Sorry about the epic, I get wordy when I'm attempting to be thorough. I've tried to include all the typically requested info I've seen from other posts when people ask similar questions.
I've wanted my own scope for a long time, and I'm currently working on a few projects that finally give me a good enough excuse to take the plunge. And, like so many other people visiting this forum, I could really use a little guidance.
Any future replacement of whatever equipment I buy is far enough down the road that I have to consider this a "one time" purchase/investment, so while my budget is tight, if spending a few-ish hundred $ more now will better enable the breadth of projects I can do, then I should go ahead and spend the extra dough. Since 99% of the projects I have in mind are primarily for re/learning stuff myself or intended to be released as open source (if I hit a good 'nough quality bar), I don't have any qualms about hacking a (NEW) scope to get more capability, limited to available step by step hacking guides and a (literal) Radio Shack soldering iron. Hopefully soon I'll have a good excuse to pickup a hot air rework station. A reflow toaster oven is on my project list too, but it's a wayz down.
To start with, I need to scope various serial connections at the max my hardware supports (125MHz SPI, SWD/JTAG *signals* for ARM close to theoretical max, etc...), but I can just use a 4ch scope for the time being. Down the road I want to add the "minor" upgrade of an MSO digital probe. The next round of projects use more analog (characterizing serially-connected analog sensors, etc.). I have a long list of projects that I want to do, this is just a quick list of starters.
Question #1:I have had a difficult time trying to find any specs on Siglent's MSO digital probe options (specific models mentioned below), like actual sampling rate or memory depth or BW... To put it simply, what is the maximum clock rate the MSO digital channels can reliably acquire?
I am REALLY rusty on the EE side of things, but I *THINK* I'll be ok with a scope that has 4ch, 200MHz BW, 1GSa/s, serial decode included (or hackable), and MSO digital channels as a supported "purchase/DIY when necessary" minor upgrade, as my minimum requirements given how comparatively cheap scopes are these days.
Question #2:Temporarily ignoring other specs/features I should be looking for, are these minimum specs appropriate? Too low/high?
But..... I would really like to be able to do some projects with USB, hopefully a little at the physical layer. Anything USB3.0 and above is cost-prohibitive for my budget equipment-wise, but I'd *really like* to be able to use at least high speed USB (480Mbps) in projects. So:
Question #3:What are the minimum specs for a scope to do "meaningful/useful" work with high speed USB? Put another way, if you exclude engineering tasks that require a $10k+ scope, what is a "reasonable" minimum spec for the other stuff?
As much as I liked using HP/Agilent back-in-the-day, Keysight is way outside my price range. I've heard good things about Siglent, so I previously attempted to isolate my decision tree to that brand. If that is a questionable approach, please question.
My recent decision tree *WAS*:
First choice: The mythical, non-existent Siglent SDS2204X-E or SDS2354X-E
Reluctant second choice: Provided the BW firmware hack still works, the SDS1104X-E
Reluctant third choice: SDS1204X-E
But then I found a discounted SDS2304X: 4ch+trig, 300MHz BW, 2GSa/s, 140Mpts...
Question #4:Is the SDS2304X hackable, if so where should I look for guidance? It's a stretch, but I can kinda afford the discounted price, but not if I have to tack on the serial decode license. Based on the info I've seen, I have the impression that the AWG and MSO hardware are built in, so am I correct in thinking that a firmware hack plus some form of DIY digital probe is all that's needed? Better BW, sampling rate, and memory depth seem like a really good trade off for the built in web server of the X-E series, at least for the currently existing 4ch models.
And then there is the Rigol MSO5074 which is apparently very hackable and the MSO port seems prime for a DIY digital probe. Although I don't know if they are closing the loopholes for hacking...
Question #5:At first glance, a Rigol MSO5074 hacked to max spec seems like the overall best option, but then I watched Dave's 40 minute rambling rant video on all the bugs and problems. So....... Headaches, bugs, and reliability
versus specs
versus budget? I guess my Question #5 is the overall question: Given the info in this epicly long post, what sage guidance can you provide?
Question #6 (Bonus Round):What is the airspeed velocity of an unladen swallow?
Answers, comments, and any appropriate head smacking are much appreciated, especially on #4 and #5. Just to reiterate, I have a tight budget, but since I need to make this a "one time" purchase/investment, shelling out a little more dough now makes sense. I'm not looking for the biggest bang for the buck, I'm going for the minimum buck for maximum
feasible development potential with room to grow, if that nuanced difference makes sense.
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