Electrical Machines: Complete Induction machines Course
Hi friends ! ______ Update ______ 6/2/2022 Two new sections were added (Tests on Induction Motors) and (Induction Generators) ______ Update ______ 5/3/2022 Three new sections were added (MATLAB Simulations of 3-ph Induction Motors), (MATLAB Simulations of Induction Motors Tests), and (MATLAB …
Hi friends !
______ Update ______ 6/2/2022
Two new sections were added (Tests on Induction Motors) and (Induction Generators)
______ Update ______ 5/3/2022
Three new sections were added (MATLAB Simulations of 3-ph Induction Motors), (MATLAB Simulations of Induction Motors Tests), and (MATLAB Simulations of Induction Generators).
Furthermore, this course provides an exhaustive exploration and in-depth guide to induction machines, encompassing both 3-phase and 1-phase induction motors, alongside comprehensive insights into induction generators.
The course will go into detail for the following key topics :-
- Begin by exploring induction motor construction in detail.
- Next, observe the operation and rotation of a three-phase induction motor.
- Following that, discover how to derive the motor’s equivalent circuit.
- Move on to learning how electrical power transforms into mechanical power via a power flow diagram.
- Thoroughly understand torque-speed characteristics.
- Study various induction motor starting methods, examining their pros, cons, and applications.
- Explore the industrial implementation of a Direct-On-Line (DOL) starter.
- Additionally, understand the implementation of Star/Delta starters.
- Progressively learn the Auto-Transformer starting technique.
- Further, explore the Soft starter starting method.
- Delve into the operation and implementation of rotor resistance starters.
- Discover how to choose the right starting method for any motor.
- Move on to exploring methods to control induction motor speed, considering their pros, cons, and applications.
- Study stator voltage speed control.
- Additionally, explore supply frequency speed control.
- Understand Voltage/Frequency (V/F) speed control.
- Realize the concept of a Variable Frequency Drive (VFD).
- Understand how a Variable Frequency Drive operates.
- Progress to exploring rotor resistance speed control.
- Additionally, understand the slip energy recovery concept.
- Observe the construction and operation of single-phase induction motors.
- Understand why single-phase induction motors aren’t self-starting.
- Learn various starting methods, including split-phase and capacitor start induction motors.
- Compare different types of single-phase induction motors.
- Discover various types of single-phase induction generators.
- Understand the operation of grid-connected induction generators.
- Explore the operation of self-excited induction generators.
- Study the operation of Doubly Fed Induction Generators (DFIG).
- Progress to conducting complete MATLAB simulations for induction motors.
- Explore speed control methods using MATLAB/Simulink.
- Additionally, understand starting methods using MATLAB/Simulink.
- Conclude by conducting complete MATLAB simulations for induction generators.
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- simple prior knowledge of Electrical circuits
- The passion to learn every thing about Induction machines from A to Z
- Any one want to get a complete knowledge about Induction motors and generators
- Electrical Engineering Undergraduates
- Any one work in the field of industry and deals with different types of induction machines
- Anyone interested in electrical machines