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Coursera-Introduction-to-Power-Electronics

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文件列表

  1. 09 - 07 - Op-amp compensator design.mp4 96MB
  2. 07 - 01 - 7.1 Introduction to AC modeling.mp4 82MB
  3. 08 - 02 - 8.1 Review of Bode diagrams - pole.mp4 65MB
  4. 09 - 03 - 9.4.1 Stability.mp4 60MB
  5. 09 - 01 - 9.1-2 Introduction.mp4 58MB
  6. 07 - 04 - 7.2.5 Perturbation and linearization.mp4 57MB
  7. 08 - 04 - 8.1.5 Combinations.mp4 54MB
  8. 09 - 08 - 9.5.5 Another example.mp4 54MB
  9. 08 - 10 - 8.3.1 Graphical construction of impedances.mp4 54MB
  10. 07 - 07 - 7.5 The canonical model.mp4 53MB
  11. 09 - 04 - 9.4.2 Phase margin vs. closed-loop Q.mp4 50MB
  12. 09 - 05 - 9.5 Regulator design.mp4 49MB
  13. 08 - 05 - 8.1.6 Second-order response - resonance.mp4 49MB
  14. 09 - 06 - 9.5.4 Design example.mp4 46MB
  15. 08 - 12 - 8.3.5 Graphical construction of converter transfer functions.mp4 42MB
  16. 08 - 07 - 8.1.8 Analytical factoring of higher-order polynomials.mp4 42MB
  17. 08 - 08 - 8.2 Analysis of converter transfer functions.mp4 42MB
  18. 02 - 02 - 2.2 Volt-sec balance and sm ripple approx.mp4 39MB
  19. 06 - 04 - 6.3 Transformers.mp4 37MB
  20. 06 - 06 - 6.3.4 The flyback converter.mp4 36MB
  21. 07 - 05 - 7.2.6-8 Construction of equivalent circuit.mp4 33MB
  22. 02 - 03 - 2.3 Boost converter example.mp4 29MB
  23. 09 - 02 - 9.3 Construction of closed-loop transfer functions.mp4 28MB
  24. 06 - 05 - 6.3.2 The forward converter.mp4 27MB
  25. 04 - 04 - 4.2.0 Introduction to power semiconductors.mp4 27MB
  26. 08 - 09 - 8.2.2 Transfer functions of basic converters.mp4 26MB
  27. 04 - 10 - 4.2.2.2 MOSFET gate drivers.mp4 24MB
  28. 03 - 04 - 3.3 Construction of equivalent circuit model.mp4 24MB
  29. 08 - 06 - 8.1.7 The low-Q approximation.mp4 23MB
  30. 04 - 11 - 4.2.3 BJTs and IGBTs.mp4 23MB
  31. 03 - 06 - 3.5 Example - semiconductor conduction losses in boost converter.mp4 21MB
  32. 07 - 02 - 7.2.1-4 Averaged ac modeling.mp4 21MB
  33. 04 - 01 - 4.1.1 Single-quadrant switches.mp4 20MB
  34. 04 - 03 - 4.1.3-5 Two- and four-quadrant switches, synchronous rectifiers.mp4 20MB
  35. 04 - 05 - 4.2.1.1 Diode rectifiers.mp4 19MB
  36. 04 - 08 - 4.2.1.4 More about rectifiers.mp4 18MB
  37. 05 - 03 - 5.3 Boost converter example.mp4 17MB
  38. 04 - 09 - 4.2.2.1 Power MOSFETs.mp4 17MB
  39. 01 - 01 - 1.1 Technical introduction.mp4 16MB
  40. 04 - 12 - 4.3 More about switching loss.mp4 16MB
  41. 03 - 03 - 3.2 Inductor copper loss.mp4 16MB
  42. 03 - 01 - 3.1 The DC transformer model.mp4 16MB
  43. 09 - 09 - Afterword.mp4 16MB
  44. 03 - 02 - 3.1 Review of circuits with ideal transformers.mp4 15MB
  45. 07 - 03 - 7.2.2 Discussion of averaging.mp4 15MB
  46. 04 - 06 - 4.2.1.2 Equivalent circuit modeling of switching loss.mp4 15MB
  47. 05 - 02 - 5.2 Analysis of the conversion ratio M(D,K).mp4 14MB
  48. 06 - 01 - 6.1.1-2 DC-DC converter topologies.mp4 13MB
  49. 05 - 01 - 5.1 Origin of DCM and mode boundary.mp4 13MB
  50. 08 - 01 - 8.0 Introduction to Design-Oriented Analysis.mp4 12MB
  51. 04 - 02 - 4.1.2 Current-bidirectional switches.mp4 12MB
  52. 02 - 01 - 2.1 Introduction.mp4 11MB
