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Calendar / Schedule

Calendar

The calendar below provides information on the course's lecture (L) and quiz (Q) sessions. The topics are subject to redirection according to shifting interests of the instructor and members of the class.

Course calender.
SES #	TOPICS	KEY DATES
L1	Introduction, Morphology, Field Description of Forces	Problem set 1 out
L2	Energy Conversion Principles, Forces	Problem set 2 out
L3	Synchronous Machines: Round Rotor	Problem set 1 due
L4	Machine Size, Power Density	Problem set 2 due Problem set 3 out
L5	Classical Synchronous Machine Theory	Problem set 4 out
L6	Two-Reaction Theory: Salient Pole Machines	Problem set 3 due
L7	Windings and Winding Patterns: Development of Inductance	Problem set 5 out
L8	Induction Machine: Equivalent Circuit Based Development	Problem set 4 due
L9	Induction Machine Analysis, Torque-Speed Curves	Problem set 5 due Problem set 6 out
L10	Squirrel-Cage Motors, Drives	Problem set 7 out
L11	DC Machines: Faraday's Law	Problem set 6 due
Q1	Quiz 1
L12	Loss Mechanisms: Linear Conductor and Nonlinear Iron
L13	Variable Reluctance Machine Principles	Problem set 8 out
L14	PM Synchronous Machines ("Brushless DC")	Problem set 7 due
L15	Machine Design and Synthesis System	Problem set 9 out
L16	Design Case: Surface PM Machine	Problem set 8 due
L17	Two-Reaction Theory and Coordinate Transformations	Problem set 10 out
L18	Dynamic Models of Synchronous Machines	Problem set 9 due
L19	Simulation of Electric Machine Transients	Problem set 11 out
L20	Interaction with Drives: PWM Inverters	Problem set 10 due
L21	Speed Control of Induction Motors, Reactive Control of Generators	Problem set 12 out
L22	MST Revisited: Linear Induction and Synchronous Machines	Problem set 11 due
L23	Analysis of single phase Induction Machines (Current Research)	Problem set 12 due
L24	Recap and Catch Up
Q2	Quiz 2

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Calendar / Schedule