An Ideal Transformer Example: Difference between revisions

Consider a simple, transformer with two windings. Find the current provided by the voltage source.

• Winding 1 has a sinusoidal voltage of ${\displaystyle 120{\sqrt {2}}\angle {0}}$° applied to it at a frequency of 60Hz.
• ${\displaystyle {\frac {N_{1}}{N_{2}}}=3}$
• The combined load on winding 2 is ${\displaystyle {Z_{L}}=(5+j3)\Omega }$

Solution

${\displaystyle {e_{1}}(t)={V_{1}}\cos(\omega t)}$

${\displaystyle \omega =2\pi f}$, so ${\displaystyle \omega =120\pi }$

Therefore, ${\displaystyle {e_{1}}(t)={V_{1}}\cos(120\pi t)}$

Now the Thevenin equivalent impedance, ${\displaystyle {Z_{th}}}$, is found through the following steps:

${\displaystyle {Z_{th}}={\frac {e_{1}}{i_{1}}}}$

${\displaystyle ={\frac {{\frac {N_{1}}{N_{2}}}{e_{2}}}{{\frac {N_{2}}{N_{1}}}{i_{2}}}}}$

${\displaystyle =({\frac {N_{1}}{N_{2}}})^{2}{R_{L}}}$

Now, substituting:

${\displaystyle {Z_{th}}=3^{2}(5+j3)}$

${\displaystyle =(45+j27)\Omega }$