Example Problems with Transformers: Difference between revisions

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'''Kevin Starkey, Nick Christman, Aric Vyhmeister'''
'''Kevin Starkey, Nick Christman, Aric Vyhmeister'''


'''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?
'''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?
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<math> e_2 = \frac{2}{10}1200 = 240V </math>
<math> e_2 = \frac{2}{10}1200 = 240V </math>
<center>
{|
|[[Image:IdealTransformer1-nka.jpg|thumb|center|upright=2|Figure 1: Model for an ideal transformer.]]
|[[Image:IdealTransformer2-nka.jpg|thumb|center|upright=2|Figure 2: Magnetic circuit of an ideal transformer.]]
|}
</center>

Revision as of 08:45, 20 January 2010

Problems 1-3

Kevin Starkey, Nick Christman, Aric Vyhmeister


Problem 1. An ideal step down transformer has a winding of N1=10 turns and N2=2 turns. If the input voltage is 1200V, what is the resulting output voltage?

Solution Using the equation e2=N2N1e1 we get

e2=2101200=240V

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Figure 1: Model for an ideal transformer.
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Figure 2: Magnetic circuit of an ideal transformer.
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