Dave,
when you do this kind of investigation and then claim some things like example difference between 500uV and 1mV/div. (position around 12:00/18:55 in video) Now you claim it is not true 500uV/div just because you do not see control data change in ONE place. Are you seriously making this claim based only to this ONE single fact without anything else. Is it now better to take spoon in to hand and start first thinking and and after thinking and study is ready, then talk and publish claims and conclusions based to all facts.
Look what happen AND where happen when you change example from 500uV/div to 510uV/div and so on, every fine step to 1mV/div. Also investigate real ADC data. If 500uV is just digital magnification like example 1mV/div in Keysight derived from (I do not remember if from 2mV/div or something like it) lover sensitivity you can also see it in data, you can see it even on the screen if you know how to look it with some signal+noise. If I remember right some model do 1mV/div as digital "image" magnification from 4mV/div. Whole full scale is now 6 bit data (64 steps). Have you seen this kind of digital magnification in Siglent (this model). Yes there is this method in older SDS2000(X) But how about SDS1000X-E. ( it is very different). If we use word digital magnification... well, I think it need go bit more deep to think what are these.
Why do you make such simple and hasty conclusions and arguments? Before submitting the conclusions, the matter should really be examined more closely. If your claim is right or wrong it is not now case. But now your claim is not based to nearly anything. (exept that VGA control byte do not change between 500uV and 1mV/div. Are you seriusly as real engineer need be with this claim. Now you have no ground under your feet here. First you need investigate, collect data and many kind of evidences. After then come out again and tell with data that there is no real full ADC scale 500uV/div (or 530uV/div or what ever).
If go just roughly: 13*50 fine steps = 650 steps. (but yes, part of thing is also 3 different relay selected V bands. Example in Voltage band I, 500uV/div - 118mV/div, there is 358 steps if I count right. Band II and III naturally have less steps due to more narrow Voltage ranges)
5 points tip:
VGA gain control range max is 8 bit. Think!!! Think again!
example from 500uV/div to 1mV/div there is 50 step. From 1mV/div to 2mV/div again 50 steps.
from 2mV/div to 5mV/div again 50 steps and so on.... ( I have also told it already in this other thread)
Now think again. Whole range from 500uV/div up to 10V/div and how many steps there is total (do not care if 1-2-5 major steps or fine steps. Just count total. Think again this 8bit cotrol byte. No any bell ringing your head?
Then think one other data sheet where are these:
The device includes a digital programmable gain in addition to the Full-scale control.
There will be no missing codes for gain settings lower than 32x (30dB), due to higher than 8 bit resolution internally.
And, using this together with... and so on.
Media business and Engineer work are some times different or is it better say, it need be differerent.
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