Modelling and Analysis of Electric Machines

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5 STUDENTS

Basics of magnetic circuits – Analysis of magnetic circuits with airgap and permanent magnets – Analysis of singly excited electromechanical system with linear magnetics – Nonlinear magnetics using energy and co-energy principles – Inductances of distributed windings – salient pole, cyclindrical rotor – Analysis of the doubly excited two-phase rotational system – Reference frames power invariance and non-power invariance – Derivation of dc machine systems from the generalized machine – Analysis of induction machine – synchronous reference frame – with currents as variables – with rotor flux as variables – Basis for vector control – small signal modelling of induction machine – Analysis of the alternator – synchronous reference frame – Derivation of salient and cylindrical rotor machine phasor diagrams – Three phase short circuit of alternator and various time constants

Course Curriculum

Introduction Details 39:29
Magnetic Fields Details 46:21
Magnetic Circuit Details 49:18
Singly Excited Linear Motion System Details 48:12
Linear and Cylindrical Motion Systems Details 41:17
Systems with Multiple Excitations Details 48:55
Non-linear Magnetic Systems Details 48:57
Inductances in Constant Air gap Machines Details 49:43
Inductance in Salient Pole Machine – I Details 49:39
Inductance in Salient Pole Machine – II Details 50:50
Inductance in Salient pole Machine – III Details 49:37
Inductance in Salient Pole Machine – IV Details 48:55
Inductance in Salient Pole Machine – V Details 50:43
Inductances of Distributed Winding – I Details 50:21
Inductances of Distributed Winding – II Details 50:37
Inductances of Distributed Winding – III Details 49:20
Dynamic Equations of Induction Machines Details 51:14
Dynamic Equations of Salient Pole Synchronous Machine Details 50:51
Mod-01 Lec19 Three-to-Two Phase Transformation Details 51:49
Induction Machine in Two-Phase Reference Frame Details 49:55
The Pseudo-Stationary Reference Frame Details 50:12
Induction Machine in Pseudo-Stationary Reference Frame Details 50:41
The Primitive Machine Equations Details 52:17
Dynamic Equations of DC Machines Details 50:8
Small Signal Model of DC Machine Details 48:22
Small Signal Behaviour of DC Machine Details 50:48
The Arbitrary Reference Frame Details 51:7
Induction Machine Equations in Arbitrary,Synchronous Reference Frames Details 51:29
Introduction to Field Oriented Control of Induction Machines Details 51:29
Space Vector Formulation of Induction Machine Equations Details 50:27
Modelling of Salient Pole Synchronous Machines – I Details 50:56
Modelling of Salient Pole Synchronous Machines – II Details 51:15
Modelling of Salient Pole Synchronous Machines – III Details 49:57
Steady State Models – Induction Machine Details 50:43
Steady State Models – Salient Pole Synchronous Machine Details 51:41
Solution of Dynamic Equations of Induction Machine – I Details 50:48
Solution of Dynamic Equations of Induction Machine – II Details 48:58
Reactances of Salient Pole Synchronous Machines – I Details 53:38
Reactances of Salient Pole Synchronous Machines – II Details 50:41
Reactances of Salient Pole Synchronous Machines – III Details 51:6
Suddent Short Circuit of Three Phase Alternator – Analytical Solution Details 51:42
Suddent Short Circuit of Three Phase Alternator – Numerical Simulation Details 51:49
Course Recapitulation and Assignments Details 51:56

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