You know, this would have been easier on both of us if you'd have shut up and known when to stop your sales pitch.
Futile and futile... of course I have knocked my head to thermal noise when I was young and play with some radio's in 60's.
Of course with these entry level scopes, example Siglent, really can not accurate analyze signals in microvolt range - naturally and because basic level fundamentals. All know this and no one try talk that impossible is possible.
That 9 MOhm resistance in the probe tip is suddenly non-existent for Siglent and only for Siglent? And it doesn't have a voltage noise in the microvolt range attached to it? Tell me more about these magical flux capacitor super conducting scope probe tips. And then I haven't started about the realistic lower limits for a 1 MOhm scope frontend.
But, still with it and some others can do something more than nothing.
Take lowest price range Keysight and try this. I can tell to you, result is nada. But still with this cheap entry level scope can see this. Try with Keysight, result, nothing.
Also previously shown FRA example with some xtal, try with double priced Keysight. Result: nothing.
Keysight will not advertise things they know they can't deliver on.
And if you think A brand did not implement 500uV/div to 1Mohm scope front end... bullshit.
Take example just one poor example, old TEK 2225
(more things can find in this older thread about 500uV/div scopes)
futile and futile...try it with same price class Keysight, not even if you double or triple this price..
You're going to use the Tektronix 2225 as example?
So, before we continue this ridiculous use of a very specific scope as example, you are aware that the 2225 has a bandwidth of only 50 MHz which reduced to 5 MHz when you turned on the x10 amplifier? At least mention a semi-recent Keysight scope like your colleague did. Mind you, Keysight actually was smart enough to enable the bandwidth limiter for this "magnification".
And it's not because the manufacturer puts "it can do <something>" on the box that it is either meaningful or true. Stop the damned sales pitch or at the very least admit you're associated with Siglent at this point, because it's quite obvious. All you have to do to sell scopes is say "look, we built something with a usable interface at this price point and it can do this", stop trying to add on features that don't actually work properly.
but this can do in real life and there is many oscilloscopes in this price class or even higher what can not do even this. Of course accuracy, or is it better say inaccuracy, is what it is but still this give lot of more than nothing. Watching 3.3V supply rail level (this is why DC coupling and fixed vertical offset mode) and some details in it. 10x probe just because you said it.
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You do know this is quite meaningless right? That count at the side of the table betrays you, the scope is averaging measurements over multiple waveforms. If you had read the previous pages you'd have seen I posted screenshots of taking a DSO-X 2012A down to tens of microvolt of RMS voltage noise using exactly the same method. Possible, yes, practical, not really. So please, just stop it, this is getting ridiculous.
Oh, you are a one eyed SOB aren't you ?
You remind me of many ppls in the 70's and 80's that would never buy a Jap car 'cause they're shit, right ?
I was one of them back then but later my eyes opened, maybe there is still hope for you.
My eyes are fine, but clearly you think that our analytical thinking skills are not. Rigol and Siglent can build decent scopes when they're manufacturing them for another manufacturer. Sadly they still have to realise that the market for engineering lab equipment tends to be aimed at engineers. So unlike consumer products, you're not going to sell them by lying out of your arse and hoping they only notice after purchase.
From an 'A' brand 50 MHz DSO @ 2x price of SDS1104X-E:
Bandwidth (–3 dB) 1, 2 .......................50-200 MHz models
Input sensitivity range 3 500 μV/div to 10 V/div 
Maximum input voltage 150 Vrms, 200 Vpk 
In small print:
1. Denotes warranted specifications........
2. For 1 mV/div to 10 V/div settings, bandwidth is 20 MHz at the 500 μV/div setting.
3. 500 μV/div is a magnification of 1 mV/div setting.
The 100-200 MHz X-E's offer the full BW @ 500uV/div and it's not a magnification of some lower sensitivity range hence it shows more noise and therefore allows the operator to make decisions on best how to reduce displayed noise, not some designer hidden automatic BW limit that thinks it knows better than the competent user.
Thank you for demonstrating my point for me, note the footnotes on the datasheet: Not only do they admit it's simply a multiplication of the 1 mV range, they also enable the bandwidth limiter. Because something magical happens when you calculate
sqrt(4 k T R dF), do you see that "dF" factor in there? Thermal noise is a function of bandwidth... And guess what, if you calculate the thermal noise it seems to magically coincide with the noise voltage you get on a scope input, I wonder why that is?
In other words, you'll find that the 500 µV/div mode on a keysight is slightly more useful than on the Siglent because they enable the bandwidth limiter for you, but you'll still need averaging or high-resolution mode to get anything useful out of it.
So basically what you call "hiding from the user" is what competent engineers will call "understanding the physical limitations of our universe".
Like farmers who know how to sift the wheat from the chaff, a good EE should know how to get the info they need from a dirty waveform.
Not an excuse for lying on datasheets.
And what's with the Yanks, only 200Vpk inputs. 
Whereas X-E's in fact all Siglent DSO's are 400Vpk rated.
Right, Siglent have no idea what they're doing........Right ?
Aaaaand, again with the lies. Most modern scopes are built identically for all markets through the magic of switch mode power supplies. So in practice that means most are rated for at least 240V RMS on the input (339Vpk). And all the semi-recent HPAKs sitting on my desk do 300Vrms (425Vpk). So what were you saying?
All you're doing with this type of response is proving my initial point, just please be honest for once and actually say what the scopes can do instead of cherry picking results.
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