The one I got was a AD854KH which is the more accurate of the chips and as is normal for chinese stuff it arrived with no instructions and the hole in the side where the micro usb plug goes to charge it up was not in the right place so I had dismantle it to enlarge the hole with a file, otherwise it seems fine.
That's the KKMoon Voltage Ref (or a clone); I read about it on EEVblog last year and ordered one from AliEx... it became one of the few transactions I had to file a dispute on over several years of purchases. After that headache
I sortof just let it slide until I stumbled across Mark Hennessy's article a few weeks ago.
I liked the convenience of use, but my long-term experience with LiPos tells me they're a poor choice for a tool that may sit on the shelf for 6 months between uses. That and the fact of using a noisy boost regulator for the power source kindof turned me off on it; I'm a true believer in the simpler the better for such things.
As for which AD854 variant is best, I'm just looking at the chart from
the article I linked to; I'll admit I didn't look up the datasheets myself, but it certainly seems to indicate that the LH is considerably tighter tolerance than either of the other two common variants (particularly in temperature stability), and I have no reason to believe Hennessy would misrepresent. Of course, as he also suggests, which variant will actually arrive in the post is probably a crapshoot.
That looks similar to mine. I read somewhere (lost the source) that it needs to be powered up for ~20-30 mins before it's stable.
Yeah, this was one of the reasons I wasn't too sanguine about the whole built-in LiPo thing; I can see letting it run for 30 minutes before using it with that tiny LiPo powering a boost regulator becoming a "Will it run long enough for me to get my work done?" scenario. Most of my 4S RC LiPos are 1000-6000mAH; they'll run that AD854 for days powered directly.
There was some discussion about whether the likelihood of these being scavenged parts means they come "pre-aged" or not. I'm of the opinion that at $US8, it's a gamble even I'm willing to take.
Only place I find microvolts is op amp offset trimming and that’s just professional pride as I’m not doing any precision work. And you don’t need a calibrated meter for that as it’s a differential measurement. As long as your meter zeroes when shorted.
Going to be honest here and I’m usually good with a 5% reading and won’t be buying anything better than a 4.5 digit meter. Not because I don’t want one but I can’t calibrate one that accurate so it’d sit in my mind and annoy me.
I agree with you on this 100%, particularly about the "niggling in the back of your mind" part.
Hmmm... I think I see your problem better now; particularly the issue of weak plastic threads. Either you need other tools as I suggested or to look for more suitable, but similar binding posts.
You are right, I don't think I have the ability or the tools to make my own special tools.
Okay... how about this: You have a mini drill press in your setup; so repetitive small drillings should be no problem. I suggest making backing plate(s) of ~1-2mm metal (such aluminum is readily available from any Homeowner Hell type hardware store in their specialty bins), which you can hand-fab the D-shaped holes into pretty easily even with your basic tool set. Make the plates it so they span at least two posts at a time, which by nature will anchor them against applied torque.
This will allow you to preserve the look of your pristine aluminum extrusion, while still providing the torque resistance you desire.
That's exactly what I tried to explain.
I tried my very best but English is not my mother tongue. 
In fact I had the idea to build one filling plate with holes for all binding posts in one plate. I can use my front plate as a model to transfer the position and diameter onto that filling plate.
I've made similar plates where I fold the metal to make the flat for more contact area against the torsional force, but that requires that you allow for the thickness of the metal when drilling/cutting the basic shape and is a hand-fab skill you need some experience to manage.
Thank you for your hints but I think I'll stick with the easier way anyway.
Don't want to do uncounted bad plates to gain the required experience for three plates in the end. 
Oh, no problem... my confusion was where you said "Filler plate", which may just be a language barrier thing. To me that means a plate that goes on the OUTSIDE of a panel to cover an existing hole or a void space in the wrong place; these are a "cosmetic piece" which requires some amount of care in fabrication.
My thought was to make the plates so they go behind everything, so you could just drill your panel out to the oversized holes for the binding posts and then the plates wouldn't be visible. Then they can be as ugly or as tidy as you have the patience to make them. I think you understood me right, so it's all good.
Like SpecMaster said; your English is just fine, its a trillion times better than my German. I know just enough to get my face slapped.
mnem
Confucius say: "A man with a watch always knows what time it is; a man with two is never sure."
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Topic: Test Equipment Anonymous (TEA) group therapy thread (Read 18796008 times)