1. Introduction
2. Skin effect
3. Symmetrical operation
4. Skin effect
5. Skin Effect Solutions
6. Proximity effect
7. Skin Effect Solutions
8. Proximity effect
9. Aw
10. Ap
11. Transformer design stages
12. Ap
13. Aw
14. Proximity effect
15. Skin Effect Solutions
16. Skin effect
17. Symmetrical operation
18. Transformer
19. Magnetization Current
20. Leakage
21. Leakage
22. Equivalent circuit (preliminary)
23. Voltages
24. Transformer voltages
25. Transformer currents
26. Magnetic Losses
27. Magnetic Losses
28. Magnetic Losses
29. Magnetic Losses
30. Magnetic Losses
31. Transformer currents
32. Transformer voltages
33. Voltages
34. Equivalent circuit (preliminary)
35. Leakage
36. Leakage
37. Magnetization Current
38. Transformer
39. Symmetrical operation
40. Skin effect
41. Skin Effect Solutions
42. Proximity effect
43. Aw
44. Ap
45. Transformer design stages
46. Inductor design
47. Transformer design stages
48. Inductor design
49. Transformer design stages
50. Inductor design
51. Permeability
52. Gaps
53. Current Crowding
54. Inductance with Gap
55. Inductance with Gap
56. Gap Calculation
57. Inductance
58. Two windings on same core
59. Saturation Limits
60. Ap
61. Saturation Limits
62. Two windings on same core
63. Inductance
64. Gap Calculation
65. Inductance with Gap
66. Inductance with Gap
67. Current Crowding
68. Gaps
69. Permeability
70. Inductor design
71. Transformer design stages
72. Inductor design
73. Transformer design stages
74. Inductor design
75. Permeability
76. Inductor design
77. Permeability
78. Gaps
79. Permeability
80. Gaps
81. Current Crowding
82. Inductance with Gap
83. Current Crowding
84. Inductance with Gap
85. Inductance with Gap
86. Inductance with Gap
87. Inductance with Gap
88. Gap Calculation
89. Inductance
90. Two windings on same core
91. Saturation Limits
92. Ap
93. Saturation Limits
94. Ap
95. Saturation Limits
96. Ap
97. Cores
98. Cores
99. Commercial cores
100. Distributed gap core
101. Commercial cores
102. Distributed gap core