  53. 02 - 04 - 2.4-5 Addtl topics.mp4 11MB
  54. 04 - 07 - 4.2.1.3 Boost converter example.mp4 10MB
  55. 03 - 05 - 3.4 How to obtain the input port of the model.mp4 10MB
  56. 07 - 06 - 7.6 Modeling the pulse-width modulator.mp4 10MB
  57. 06 - 02 - 6.1.4 How to synthesize an inverter.mp4 9MB
  58. 01 - 02 - 1.2 Preliminaries and grading.mp4 9MB
  59. 08 - 03 - 8.1.2 Other basic terms.mp4 8MB
  60. 06 - 03 - 6.2 A short list of nonisolated converters.mp4 7MB
  61. 07 - 08 - 7.3 State-space averaging.mp4 7MB
  62. 01 - 03 - 1.3 What will be covered.mp4 5MB
  63. slides/Section 9.5.5.pdf 2MB
  64. slides/Section 2.4-5.pdf 1MB
  65. slides/Section 7.3.pdf 1MB
  66. slides/Section 9.4.1.pdf 1MB
  67. slides/Op-amp compensator design.pdf 887KB
  68. slides/Section 8.1.6.pdf 734KB
  69. slides/Section 8.3.5.pdf 580KB
  70. slides/Section 7.2.2.pdf 538KB
  71. slides/Section 7.1.pdf 527KB
  72. slides/Section 7.5.pdf 521KB
  73. slides/Section 9.5.4.pdf 495KB
  74. slides/Section 7.6.pdf 448KB
  75. slides/Section 4.2.1.1.pdf 441KB
  76. slides/Section 9.1.pdf 415KB
  77. slides/Section 1.1.pdf 404KB
  78. slides/Section 4.2.1.2.pdf 364KB
  79. slides/Section 4.2.1.4.pdf 341KB
  80. slides/Section 8.1.8.pdf 334KB
  81. slides/Section 8.3.3.pdf 330KB
  82. slides/Section 8.1.1.pdf 304KB
  83. slides/Section 7.2.5.pdf 274KB
  84. slides/Section 8.2.pdf 272KB
  85. slides/Section 7.2.6.pdf 270KB
  86. slides/Section 5.3.pdf 251KB
  87. slides/Section 9.5.pdf 235KB
  88. slides/Section 4.2.1.3.pdf 234KB
  89. slides/Section 9.4.2.pdf 224KB
  90. slides/MOSFET drivers.pdf 224KB
  91. slides/Section 4.2.3.pdf 214KB
  92. slides/Section 8.1.7.pdf 204KB
  93. slides/Section 9.3.pdf 199KB
  94. slides/Section 1.3.pdf 197KB
  95. slides/Section 8.3.1.pdf 196KB
  96. slides/Section 5.1.pdf 196KB
  97. slides/Section 5.2.pdf 195KB
  98. slides/Section 8.1.5.pdf 183KB
  99. slides/Section 8.1.2.pdf 182KB
  100. slides/Section 6.3.2.pdf 182KB
  101. slides/Section 4.2.2.1.pdf 179KB
  102. slides/Section 8.0.pdf 177KB
  103. slides/Section 4.1.1.pdf 165KB
  104. slides/Section 2.2.pdf 164KB
  105. slides/Section 8.2.2.pdf 161KB
  106. slides/Section 6.1.1.pdf 157KB
  107. slides/Section 6.1.4.pdf 152KB
  108. slides/Section 2.3.pdf 151KB
  109. slides/Section 3.5.pdf 143KB
  110. slides/Section 3.3.pdf 142KB
  111. slides/Section 4.1.3-5.pdf 139KB
  112. slides/Section 6.3.4.pdf 132KB
  113. slides/Section 4.1.2.pdf 123KB
  114. slides/Section 6.2.pdf 117KB
  115. slides/Section 3.2.pdf 113KB
  116. slides/Section 6.3.0.pdf 113KB
  117. slides/Section 3.1.pdf 101KB
  118. slides/Section 2.1.pdf 100KB
  119. slides/Section 3.4.pdf 94KB
  120. slides/Section 1.2.pdf 82KB
  121. slides/Section 4.3.pdf 76KB
  122. 07 - 01 - 7.1 Introduction to AC modeling.srt 36KB
  123. 04 - 04 - 4.2.0 Introduction to power semiconductors.srt 36KB
  124. 06 - 05 - 6.3.2 The forward converter.srt 35KB
  125. 02 - 02 - 2.2 Volt-sec balance and sm ripple approx.srt 33KB
  126. slides/Section 7.2.1.pdf 31KB
  127. 04 - 11 - 4.2.3 BJTs and IGBTs.srt 31KB
  128. 09 - 07 - Op-amp compensator design.srt 30KB
  129. 04 - 10 - 4.2.2.2 MOSFET gate drivers.srt 30KB
  130. 08 - 02 - 8.1 Review of Bode diagrams - pole.srt 28KB
