Here's an idea where the Kelvin Clips "clamp" to Plated Thru Holes in the PCB by "Splitting" open the Kelvin Clips this allows the Sensing Port to take place where the Force Current enters the Thru Hole DUT contact lead pad, or the SMD DUT pad, thus "sensing" very close to the DUT leads/termination.
I love it, and not just because I was hoping somebody smarter than me would suggest it. 😉 PTH vias shaped appropriately I think would work great, and I much prefer that over using pads as I am currently.
You should include an "Open" and "Short" for LCR Calibration and would expect to give good results down into the tens of milliohms impedance regions but haven't verified such.
I love this idea too. I hadn't thought much about it, but I recall your advice on doing similar for the SMT fixture on our LCRs.
Another thing could be to split the SMD pads (so that there are four pads for each component), i.e. have the kelvin connections separated all the way to the pad.
That's an interesting idea. However, I think if it has any benefit, it's beyond what's needed for this specific test. The idea gives me two concerns: 1. that it would reduce the solder pad area; 2. That the 2 pads being soldered to the same end of a component doesn't seem like there would be any significant difference than connecting both kelvin connections to the same pad (as they are now). I could be wrong of course, but for the purpose of this PCB, regular pads seem fine.
Also, instead of the silkscreen legends, maybe silkscreen white filled rectangles could be interesting, so that people can populate with whatever components meet their needs, and a permanent pen can be used to label the components.
Another idea could be to retain the current text silkscreen, but ensure there's a faint box outline where a user could apply a printed sticker if they wish to change the value.
Anyway, I have no idea if these extra suggestions are any good, or they might be overkill, possibly too much effort if the board is already mostly designed, for the small additional benefit.
I haven't decided what I'm going to do with this when it's done done. I'll at least share the Gerbers so others can have them made. I think if people want to do stickers, it doesn't really matter what I leave on the silkscreen.
All ideas are appreciated! Thank you.
Very nice PCB - if there is a possibility to get one in Europe I´d like to buy one.
From my point of view it´d be perfect if there would be two additional "Sense"-testpads directly next to each reference component. That way you could connect your 4W-sense-probes as perfect as possible and everything else on the PCB stays the same.
For usage of the 4W-Kelvin-crocodile clamps the vertical test pins should be fine. Then they only compensate the test cables and not the PCB influence, but for most of the values that should be okay.
Thank you! As I mentioned above, I'll at least be sharing the Gerbers when this is done. Then anybody can order 5 boards for much less than the cost of shipping to Europe.
Yes, others have mentioned that they would prefer having separate connections for each component. Personally, I don't like that idea...because I'm lazy and testing already takes too long. For small values where that might have an effect, I agree (and it's already implemented that way). But for most of the stuff, it makes no difference.
If you check my cal test results I posted above, you'll see that the tweezers and the bench LCR were in excellent agreement for most items. It's probably useful to mention that the tweezers tested components directly, and did not use any of the kelvin connection test points. For the results being as close as they are, I think the logic behind my connection scheme is good enough for me. 😉
Thanks,
Josh
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