Modeling and Analysis of Electric Machines. Instructor: Dr. Krishna Vasudevan, Department of Electrical Engineering, IIT Madras.
FREE
This course includes
Hours of videos
1194 years, 3 months
Units & Quizzes
43
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Certificate of Completion
This course deals with the development of mathematical models for electrical machines, suitable for transient analysis of machine performance. The course covers the following topics: Basics of magnetic circuits; Analysis of magnetic circuits with air gap and permanent magnets; Analysis of singly excited electromechanical system with linear magnetics; Inductances of distributed windings; Reference frames; Derivation of dc machine systems from the generalized machine; Analysis of induction machine; and Analysis of the alternator. (from nptel.ac.in)
Course Currilcum
- Lecture 01 – Introduction Unlimited
- Lecture 02 – Magnetic Fields Unlimited
- Lecture 03 – Magnetic Circuit Unlimited
- Lecture 04 – Singly Excited Linear Motion System Unlimited
- Lecture 05 – Linear and Cylindrical Motion Systems Unlimited
- Lecture 06 – Systems with Multiple Excitations Unlimited
- Lecture 07 – Nonlinear Magnetic Systems Unlimited
- Lecture 08 – Inductances in Constant Air Gap Machines Unlimited
- Lecture 09 – Inductance in Salient Pole Machine I Unlimited
- Lecture 10 – Inductance in Salient Pole Machine II Unlimited
- Lecture 11 – Inductance in Salient Pole Machine III Unlimited
- Lecture 12 – Inductance in Salient Pole Machine IV Unlimited
- Lecture 13 – Inductance in Salient Pole Machine V Unlimited
- Lecture 14 – Inductances of Distributed Winding I Unlimited
- Lecture 15 – Inductances of Distributed Winding II Unlimited
- Lecture 16 – Inductances of Distributed Winding III Unlimited
- Lecture 17 – Dynamic Equations of Induction Machines Unlimited
- Lecture 18 – Dynamic Equations of Salient Pole Synchronous Machine Unlimited
- Lecture 19 – Three-to-Two Phase Transformation Unlimited
- Lecture 20 – Induction Machine in Two Phase Reference Frame Unlimited
- Lecture 21 – The Pseudo-stationary Reference Frame Unlimited
- Lecture 22 – Induction Machine in Pseudo-stationary Reference Frame Unlimited
- Lecture 23 – The Primitive Machine Equations Unlimited
- Lecture 24 – Dynamic Equations of DC Machines Unlimited
- Lecture 25 – Small Signal Model of DC Machine Unlimited
- Lecture 26 – Small Signal Behaviour of DC Machine Unlimited
- Lecture 27 – The Arbitrary Reference Frame Unlimited
- Lecture 28 – Induction Machine Equations in Arbitrary, Synchronous Reference Frames and … Unlimited
- Lecture 29 – Induction to Field Oriented Control of Induction Machines Unlimited
- Lecture 30 – Space Vector Formulation of Induction Machine Equations Unlimited
- Lecture 31 – Modelling of Salient Pole Synchronous Machines I Unlimited
- Lecture 32 – Modelling of Salient Pole Synchronous Machines II Unlimited
- Lecture 33 – Modelling of Salient Pole Synchronous Machines III Unlimited
- Lecture 34 – Steady State Models – Induction Machine Unlimited
- Lecture 35 – Steady State Models – Salient Pole Synchronous Machine Unlimited
- Lecture 36 – Solution of Dynamic Equations of Induction Machine I Unlimited
- Lecture 37 – Solution of Dynamic Equations of Induction Machine II Unlimited
- Lecture 38 – Reactances of Salient Pole Synchronous Machines I Unlimited
- Lecture 39 – Reactances of Salient Pole Synchronous Machines II Unlimited
- Lecture 40 – Reactances of Salient Pole Synchronous Machines III Unlimited
- Lecture 41 – Sudden Short Circuit of Three Phase Alternator – Analytical Solution Unlimited
- Lecture 42 – Sudden Short Circuit of Three Phase Alternator – Numerical Simulation Unlimited
- Lecture 43 – Course Recapitulation and Assignments Unlimited
