Ideal Transformer Example: Difference between revisions

An idea transformer has a 275-turn primary and 825-turn secondary. The primary is connected to a 200-V, 60-Hz source. The secondary supplies a load of 5 A at a lagging power factor of 0.5. Find the turns-ratio, the current in the primary, the power supplied to the load, and the flux in the core.

Solution

(A) ${\displaystyle \ {turns-ratio}={\frac {N_{1}}{N_{2}}}}$ ${\displaystyle \ ={\frac {275}{825}}}$ ${\displaystyle \ =0.333}$

(B) Because ${\displaystyle \ {I_{2}}=5A}$, the current in the primary is...

${\displaystyle \ {I_{1}}={\frac {I_{2}}{turns-ratio}}}$ ${\displaystyle \ ={\frac {5}{0.333}}}$ ${\displaystyle \ =15A}$

(C) ${\displaystyle \ {V_{2}}={\frac {V_{1}}{turns-ratio}}}$ ${\displaystyle \ ={\frac {200}{0.333}}}$ ${\displaystyle \ =600V}$

Therefore, the power supplied to the load is...

${\displaystyle \ {P_{L}}=V_{2}I_{2}\cos(\theta )}$ ${\displaystyle \ =600*5*0.5}$ ${\displaystyle \ =1500W}$

(D) ${\displaystyle \ {\phi _{m}}={\frac {E_{1}}{4.44fN_{1}}}}$ ${\displaystyle \ ={\frac {V_{1}}{4.44fN_{1}}}}$ ${\displaystyle \ ={\frac {200}{4.44*60*275}}}$ ${\displaystyle \ =2.73mWb}$