To use, simply insert the part to be tested into the
circuit, hook up an oscilloscope to measure the resultant resonant frequency
and then do a simple calculation to determine the unknown inductance value. I altered my circuit slightly by using a jumper for S1 and substituting J310s for the FETs. The jig was assembled using “ugly
construction” techniques on a small copper board.
Once completed, I tested the jig by inserting an inductor with a known value (marked as 3.9uH) and found that the resonant frequency was 4.848MHz.
The calculated value of L was determined to be 4.07uH. My L/C meter measured 3.93uH giving a difference of <4%, well within
acceptable limits for me. This confirmed that the meter was performing as it should.
So, it appeared that the toroid cores I was using were to blame. To compensate, I reduced the recommended number of turns by 1 (or 2) and re-checked the readings. This seemed to do the trick as seen in the table below:
Test Jig (uH) L/C Meter (uH)
.299 .286
.294 .288
.489 .483
An added feature of this test jig is the ability to measure the resonant frequency of a tuned circuit (like an IF transformer). Simply remove the jumper to the left of the sockets, insert the device and read the resulting output frequency.
Admittedly, for general purpose use as a way to determine an unknown inductance, my L/C meter is quicker and more convenient but its much more satisfying to use something you built yourself.
Once completed, I tested the jig by inserting an inductor with a known value (marked as 3.9uH) and found that the resonant frequency was 4.848MHz.
Resonant frequency of 4.8478MHz |
acceptable limits for me. This confirmed that the meter was performing as it should.
So, it appeared that the toroid cores I was using were to blame. To compensate, I reduced the recommended number of turns by 1 (or 2) and re-checked the readings. This seemed to do the trick as seen in the table below:
Test Jig (uH) L/C Meter (uH)
.299 .286
.294 .288
.489 .483
An added feature of this test jig is the ability to measure the resonant frequency of a tuned circuit (like an IF transformer). Simply remove the jumper to the left of the sockets, insert the device and read the resulting output frequency.
Admittedly, for general purpose use as a way to determine an unknown inductance, my L/C meter is quicker and more convenient but its much more satisfying to use something you built yourself.