An Ideal Transformer Example: Difference between revisions
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* The combined load on winding 2 is <math>\ {Z_{L}}=(5+j3)\Omega</math> |
* The combined load on winding 2 is <math>\ {Z_{L}}=(5+j3)\Omega</math> |
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===Solution=== |
===Solution=== |
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Given: |
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<math>\ {e_{1}}(t)={V_{1}}\cos(\omega t)</math> |
<math>\ {e_{1}}(t)={V_{1}}\cos(\omega t)</math> and <math>\ \omega=2\pi f</math> |
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<math>\ |
Substituting <math>\ f = 60Hz</math>, <math>\ \omega=120\pi</math> |
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Therefore, <math>\ {e_{1}}(t)=120\sqrt{2}\cos(120\pi t)V</math> |
Therefore, <math>\ {e_{1}}(t)=120\sqrt{2}\cos(120\pi t)V</math> |
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<math>{Z_{th}} = \frac{e_{1}}{i_{1}}</math> |
<math>{Z_{th}} = \frac{e_{1}}{i_{1}}</math> |
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<math>= |
Since this is an ideal transformer <math>{e_{1}}=\frac{N_{1}}{N_{2}}{e_{2}}</math> and <math>{i_{1}}=\frac{N_{2}}{N_{1}}{i_{2}}</math> |
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<math>= |
So we can substitute, <math>{Z_{th}}=\frac{\frac{N_{1}}{N_{2}}{e_{2}}}{\frac{N_{2}}{N_{1}}{i_{2}}}</math> |
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Now, substituting: |
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Now, plugging in the given values: |
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<math>\ {Z_{th}} = 3^2(5+j3)</math> |
<math>\ {Z_{th}} = 3^2(5+j3)</math> |
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<math>\ =(45+j27)\Omega</math> |
<math>\ =(45+j27)\Omega</math> |
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Since this is an ideal transformer, it can be modeled by this simple circuit: |
Since this is an ideal transformer, it can be modeled by this simple circuit: |
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[[Image: Ideal_Circuit.jpg]] |
[[Image: Ideal_Circuit.jpg]] |
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Therefore, <math>{i_{1}}=\frac{e_{1}}{Z_{th}}</math>, |
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===Contributors=== |
===Contributors=== |
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===Reviwed By=== |
===Reviwed By=== |
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Andrew Sell - Chris, everything looks fine, though I would do some extra formatting if possible to help make the problem flow a little smoother as you read it. |
Andrew Sell - Chris, everything looks fine, though I would do some extra formatting if possible to help make the problem flow a little smoother as you read it, and locate the picture a little higher to help bring the solution together. |
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Tyler Anderson - Looks good. |
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===Read By=== |
===Read By=== |
Latest revision as of 17:34, 24 January 2010
Consider a simple, transformer with two windings. Find the current provided by the voltage source.
- Winding 1 has a sinusoidal voltage of ° applied to it at a frequency of 60Hz.
- The combined load on winding 2 is
Solution
Given: and
Substituting ,
Therefore,
Now the Thevenin equivalent impedance, , is found through the following steps:
Since this is an ideal transformer and
So we can substitute,
Now, plugging in the given values:
Since this is an ideal transformer, it can be modeled by this simple circuit:
Therefore, ,
Contributors
Reviwed By
Andrew Sell - Chris, everything looks fine, though I would do some extra formatting if possible to help make the problem flow a little smoother as you read it, and locate the picture a little higher to help bring the solution together.
Tyler Anderson - Looks good.
Read By
John Hawkins