  131. 04 - 01 - 4.1.1 Single-quadrant switches.srt 27KB
  132. 02 - 03 - 2.3 Boost converter example.srt 27KB
  133. 03 - 06 - 3.5 Example - semiconductor conduction losses in boost converter.srt 26KB
  134. 09 - 01 - 9.1-2 Introduction.srt 26KB
  135. 04 - 08 - 4.2.1.4 More about rectifiers.srt 26KB
  136. 04 - 05 - 4.2.1.1 Diode rectifiers.srt 25KB
  137. 09 - 03 - 9.4.1 Stability.srt 25KB
  138. 09 - 04 - 9.4.2 Phase margin vs. closed-loop Q.srt 25KB
  139. 05 - 03 - 5.3 Boost converter example.srt 24KB
  140. 07 - 07 - 7.5 The canonical model.srt 24KB
  141. 04 - 09 - 4.2.2.1 Power MOSFETs.srt 23KB
  142. 03 - 04 - 3.3 Construction of equivalent circuit model.srt 23KB
  143. 09 - 05 - 9.5 Regulator design.srt 23KB
  144. 09 - 08 - 9.5.5 Another example.srt 22KB
  145. 08 - 04 - 8.1.5 Combinations.srt 22KB
  146. 04 - 03 - 4.1.3-5 Two- and four-quadrant switches, synchronous rectifiers.srt 21KB
  147. 01 - 01 - 1.1 Technical introduction.srt 21KB
  148. 08 - 05 - 8.1.6 Second-order response - resonance.srt 21KB
  149. 08 - 10 - 8.3.1 Graphical construction of impedances.srt 20KB
  150. 03 - 01 - 3.1 The DC transformer model.srt 20KB
  151. 08 - 07 - 8.1.8 Analytical factoring of higher-order polynomials.srt 20KB
  152. 09 - 06 - 9.5.4 Design example.srt 20KB
  153. 05 - 02 - 5.2 Analysis of the conversion ratio M(D,K).srt 19KB
  154. 04 - 06 - 4.2.1.2 Equivalent circuit modeling of switching loss.srt 19KB
  155. 06 - 01 - 6.1.1-2 DC-DC converter topologies.srt 19KB
  156. 08 - 01 - 8.0 Introduction to Design-Oriented Analysis.srt 19KB
  157. 07 - 04 - 7.2.5 Perturbation and linearization.srt 19KB
  158. 08 - 08 - 8.2 Analysis of converter transfer functions.srt 19KB
  159. 07 - 03 - 7.2.2 Discussion of averaging.srt 19KB
  160. 05 - 01 - 5.1 Origin of DCM and mode boundary.srt 18KB
  161. 06 - 06 - 6.3.4 The flyback converter.srt 18KB
  162. 08 - 11 - 8.3.3 Graphical construction of parallel and more complex impedances.srt 17KB
  163. 06 - 04 - 6.3 Transformers.srt 16KB
  164. 03 - 03 - 3.2 Inductor copper loss.srt 15KB
  165. 04 - 02 - 4.1.2 Current-bidirectional switches.srt 15KB
  166. 07 - 05 - 7.2.6-8 Construction of equivalent circuit.srt 14KB
  167. 02 - 04 - 2.4-5 Addtl topics.srt 13KB
  168. 04 - 07 - 4.2.1.3 Boost converter example.srt 13KB
  169. 08 - 09 - 8.2.2 Transfer functions of basic converters.srt 13KB
  170. 06 - 02 - 6.1.4 How to synthesize an inverter.srt 13KB
  171. 07 - 06 - 7.6 Modeling the pulse-width modulator.srt 12KB
  172. 09 - 02 - 9.3 Construction of closed-loop transfer functions.srt 12KB
  173. 03 - 05 - 3.4 How to obtain the input port of the model.srt 12KB
  174. 03 - 02 - 3.1 Review of circuits with ideal transformers.srt 11KB
  175. 08 - 06 - 8.1.7 The low-Q approximation.srt 11KB
  176. 07 - 02 - 7.2.1-4 Averaged ac modeling.srt 10KB
  177. 02 - 01 - 2.1 Introduction.srt 10KB
  178. 06 - 03 - 6.2 A short list of nonisolated converters.srt 10KB
  179. 08 - 03 - 8.1.2 Other basic terms.srt 10KB
  180. 01 - 02 - 1.2 Preliminaries and grading.srt 8KB
  181. 04 - 12 - 4.3 More about switching loss.srt 8KB
  182. 09 - 09 - Afterword.srt 7KB
  183. 01 - 03 - 1.3 What will be covered.srt 5KB
  184. 07 - 08 - 7.3 State-space averaging.srt 3KB