EE743 Lectures

Lecture	Topic
Description	Description of the Course
Lecture #1	Dynamic Systems
Lecture #2	Numerical Solution of Differential Equations
Lecture #3	Magnetic Circuits
Lecture #4	Electromechanical Energy Conversion
Lecture #5	Electromagnetic Force and Torque
Lecture #6	Single-Phase Reluctance Machine
Lecture #7	Direct Current (DC) Machines - Part I
Lecture #8	Direct Current (DC) Machines - Part II
Lecture #9	Direct Current (DC) Machines - Part III
Lecture #10	AC Machines Part I
Lecture #11	AC Machines Part II
Lecture #12	AC Machines: Reluctance machines - Induction machines
Lecture #13	Two-Phase Induction Machines Part I
Lecture #14	Two-Phase Induction Machines Part II
Lecture #15	Two-Phase Induction Machines Part III
Lecture #16	Two-Phase Induction Machines Part IV
Lecture #17	Two-Phase Induction Machines Part V
Lecture #18	Two-Phase Induction Machines Part VI
Lecture #19	Two-Phase Induction Machines: Reference Frame Theory
Lecture #20	Two-Phase Induction Machines Part VII
Lecture #21	Three-Phase Induction Machines: Steady-State Model
Lecture #22	Three-Phase Induction Machines: Steady-State Model & Equivalent Circuit
Lecture #23	Three-Phase Induction Machines: Performance Calculation
Lecture #24	Three-Phase Induction Machines: Torque Speed Characteristics
Lecture #25	PWM Techniques
Lecture #26	Three-Phase IM: Reference Frame Theory – Part I
Lecture #27	Three-Phase IM: Reference Frame Theory – Part II
Lecture #28	Three-Phase IM: Reference Frame Theory – Part III
Lecture #29	Three-Phase IM: Reference Frame Theory – Part IV
Lecture #30	Three-Phase IM: Summary of Dynamic Equations