EE2403-SEM
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1
MEENAKSHI COLLEGE OF ENGINEERING
DEPARTMENT OF ELECTRICAL AND ELECTRONICS ENGINEERING
LESSON PLAN
Subject Name : Special Electrical Machines Subject Code : EE2403
Year : IV Semester : VII
Branch : B.E. E.E.E.
S. No.
Planned
periods
/Hrs
Unit Topic(s) Book
No. Page(s)
1. 1 1 I Constructional features T1 118-122
2. 2 1 I Types Axial and radial air gap motors
T1 118-122
3. 3 2 I Operating principle Variable Reluctance and Hybrid Motors SYNREL Motors
T1
118-122
4. 4 1 I Voltage and Torque Equations T1 122-136
5. 5 1 I Phasor diagram T1 135-137
6. 6 1 I Characteristics T1 145-147
7. 7 2 I Problems
8. 8 1 II Constructional features & Principle of operation of Variable reluctance motor
T2 71-89
9. 9 1 II
Single and multi stack configurations T2 71-89
10. 1
0 1
II Constructional features & Principle of
operation of Hybrid motor T2 71-89
11. 1
1 1
II Theory of torque predictions T2 71-89
12. 1
2 1
II Linear and non-linear analysis T2
13. 1
3 1
II Modes of excitations T2 51-64
14. 1
4 1
II Characteristics T2 93-124
15. 1
5 1
II Drive circuits. T2 126
-
2
S. No.
Planned
periods
/Hrs
Unit Topic(s) Book
No. Page(s)
16. 1
6 1
II
Microprocessor control of stepping
motors & Closed loop control T2
214-
222,
202-
226,
17. 1
7 1
II Problems
18. 1
7 1 III Constructional features & Principle of
operation Rotary and Linear SRMs R2 1-18
19. 1
8 1
III
Torque production R2 171-226
20. 1 III Steady state performance prediction- Analytical method
R2 27-77
21. 1
9 1
III
Power Converters and their controllers R2
171-
226,312
-319
22. 2
0 2
III
Methods of Rotor position sensing- R2
355-
357,
23. 2
1 1
III
Sensorless operation R2 357-382
24. 2
2 1
III
Closed loop control of SRM - R2 236-242
25. 2
3 1 III
Characteristics T1 183-185
26. 1 III Problems
27. 2
4 2
IV
Permanent Magnet materials Magnetic Characteristics Permeance coefficient
T1 34-40
28. 2
5 1
IV
Types T1 54-55
29. 2
6 1
IV
Magnetic circuit analysis T1 58
30. 2
7 1
IV
EMF and Torque equation T1 63-66
31. 2
8 1
IV
Commutation T1 70-76
32. 2
9 1
IV
Power controllers T1 65-66
33. 3
0 1
IV
Motor characteristics and Control T1
66-
68,80-
84
-
3
S. No.
Planned
periods
/Hrs
Unit Topic(s) Book
No. Page(s)
34. 3
1 1 IV
Problems
T1
35. 3
7 1
V
Principle of operation of Ideal PMSM T1 88-96
36. 3
8 1
V
EMF & Torque equation T1 88-96
37. 3
9 1
V
Armature reaction
MMF & Synchronous Reactance T1 88-96
38. 4
0 1
V
Sinewave motor with practical
windings
T1 96-100
39. 4
1 1
V
Power controllers T1
40. 4
2 1
V
Converter Volt-ampere requirements
T1 109-112
41. 4
3 1
V
Torque speed characteristics T1 103-109
42. 4
4 1
V Phasor diagram
T1 100-103
43. 4
5 1 V Problems
Text Book(s):
1. T.J.E. Miller, Brushless Permanent Magnet and Reluctance Motor Drives, Clarendon Press, Oxford, 1989.
2. T. Kenjo, Stepping Motors and Their Microprocessor Controls, Clarendon Press London, 1984.
Reference Book(s):
1. P.P. Aearnley, Stepping Motors A Guide to Motor Theory and Practice, Peter Perengrinus, London, 1982.
2. T R.Krishnan, Switched Reluctance Motor Drives Modeling, Simulation, Analysis,Design and Application, CRC Press, New York, 2001..
3. T. Kenjo and S. Nagamori, Permanent Magnet and Brushless DC Motors, Clarendon Press, London, 1988.
