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Coursera-Introduction-to-Power-Electronics

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  2. File Size:1.75 GB
  3. Creat Time:2014-11-25
  4. Active Degree:840
  5. Last Active:2024-10-18
  6. File Tags:Coursera  Introduction  to  Power  Electronics  
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File List:

    Coursera-Introduction-to-Power-Electronics

  1. 09 - 07 - Op-amp compensator design.mp4 96.08 MB
  2. 07 - 01 - 7.1 Introduction to AC modeling.mp4 81.77 MB
  3. 08 - 02 - 8.1 Review of Bode diagrams - pole.mp4 65.46 MB
  4. 09 - 03 - 9.4.1 Stability.mp4 59.61 MB
  5. 09 - 01 - 9.1-2 Introduction.mp4 58.22 MB
  6. 07 - 04 - 7.2.5 Perturbation and linearization.mp4 56.65 MB
  7. 08 - 04 - 8.1.5 Combinations.mp4 54.21 MB
  8. 09 - 08 - 9.5.5 Another example.mp4 54.15 MB
  9. 08 - 10 - 8.3.1 Graphical construction of impedances.mp4 53.91 MB
  10. 07 - 07 - 7.5 The canonical model.mp4 53.33 MB
  11. 09 - 04 - 9.4.2 Phase margin vs. closed-loop Q.mp4 49.78 MB
  12. 09 - 05 - 9.5 Regulator design.mp4 49.10 MB
  13. 08 - 05 - 8.1.6 Second-order response - resonance.mp4 48.54 MB
  14. 09 - 06 - 9.5.4 Design example.mp4 46.18 MB
  15. 08 - 12 - 8.3.5 Graphical construction of converter transfer functions.mp4 42.42 MB
  16. 08 - 07 - 8.1.8 Analytical factoring of higher-order polynomials.mp4 42.02 MB
  17. 08 - 08 - 8.2 Analysis of converter transfer functions.mp4 41.94 MB
  18. 02 - 02 - 2.2 Volt-sec balance and sm ripple approx.mp4 39.04 MB
  19. 06 - 04 - 6.3 Transformers.mp4 36.69 MB
  20. 06 - 06 - 6.3.4 The flyback converter.mp4 36.18 MB
  21. 07 - 05 - 7.2.6-8 Construction of equivalent circuit.mp4 33.32 MB
  22. 02 - 03 - 2.3 Boost converter example.mp4 28.76 MB
  23. 09 - 02 - 9.3 Construction of closed-loop transfer functions.mp4 27.75 MB
  24. 06 - 05 - 6.3.2 The forward converter.mp4 27.30 MB
  25. 04 - 04 - 4.2.0 Introduction to power semiconductors.mp4 26.75 MB
  26. 08 - 09 - 8.2.2 Transfer functions of basic converters.mp4 25.79 MB
  27. 04 - 10 - 4.2.2.2 MOSFET gate drivers.mp4 24.25 MB
  28. 03 - 04 - 3.3 Construction of equivalent circuit model.mp4 24.23 MB
  29. 08 - 06 - 8.1.7 The low-Q approximation.mp4 23.07 MB
  30. 04 - 11 - 4.2.3 BJTs and IGBTs.mp4 22.81 MB
  31. 03 - 06 - 3.5 Example - semiconductor conduction losses in boost converter.mp4 21.29 MB
  32. 07 - 02 - 7.2.1-4 Averaged ac modeling.mp4 21.18 MB
  33. 04 - 01 - 4.1.1 Single-quadrant switches.mp4 20.30 MB
  34. 04 - 03 - 4.1.3-5 Two- and four-quadrant switches, synchronous rectifiers.mp4 20.10 MB
  35. 04 - 05 - 4.2.1.1 Diode rectifiers.mp4 18.71 MB
  36. 04 - 08 - 4.2.1.4 More about rectifiers.mp4 18.44 MB
  37. 05 - 03 - 5.3 Boost converter example.mp4 17.37 MB
  38. 04 - 09 - 4.2.2.1 Power MOSFETs.mp4 16.57 MB
  39. 01 - 01 - 1.1 Technical introduction.mp4 16.17 MB
  40. 04 - 12 - 4.3 More about switching loss.mp4 16.15 MB
  41. 03 - 03 - 3.2 Inductor copper loss.mp4 15.90 MB
  42. 03 - 01 - 3.1 The DC transformer model.mp4 15.89 MB
  43. 09 - 09 - Afterword.mp4 15.84 MB
  44. 03 - 02 - 3.1 Review of circuits with ideal transformers.mp4 15.47 MB
  45. 07 - 03 - 7.2.2 Discussion of averaging.mp4 14.91 MB
  46. 04 - 06 - 4.2.1.2 Equivalent circuit modeling of switching loss.mp4 14.59 MB
  47. 05 - 02 - 5.2 Analysis of the conversion ratio M(D,K).mp4 14.22 MB
  48. 06 - 01 - 6.1.1-2 DC-DC converter topologies.mp4 13.01 MB
  49. 05 - 01 - 5.1 Origin of DCM and mode boundary.mp4 12.75 MB
  50. 08 - 01 - 8.0 Introduction to Design-Oriented Analysis.mp4 12.17 MB
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