But most scopes will degrade their realtime waveform capture rate below the theoretical maximum when you increase the memory depth, which was the key differentiator of the "always on" memory and not having a memory depth control on the Agilent/Keysight X series scopes since they processed the waveforms to the display in the ASIC and wouldn't run substantially faster if the memory depth was reduced.
Most scopes will decrease their update rate because they are actually using the memory they claim to use for every single acquisition.
The DSOX (like it's InfiniiVision predecessors) only manage to reach faster because they are *not* using the full memory most of the time. They have to, as it is physically impossible to reach high waveform numbers while using all of that paltry 4MB memory, as shown in my previous post.
I even plotted up the collected data from this forum to make it easy to compare:
https://www.eevblog.com/forum/testgear/rigol-mso4000-and-ds4000-tests-bugs-firmware-questions-etc/msg973064/#msg973064
All the data points at whatever the sample rate is gets to the screen, even though on the Agilent/Keysight design it is rendered at a lower resolution and you can only zoom in on the last capture and not the accumulated graduated display.
Which is one limitation of the MegaZoom platform.
As an alternative method didn't the Wavejets let you zoom and pan the graduated capture along with their segmented captures?
I believe so, but then I haven't had much contact with them, and since they are essentially Iwatsu rebadges a few things work differently on these scopes than on 'real' LeCroy scopes.
But to say that manual control of memory depth is a better thing to have when its just used to hide other downsides to a product is once again disingenuous. Ideally you would want to operate your scope at maximum memory depth all the time! And Agilent/Keysight delivered this.
No, they did not! They delivered a system which creates the impression to the (uninformed) user that it always uses maximum sample memory when in fact it is cheating its way out. This also has consequences, i.e. for recording pre-trigger events.
I've no doubt that the way MegaZoom works makes it easier for beginners. But spinning the absence of manual controls as an advantage is preposterous. It's like saying a scope that only has an auto-set button is better than one that has manual knobs and buttons because the auto-setup system always produces a stable image (well, it doesn't, but let's ignore that for a moment). The point of the various controls of a test instrument is that the user can setup the instrument to fit the measurement situation, and that works better with more control than with less. I'm not against automatics in scopes (unlike many of my peers), but only as long as they don't get in the way of giving the user control of the instrument. They do become a hindrance when automatics are the only option, even more so when the 'price' for that automatism is a comparably tiny sample memory.
Of course Keysight knows this very well, after all pretty much all of its high-end scopes (aside from the DSOX6004, but that's pretty much just an expensive variant of the DSOX3k which is an entry-level scope) allow manual control of memory and sample rate. The DSOX doesn't because it was pretty much designed for the highest possible update rate at the price of everything else, which was pretty much Agilent's marketing spin back in 2012. But there's a reason why other scopes (even keysight's own scopes) didn't follow that path, and more than compensate their lower waveform rate with advanced triggering and analysis tools.
The more I have to carry my MSOX3104A across lab, home and office, the more I wish I have bought a PS6000. PS have some quite advanced triggers that can automatically analyze something, but I have never really looked into it. Talking about active probe IF, it is really a PITA. However, the active probe IF on my MSOX is also next to useless -- the probes quickly sum up more than the price of the scope. It is common to see a probe selling for $1000, and the tips $4000, which is ridiculous. Thanks to the custom coax interface, even if I have a prove and a scope, without its proprietary tips, it is next to useless.
Well, that's normal as stuff that is labelled Agilent/Keysight is pretty sought after, as is Tek. Simply because when thinking about scopes Agilent/Keysight and Tek are for many people the only names that come to mind. But just because some seller wants $4k for something doesn't mean it's selling. Of course, if its compatible with the DSOX it will fetch extra money, thanks to Agilent/Keysight making some probes artificially incompatible with the InfiniiVision scopes and thereby limiting the choice for InfiniiVision scope users.
On the other side, I've bought several active LeCroy probes (AP033, AP034, HPF Series) for a couple of hundred dollars, as have other forum users. Thanks to most people focussing on Agilent/Keysight and Tek there are a lot more deals for LeCroy probes (although it does require patience). It also helps that LeCroy's active probe interface hasn't changed since the '90s, and because of the unified software stack there are pretty much no compatibility issues with older probes on newer scopes.
But yes, if you have to schlepp around the scope regularly then the PicoScope might be the better option, even more so when you're already using a PC on the bench.
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