Unable to send current through high frequency transformer

AI Thread Summary
The discussion centers on a transformer with a 9.3 current gain operating at 20kHz, where the user is unable to achieve voltage across a 1k resistive load. Despite the expected gain under no load conditions, the absence of voltage suggests potential issues with the winding method of the secondary coil. Participants inquire about the turns ratio, impedance, and core material to diagnose the problem further. Clarification is sought on whether the turns ratio is 9.3:1 or 1:9.3, as this could impact performance. The conversation highlights the need for precise winding techniques and core specifications to resolve the issue effectively.
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I am building a transformer of about 9.3 gain operating at 20kHz. One would think this is saturation but if that were the case there would at least be some voltage across the load. The gain of the transformer is as expected for no load conditions but I cannot get this same voltage across a load. What could be the cause of this?
 
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Is the 9.3 voltage gain or current gain? What is the impedance of your load? How many turns do you have for your primary and secondary and what type of core are you using?

Do you have any ideas what the problem might be?
 
the 9.3 is current gain. There is no voltage across the load which is a 1k resistive load. I think it has to do with the manner in which I have wound the secondary. What is the proper method of doing this? This isn't saturation.
 
For a current gain of 9.3 the primary should have 9.3 more turns than the secondary. What happens to the signal generator output when you put a 1K resistor across it?
 
I don't understand your notation clearly. Are you saying that there is a 9.3:1 turns ratio or a 1:9.3 ratio? What is the measured voltage ratio?
What is the core made of and what shape is it? Do you have a picture. The reason I ask is that the fault seems so bizarre that there must be something drastically wrong.
 
Correction to post #4: I left out the word times and in "For a current gain of 9.3 the primary should have 9.3 times more turns than the secondary."
 

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