Example Problems with Transformers: Difference between revisions

Revision as of 16:34, 26 January 2010

Problems 1-3

Kevin Starkey, Nick Christman, Aric Vyhmeister

Problem 1. An ideal step down transformer has a winding of $N_{1}=10{\text{ turns and }}N_{2}=2$ turns. If the input voltage is 1200V, what is the resulting output voltage?

Solution

By modifying equation 5-39 (Mohan 5-22) we can obtain an equation for the output voltage. That is,

$e_{2}={\frac {N_{2}}{N_{1}}}e_{1}$ .

With the information above we can now determine the output voltage:

$e_{2}={\frac {2}{10}}1200=240V$

Figure 1: Model for an ideal transformer.

Figure 2: Magnetic circuit of an ideal transformer.

@@ Line 6: / Line 6: @@
 '''Problem 1.''' An ''ideal'' step down transformer has a winding of <math> N_1 = 10 \text{ turns and } N_2 = 2 </math> turns. If the input voltage is 1200V, what is the resulting output voltage?
+'''Solution'''
-'''Solution''' Using the equation <math> e_2 = \frac{N_2}{N_1}e_1 </math> we get <br>
+By modifying equation 5-39 (Mohan 5-22) we can obtain an equation for the output voltage. That is,
-<math> e_2 = \frac{2}{10}1200 = 240V </math>
+<br/>
+<div style="text-align:center">
+<math> e_2 = \frac{N_2}{N_1}e_1 </math>.
+</div>
+<br/>
+With the information above we can now determine the output voltage:
+<br/>
+<div style="text-align:center">
+<math>  e_2 = \frac{2}{10}1200 = 240V </math>
+</div>
 <center>

Example Problems with Transformers: Difference between revisions

Revision as of 16:34, 26 January 2010

Problems 1-3

Navigation menu

Search