Ideal Transformer Example: Difference between revisions
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An idea transformer has a |
An idea transformer has a 275-turn primary and 825-turn secondary. The primary is connected to a 200-V, 60-Hz source. The secondary supplies a load of 5 A at a lagging power factor of 0.5. Find the turns-ratio, the current in the primary, the power supplied to the load, and the flux in the core. |
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===Solution=== |
===Solution=== |
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(A) <math>\ {turns-ratio}=\frac{N_{1}}{N_{2}}</math> |
(A) <math>\ {turns-ratio}=\frac{N_{1}}{N_{2}}</math> |
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<math>\ =\frac{ |
<math>\ =\frac{275}{825}</math> |
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<math>\ =0. |
<math>\ =0.333</math> |
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(B) Because <math>\ {I_{2}}= |
(B) Because <math>\ {I_{2}}=5 A</math>, the current in the primary is... |
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<math>\ {I_{1}}=\frac{I_{2}}{turns-ratio}</math> |
<math>\ {I_{1}}=\frac{I_{2}}{turns-ratio}</math> |
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<math>\ =\frac{ |
<math>\ =\frac{5}{0.333}</math> |
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<math>\ = |
<math>\ =15 A</math> |
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(C) <math>\ {V_{2}}=\frac{V_{1}}{turns-ratio}</math> |
(C) <math>\ {V_{2}}=\frac{V_{1}}{turns-ratio}</math> |
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<math>\ =\frac{ |
<math>\ =\frac{200}{0.333}</math> |
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<math>\ = |
<math>\ =600 V</math> |
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<math>\ {P_{L}}=V_{2} I_{2}\cos(\theta)</math> |
<math>\ {P_{L}}=V_{2} I_{2}\cos(\theta)</math> |
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<math>\ = |
<math>\ =600 * 5 * 0.5</math> |
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<math>\ = |
<math>\ =1500 W</math> |
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(D) <math>\ {\phi_{m}}=\frac{E_{1}}{4.44 f N_{1}}</math> |
(D) <math>\ {\phi_{m}}=\frac{E_{1}}{4.44 f N_{1}}</math> |
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<math>\ =\frac{V_{1}}{4.44 f N_{1}}</math> |
<math>\ =\frac{V_{1}}{4.44 f N_{1}}</math> |
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<math>\ =\frac{ |
<math>\ =\frac{200}{4.44 * 60 * 275}</math> |
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<math>\ = |
<math>\ =2.73 mWb</math> |
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==Author== |
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[[Kyle Lafferty]] |
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==Reviewers== |
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Aric Vyhmeister |
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Erik Biesenthal |
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==Readers== |
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Aric Vyhmeister |
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Erik Biesenthal |
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John Hawkins |
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Tyler Anderson |
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==Comments== |
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The way to do capital phi, <math>\ \Phi</math>, for the flux is to capitalize the first letter of the word, i.e. \Phi instead of \phi. And if you want a space between the number and the units, space is \(space), as in "\ ". |
Latest revision as of 12:38, 22 January 2010
An idea transformer has a 275-turn primary and 825-turn secondary. The primary is connected to a 200-V, 60-Hz source. The secondary supplies a load of 5 A at a lagging power factor of 0.5. Find the turns-ratio, the current in the primary, the power supplied to the load, and the flux in the core.
Solution
(A)
(B) Because , the current in the primary is...
(C)
Therefore, the power supplied to the load is...
(D)
Author
Reviewers
Aric Vyhmeister
Erik Biesenthal
Readers
Aric Vyhmeister
Erik Biesenthal
John Hawkins
Tyler Anderson
Comments
The way to do capital phi, , for the flux is to capitalize the first letter of the word, i.e. \Phi instead of \phi. And if you want a space between the number and the units, space is \(space), as in "\ ".