We came at the point where random words are being said and no correlation to any real data and concepts is being done.
Lets make it clear:
1. More noise is more noise. Hires uses LOW amount of noise, just enough to make bit flicker up and down at the edge of the A/D threshold, and then takes sequence of 4,8,16 32 consecutive samples and averages it. Superimposed noise will have effect of creating residual voltage (noise should average to 0 but it won't because sub bit voltage threshold will skew distribution up or down, proportional to voltage) that will yield higher resolution than A/D used. If you drown signal in 2 bits worth of sampling noise, all you will see will be noise. For Hires to work A/D has to be monotonic and to have very good DNL. Otherwise you just get noise... Hires works well if front end is noisy and A/D is perfect. If noise is artefact from A/D converter, Hires doesn't work that well. That is why I suspect that it might be that in new Rigols, A/D is the one being the source of noise, and that would explain poor Hires implementation.
2. Rigol doesn't have "sample rate to burn". Hires works such that you need to filter down to effective sample rate that is 20x less to gain 2 bits (roughly). That means you get effective rate of 400MS/s to gain 4x less noise (if it works well) and you get 200MHz bandwith.. 4X reduction will still be a bit more noise than SDS2000x+ running at full speed and at higher sample rate at that time. When same tricks are available to both scopes, one with better starting position will always win... GIGO....
3. The video that was referenced (MSO5000 vs R&S2000 hires something) is very confused and misguided video showing something else than what is discussed here. They are not comparing noise, and they are not comparing dynamic range. Rigol's new integrated front end chips seem to have one good characteristics: they seem to have faster overdrive recovery than front end in RTB2000. So when you push the signal off the screen, amplifier doesn't distort so much as the one in RTB2000. Also in some ranges, scopes have different offset capabilities. Rigol simply found a voltage range where they could work at higher amplification than RTB2000 so signal was reaching A/D in more favorable way in Rigol. And left side of signal on Rigol is still distorted, it just recovers real fast (kudos for that, real good job Rigol) so most of the signal after first two edges looks nice. But it is still distorted, just much less. And you can see at all times how much more noise there is on Rigol compared to R&S, despite Hires being on. They also did the trick to show it in colour grading mode, so big, thick yellow line is not so obvious.
New Rigols have more noise. Period. No amount of bullshit will change that.
What is important to end user is fact: does it matter for your end use?
If you're not looking at signals at milivolt levels at 100 MHz+ bandwith probably not. MSO5000 has some other nice features, it's retrigger rate is faster so it will look more analog like on the screen etc etc.
It is perfectly good scope for general purpose use. It has 4 decodes, 4 math channels, etc etc. So there are things where it has strengths..
You just have to chose wisely what is important to you.
Analog performance, LeCroy type of concept? Go with SDS2000X+.
Digital work, decoding, interactive work? MSO5000 will do just fine.
Not really sure? Both will do...
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