Transformer example problem: Difference between revisions
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<math>\frac{480 \ volts}{120 \ volts} = \frac{300}{N_2}</math> |
<math>\frac{480 \ volts}{120 \ volts} = \frac{300 turns}{N_2}</math> |
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<math> i_2 = \frac{120 \ volts}{100 \ |
<math> i_2 = \frac{120 \ volts}{100 \ Omega} \Rightarrow i_2 = 1.2 \ amps </math> |
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====Part C:==== |
====Part C:==== |
Revision as of 20:24, 17 January 2010
Problem:
An ideal transformer with a 300 turn primary connected to a 480 V, 60 Hz supply line is to output 120 V from the secondary. If a 100 Ω resistor is connected across the secondary, determine: A) How many turns the secondary must have. B) The current through the resistor, C)The current drawn through the primary.
Solution:
Part A:
Where Voltage across primary,
Voltage across secondary,
Number of turns in primary,
Number of turns in secondary
Part B:
The voltage across the secondary is given in the problem statement as 120 volts. Using ohms law, , we can solve for the current.
Where Current through secondary,
Voltage across secondary,
Load Resistor (R_L = 100 Ω)