversion Principles :
- Single excitation electromagnetic systems
- Compound excitation electromagnetic systems
Magnetomotive Force of Distributed Winding
Rotating Magnetomotive Waves in AC machines :
- Single-phase winding
- Three-phase winding
Direct Current Machines :
- Structure
- Torque. Armature reaction. Commutation
- Speed variations
- Modelling
Asynchronous three-phase Engines :
- Structure, torque. Slip
- Steady state operation
- Speed variations : scalar method
- Modelling
- Vector Control principles
Synchronous three-phase Engines :
- Synchronous Engine : torque production and power factor control
- Automatically controlled Engine
- Brushless DC Engine
- Magnetic material
- AC excitation
- Permanent magnets
Three-phase Transformer
Introduction to Electromechanical Energy Conversion Principles :
- Single excitation electromagnetic systems
- Compound excitation electromagnetic systems
Magnetomotive Force of Distributed Winding
Rotating Magnetomotive Waves in AC machines :
- Single-phase winding
- Three-phase winding
Direct Current Machines :
- Structure
- Torque. Armature reaction. Commutation
- Speed variations
- Modelling
Asynchronous three-phase Engines :
- Structure, torque. Slip
- Steady state operation
- Speed variations : scalar method
- Modelling
- Vector Control principles
Synchronous three-phase Engines :
- Synchronous Engine : torque production and power factor control
- Automatically controlled Engine
- Brushless DC Engine
Modalités
Forms of instruction
- Cours magistraux, TD
- TP
Organization
Type | Amount of time | Comment | |
---|---|---|---|
Face to face | |||
Lecture | 26,00 | ||
Lab | 16,00 | ||
Independent study | |||
Estimated personal study time | 12,00 | ||
Overall student workload | 54,00 |
Evaluation
Ressources
Bibliography
Electrotechnique à l’usage des ingénieurs - A. Fouille
tomes 1 et 2. Paris : Dunod, 1996
Electrotechnique - T. Wildi4e éd. Paris : De Boeck Université, 2005
Electrotechnique industrielle - G. Séguier, F. Notelet3e éd. Paris : : Tec&Doc Lavoisier, 2006