Assuming there are no losses, use the transformation ratio, it can be the number of turns, volt, current, etc.... of the primary relative to secondary, assuming there are no loses.
As say "Ideal", assume there are no losses!
Fill in the five fields to compute an ideal transformer.
NOTE:If the K (Coupling Coefficient) value is less than 1, fill in the secondary current field with the desired value divided by K.
| N(1) | Primary in current, laps, volt, etc... |
| N(2) | Secondary in current, laps, volt, etc... |
| Ratio | Transformer ratio |
| Frequency | |
| Primary RMS | |
| Secondary RMS | |
| Secodary Current RMS | |
| Coupling Coefficient | |
| Ratio | |
| Primary Current RMS | |
| Primary Inductance | |
| Secondary Inductance | |
| Primary Vp | |
| Secondary Vp | |
| Mutual Inductance | |
