martin manning wrote:I'm a big fan of the neon bulb test too, for OT's anyway. I find I can short the filament winding on a known-good PT and still get a flash, whereas shorting part of the secondary on a good OT will result in no flash.
Good to know. There's always some point where the volts per turn on a high voltage winding will still get a flash. The nature of transformers is that the volts-per-turn is proportional to the rate of change of the magnetic field. Every turn has the same voltage across it when the field changes, and the way you get more volts is to get more turns.
For a single shorted turn, the voltage goes to something as the M-field collapses, even if only from wire resistance. In a coupled high voltage winding, N times the voltage on one turn may be enough to flip over the neon, which is a fixed voltage.
I suspect this could be completely circumvented by always connecting the neon across the lowest voltage (or a low-voltage) winding. That prevents the N-times-a-small voltage from getting you a flash on high turns ratio transformers. A short on a single turn or even a layer in the high voltage winding will keep the low voltage winding from exceeding the trip voltage of the neon.
... and as I typed this, I came up with an other scenario for getting flashes from shorted low voltage windings when measuring on a high voltage winding. Leakage inductance, especially in a power transformer.
OTs will be specifically designed for low leakage inductance, PTs mostly ignore leakage, and may be deliberately designed for high leakage, as in the side-by-side bobbin winds.
A leakage inductance is by definition an inductance that does not couple through the core to other windings. So loading up current into a high voltage winding in a trannie with significant leakage also loads up the leakage inductance. A shorted low-voltage winding can only inhibit flux change in the iron, but can have no effect on the leakage flux, which can be enough to cause a flash on its own.
The neon bulb flash brightness does have imbedded in it the amount of energy delivered to the bulb, but the simple version of the test only looks at did it flash, not how bright and how long was the flash.
The more I think about this, the more I think that leakage may be the culprit. The answer for the simple tester is to test the lowest voltage winding that's practical. That ought to do it, I think. Leakage inductance, like primary inductance, goes up as the square of the number of turns, so a lower voltage winding dramatically reduces it.
) that there was an issue identifying the windings. 
