Transformer VA?
idbruce
Posts: 6,197
Hello Everyone
I recently salvaged an unmarked multi-tap transformer from a Harmon Kardon FM tuner. The primary is 120V and there are three secondaries. One of the secondaries is 7.5V, while the other two are 29.5V being center tapped. The 7.5V secondary has a 3A fuse, so I am assuming that it can handle at least that amount of current. As for both of the 29.5V leads, neither one of them has a fuse to indicate what kind of current they can handle.
Is there any possible way to determine the VA ratings of this transformer using Ohm's Law?
Bruce
I recently salvaged an unmarked multi-tap transformer from a Harmon Kardon FM tuner. The primary is 120V and there are three secondaries. One of the secondaries is 7.5V, while the other two are 29.5V being center tapped. The 7.5V secondary has a 3A fuse, so I am assuming that it can handle at least that amount of current. As for both of the 29.5V leads, neither one of them has a fuse to indicate what kind of current they can handle.
Is there any possible way to determine the VA ratings of this transformer using Ohm's Law?
Bruce
Comments
The only way to determine the rating is to put variable loads on it and see when it starts getting hot. It can be estimated from the core size.
I know of some tools to check inductors for bad windings and values but I haven't seen anything similar for transformers. If you can find any Ham Radio guys they may be able help or perhaps there may be something like that in their handbook:
http://www.arrl.org/arrl-handbook-2012
If you know what the model # of the old FM Tuner was then perhaps you can track down a Service Manual for it that may contain the specs for that transformer. That is probably the best way to get the specs for that if they are listed.
Robert
-Phil
Being a generous sort, suppose the designer used a fuse for 150% current. Max current would be 2A. At 7.5 volts that gives you a 15VA capability in the iron. Don't forget, that VA rating is the combined capacity of all windings.
Cheers,
Actually, I believe it was a reciever instead of a tuner as RDL2004 questioned.
If I had one more leg of the 29.5V, it would have probably been a nice transformer for a small XYZ machine controlled by a Propeller Proto Board. Either way, I have small XY machine in mind in which it will probably do the trick.
Thanks again for the input.
Bruce
You definitely don't want a fuse rated at 100% of load current! Remember a fuse is designed to blow on a fault condition, a short-circuit, and to avoid the fuse getting hot or dropping too many volts its important not to run it very close to its rated current on a normal load. A 3A fuse really only tells you the transformer winding can exceed 3A substantially if shorted out.
You also can't tell much from the total VA rating if there are several windings - each winding has its own VA rating that depends on how much copper is in it. Measuring the winding resistance will tell you something - you wouldn't expect the winding to dissipate more than about 5% to 10% of the load power at full current for instance.
If a set of secondaries are designed to dissipate the same power then you would expect their winding resistances to be proportional to the square of their individual voltages, so the ratio of V*V/R between windings should give a rough measure of relative power rating. So if you have an estimate of the total VA from the size of the transformer it should be possible to estimate the ratings per winding.
Robert
exactly!!!!
A breaker can take up to 1.5 times it's rating in an overcurrent situation.
The IEE produce disconnection time graphs for different types of fuse protection which manufacturers can consult when designing circuits.