<div dir="ltr"><div><div><div><div><div><div><div><div><div><div><div>Andy:<br><br></div>Inductance of turns on a common core go as the number of turns squared, not proportional to the number of turns.<br><br></div>So I would expect the inductance of the secondary end to end to be about 4 times the inductance of one side.<br><br></div>That particular transformer falls apart, performance wise, below 1.8 MHz, so measuring at 10 kHz is not meaningful.<br><br></div>The impedances quoted are for a loaded transformer, so if you have some sort of antenna analyzer, like<br>an MFJ-259, if you put a 50 Ohm load across the secondary, you should see about 50 Ohms looking into the<br></div>primary. But, only between about 1.8 MHz and 54 Mhz. Below those frequencies, there is insufficient <br></div>inductance for the transformer to work at or above 50 Ohms. Above those frequencies, parasitics dominate.<br><br></div>If you think you have assembled the transformer correctly, I would go ahead and continue assembling<br></div>the kit. If you have wound something incorrectly, the amplifier may not work properly, but unlikely you<br></div>will destroy something.<br><br></div>Continue with the build, and troubleshoot afterwards if necessary.<br><br></div>--- Graham / KE9H<br><br>==<br></div><div class="gmail_extra"><br><div class="gmail_quote">On Sun, Oct 12, 2014 at 1:03 PM, Andrew Howell <span dir="ltr"><<a href="mailto:andy@gamubaru.com" target="_blank">andy@gamubaru.com</a>></span> wrote:<br><blockquote class="gmail_quote" style="margin:0 0 0 .8ex;border-left:1px #ccc solid;padding-left:1ex">***** High Performance Software Defined Radio Discussion List *****<br>
<br>
After sitting on my workbench for far too long, I finally decided to assemble my PennyWhistle.<br>
<br>
I have some very basic questions about T1 construction. I made the bifilar secondary and connected it up as shown in the diagram in the instructions.<br>
<br>
The instructions say is should be 50 ohms impedance on the primary, 50 ohms on across the secondary, and 25 ohms impedance on between the secondary leads and the center-tap.<br>
<br>
I have an LCR meter, but I don't think that is going to help me, as it measures Z at a max of 10khz.<br>
<br>
I do measure 12.9 uH on the primary, and 12.8 uH on the secondary. The two sides of the secondary to center-tap are each 4.6 uH. Those two secondary to center-tap inductances seem low. I would have expected 6.4uH, ie half the 12.8uH of the secondary.<br>
<br>
So, are these the values I should expect? Why don't the secondary to center-tap inductances add up to the inductance of the whole secondary leads?<br>
<br>
I expect I'm about to learn something :)<br>
<br>
73, Andy - KF5JLJ<br>
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