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20th August 2019, 15:46 #1
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Determine Transformer Loss
Hi friends.
I would like to know the loss (power/energy) in a aircore pulse transformer of my own fabrication.
What we are looking at is this:
I'm measuring voltage with two identical 100:1 voltage dividers 100MΩ∥22p/1MΩ∥2.2nF.
I'm measuring current with two uncalibrated but identical Rogowski coils, I suspect the error in current magnitude could be ±10% but in any case the error will be the same on both coils.
Here are my measurements from both primary and secondary side of the transformer.
Xaxis = nanoseconds
The voltage is being stepped down, but the current is almost identical on both side, which is puzzling to me. I would have expected the current to increase on the secondary side as voltage is stepped down.
So how do I go about determining the transformer loss?Last edited by Swend; 20th August 2019 at 15:54.

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21st August 2019, 11:37 #2
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Re: Determine Transformer Loss
OK, I will try to rephrase my question.
Accorcing to electronicstutorials.ws in a ordinary powertransformer with sine AC, the efficiency is
And the power is calculated like this
Which is all fine, but since I have a arbitrary pulse, can I calculate average power by summing the individual product of e.g. (privoltage * pricurrent) samples, and the divide the sum by the total number of samples? Then obviously do the same thing for secondary and calculate efficiency?
And my second question is: As it can be seen in the traces, the voltage is being stepped down, but the current is almost identical on both side, which is puzzling to me. I would have expected the current to increase on the secondary side as voltage diminish, what is the reason for this unexpected behaviour?

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22nd August 2019, 16:28 #3
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Re: Determine Transformer Loss
I did't understand your statement about measuring with 2 100:1 dividers. The transformer will step the voltage down and then depending on the load on the secondary the current should be set. If the primary current is almost the same as the secondary with the voltage being stepped down theoretically it indicates a large power loss in the transformer. Can you recheck the measurements?

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22nd August 2019, 17:03 #4
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Re: Determine Transformer Loss
Hi arajur
Here is a picture of one. I use one to measure primary voltage and a second one to measure secondary voltage.
This is exactly my point, it must be very inefficient, but how do I quantify it? can I calculate average power by summing the individual product of e.g. (privoltage * pricurrent) samples, and the divide the sum by the total number of samples? Then obviously do the same thing for secondary and calculate efficiency?
Sure, but why? Not that I haven't done it many times.

22nd August 2019, 18:14 #5
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Re: Determine Transformer Loss
Thanks for explaining it better. I requested to remeasure because it seemed the losses in the transformer may be excessive. But yes to quantify it I would just subtract the power delivered to the output from the intput power. That would give the total loss. To go a step further we could quantify the DC losses by measuring the primary and secondary coil resistances. If you don't plan to operate the transformer for high frequencies then you can probably neglect skin effect. Once you know the winding loss the rest of the loss would be due to core losses.

22nd August 2019, 19:10 #6
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Re: Determine Transformer Loss
I think I just have come up with a extremely bad design that is extremely lossy.
Thank you, And how about the way I calculate power i.e. can I calculate average power by summing the individual product of e.g. (privoltage * pricurrent) samples, and the divide the sum by the total number of samples? Then obviously do the same thing for secondary and calculate efficiency?
Yeah, but there isn't really any DC , or is there? After 45uS the current becomes DC, how to do that? Should I make a hybrid calculation i.e. AC up to 45uS and thereafter for DC?
The operating frequency is at the moment around 33KHz, does that induce the skin effect?

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22nd August 2019, 20:17 #7
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Re: Determine Transformer Loss
Yes I think you need to do the product of the samples and then sum and divide them as you mention. Basically integrate the VI. Same thing for secondary.
I shouldn't have said DC. I meant ohmic losses i.e. I^2 R losses in the transformer wire. You already have the currents in primary and secondary if you know the resistances then you can calculate what losses happened in the coils
At 33KHz the skin depth for copper is 0.36mm. If your wire radius is close to it or smaller than it then you can neglect it.Last edited by aryajur; 22nd August 2019 at 20:31.
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