Under normal operation, the load impedance limits the current. During a fault, that impedance drops to almost zero. The only thing limiting the current is the transformer's own internal impedance—primarily its leakage reactance.
One or two through-faults? Probably fine. Twenty through-faults? The cumulative mechanical fatigue can loosen windings, crack insulation, and eventually lead to an internal catastrophic failure. transformer short circuit current
This is found on the nameplate. Typical values: 2% for small distribution transformers, 10-15% for large power transformers. Under normal operation, the load impedance limits the
The result? A current surge that can be the transformer’s full load current. The Physics of the Surge: Asymmetry & DC Offset If you look at a short circuit current waveform, it doesn’t look like a perfect sine wave. Initially, it’s asymmetrical. This is due to DC offset . One or two through-faults
By understanding the math, the mechanical forces, and the design strategies, you move from being a passive operator to an active guardian of your power system.