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Netwerken

Netwerken. De bouwstenen van elektrische netwerken. Topologie van netwerken. Wetten van Kirchoff. Netwerken met één bron. Eén spanningsbron Eén stroombron. Ster-driehoek-transformatie Superpositiestelling. Stellingen van Thevenin en Norton. Stelsel van takstromen.

deborah-meyers
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Netwerken

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  1. Netwerken • De bouwstenen van elektrische netwerken. • Topologie van netwerken. • Wetten van Kirchoff. • Netwerken met één bron. • Eén spanningsbron • Eén stroombron. • Ster-driehoek-transformatie • Superpositiestelling. • Stellingen van Thevenin en Norton. • Stelsel van takstromen.

  2. Ster-driehoek-transformatie

  3. Ster-driehoek-transformatie

  4. Ster-driehoek-transformatie 50 + 20 + 30 = 100

  5. Ster-driehoek-transformatie

  6. Ster-driehoek-transformatie

  7. Ster-driehoek-transformatie

  8. Ster-driehoek-transformatie

  9. Ster-driehoek-transformatie

  10. Ster-driehoek-transformatie

  11. Ster-driehoek-transformatie

  12. 5  8  50 V 2  4  5  Ster-driehoek-transformatie :Oefening 1. A C B

  13. 5  8  50 V 2  4  5  Ster-driehoek-transformatie :Oefening 1. A C B 4.5 + 2.4 + 2.5 = 38 Ω²

  14. 8  9,5  50 V 19  5  7,6  Ster-driehoek-transformatie :Oefening 1. A C B 4.5 + 2.4 + 5.2 = 38 Ω²

  15. 4,343  50 V 19  3,016  Ster-driehoek-transformatie :Oefening 1.

  16. 8  9,5  50 V 19  5  7,6  I= 9,426 A I= 2,632 A I= 3,106 A I= 3,688 A I= 2,696 A I= 4,098 A Ster-driehoek-transformatie :Oefening 1. A C B

  17. 4,343  50 V 19  3,013  I= 9,426 A I= 6,794 A I= 2,632 A Ster-driehoek-transformatie :Oefening 1.

  18. I= 9,426 A I= 2,632 A I= 2,632 A I= 3,106 A I= 3,688 A I= 2,696 A I= 4,098 A Ster-driehoek-transformatie :Oefening 1. 8  9,5  50 V 19  5  7,6 

  19. 5  8  50 V 2  4  5  I= 9,426 A I= 3,688 A I= 4,098 A I= 5,738 A I= 5,328 A Ster-driehoek-transformatie :Oefening 1. A C I= 0,410 A B

  20. R=5  R=4  R=8  R=5  R=2  V= 50 V Ster-driehoek-transformatie :Oefening 2. A C B

  21. R=5  R=4  R=8  R=5  R=2  V= 50 V Ster-driehoek-transformatie :Oefening 2. A C B 2+5+8=15 Ω

  22. R=4  R=5  R=2,667  V= 50 V Ster-driehoek-transformatie :Oefening 2. A R=0,667  C R=1,067  B 2+5+8=15 Ω

  23. R=2,667  R=4,667  R=6,067  V= 50 V Ster-driehoek-transformatie :Oefening 2.

  24. R=2,667  R=2,638  V= 50 V Ster-driehoek-transformatie :Oefening 2.

  25. R=2,667  R=2,638  V= 50 V Ster-driehoek-transformatie :Oefening 2. I 25,136 V

  26. R=2,667  R=4,667  R=6,067  V= 50 V Ster-driehoek-transformatie :Oefening 2. I1 = 5,327 A I = 9,425 A 25,136 V I2 = 4,098 A

  27. R=4  R=5  R=2,667  V= 50 V Ster-driehoek-transformatie :Oefening 2. I1 = 5,327 A 3,553 V R=0,667  I = 9,425 A 25,136 V R=1,067  4,373 V I2 = 4,098 A

  28. R=4  R=5  R=2,667  V= 50 V Ster-driehoek-transformatie :Oefening 2. A I1 = 5,327 A 28,689 V 3,553 V R=0,667  C I = 9,425 A 0,820 V 25,136 V R=1,067  4,373 V 29,509 V B I2 = 4,098 A

  29. R=5  R=4  R=8  R=5  R=2  I= 5,738 A I= 4,098 A I= 3,689 A I= 5,327 A I= 0,410 A V= 50 V Ster-driehoek-transformatie :Oefening 2. A 28,689 V C 0,820 V 29,509 V B

  30. R=5  R=4  R=8  R=5  R=2  V= 50 V Ster-driehoek-transformatie :Oefening 3. A C B

  31. R=2 R=6 R=6 R=2  R=2 R=5 Ster-driehoek-transformatie :Oefening 4. V= 10 V

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