Comparing the Rigol MSO5000 vs Siglent SDS2000X Plus

Update 22 December 2023: I had a repeating problem with the Rigol with a voltage regulator failing on my unit ruclips.net/video/RlWIhsjXf8E/видео.html. After replacing it about five times, and with decreasing periods before failure, I've thrown in the towel and bought a replacement unit (with a 3 year warranty included this time!). I have no reason to believe this is a common problem, but it did affect my unit.
Here's an update after over a year:
I am still in two minds between these scopes, here are some thoughts after a year or so...
I find that the UI on the RIgol to be easier to work with in that it's more intuitive to me. Almost all functionality is available on the panel knobs, it's rare to need to use the touch screen. After a while you get used to the delay when changing timebase, to such an extent where I found it didn't really impact me that much. There are some frustrations, one of which is the trigger frequency readout which is a floating item rather than being integrated with the instrument's standard readouts. The menu covering up a significant part of the waveform display, and having to continually turn it off is something that could be resolved to some extent with, say, transparent menus or do what the Siglent does, ie squash the waveform display horizontally. The fonts on the Rigol I think are a bit larger than necessary. As for the front end noise on the Rigol I'm not sure whether that will ever get resolved.
On the Siglent I am more likely to find my workflow is interrupted while I figure out how to do something. A lot of functionality is only available through the touch screen. The display seems crisper than the Rigol's, and the amount of information available is more comprehensive largely thanks to using smaller fonts and a slightly larger screen (they have the same resolution, 1024x600, Siglent is 10.1", Rigol is 9").
Regarding the LA which I use frequently, on the Siglent is limited to 500MSa/s with the Rigol at 1GSa/s. On the Siglent its memory is limited to 50Mpts with the Rigol at 25Mpts. This is despite the analogue channels being up to 200Mpts. On the Siglent, the Search function isn't available at all on the LA channels, and on the Rigol Search works on the LA but only with basic searches like edge and pulse, you can't do serial trigger search on the LA channels. Note that you can do all the serial decode and triggering on the LA, the limitations are just on the search function on the LA channels. There is also the 1ns trigger delay bug on the Rigol's LA that I mentioned in the video: in practice, you just work around it.
I've had two hardware problems with the Rigol, one was a faulty probe that I replaced and the other was rather more difficult: a couple of months ago the unit suddenly died after a few minutes of being switched on. It turned out to be a faulty regulator IC on the main logic board that I replaced myself. It's worked fine ever since.
The TL;DR: For a daily driver, I have changed my mind, and I now find I'm slightly more likely to go for the Rigol despite its several shortcomings, and this is mostly because I'm more comfortable with the workflow. The slightly smaller form factor of the Rigol means fits better on my bench, underneath the monitor without obscuring it. YMMV of course!

Thanks for the direct comparison, even 2 years later I was one of the people that still struggled to decide which one to get. Seeing both of them in action has helped me make up my mind. If I hadn't missed Rigols sale last month here in my region I might have gone with Rigol, but now I'm leaning ever so slightly towards siglent, especially since I have a decent offer for one.

I was thinking first about Sigilent, and now about Rigol and than i found your video :)

Very good video showing everything working ... Thanks for sharing

Hi, I'm thinking about picking up that Rigol... and was considering the Siglent also, so I was enjoying your video. You didn't mention the "App" button (lower left on the Rigol). That looked pretty cool to me on some other videos I watched. What are your thoughts on that? I'm also curious as to what the stop, left & right buttons do on the Rigol (in the center of all the controls there).

Hi there just watched your video on the yi 4k+ cable, i wonder if you can help me, could I make up a cable just for an external mic connection as I cannot purchase that cable anywhere, Thank you.

Thanks for the great review! It looks like you have 3 scopes on you bench, Rigol, Siglent and Keysight. Which is your everyday driver? Also any comments on the quietest fan noise of the three?

Iam new to all this but I think on my 1204 x-e siglent oscilloscope. I think incan independently set the x10 as a default on cearten functions. So when I press default it will default to what I set it to on some settings

I have the Rigol MSO1104Z and I have lots of problems with it just not triggering correctly, and the logic inputs are flaky sometimes. The lag you mentioned drives me nuts too on the 1104, even though it isn't quite as bad as what you showed on the 5000. My new Siglent SDS2104X+ is on the way to me right now.

Didnt u noticed that rigol is in normal aqusition mode and Siglent isi in peak mode? In peak mode of course line will be very thin.I think u should try both in normal mode

Okey - which one to choose for a home lab?

I have a rigol scope but i do have several other pieces of Siglent test gear. I will say this about Rigol their support is very good. I have not had to call Siglent so i cant speak to that but product support is another important measure

Thanks for the detailed review. Does the high resolution mode on Rigol helps to reduce some of that noise by averaging the additional sample points available?

I have a question, on the Rigol (MSO5104) it says 8GSa/s but the bandwidth is limited to 100MHz so I don't know what the point is. On the Siglent (SDS1204X-E) it is 1GSa/s but the bandwidth goes to 200MHz. Which one is better? My thinking is a higher bandwidth is better and with the Rigol all those extra samples just don't get used because of the limited bandwidth.

When are scopes going to move beyond 1990 display tech with OLED 300ppl displays? With these scopes I can't tell the difference between a dac output and the original test signal. Both look stepped instead of pure sine wave.

Could the sluggish rigol Behavior be adressed by firmware updates in future , or is that hardware related?

What do you think of the new siglent 2000 HD? Would be awesome if you do a review on it. Or the new 12bit Rigol dho1204

Nice comparison of the two scopes. There´s one failure in your description though. The Siglent is 2x2 channel oscilloscope (grouped ch1+2 and ch3+4), which means that the sample rate is 1Gs/s at minimum for 3 and 4 channel use and 2Gs/s if 1 or 2 channels are used. Apart from that, we use the Siglent on a daily basis and its a mighty good device.

Have you tested the new Rigol HDO4000?

With regards to apparent noise on the traces of the MSO5000, I suspect Rigol and Siglent have different "standard" settings for their "normal" operation. I've used the various Display Controls, outlined in Chapters 4 & 16 in the MSO5000 manual, to improve trace fidelity in my "normal' scope activities. Prior to making those adjustments I thought the Rigol and a bad ground, or something more sinister. TRACE VERY FAT, like me!
Now my trace is nice and thin with no annoying spurious noise being apparent. HOWEVER, go back to the "factory settings" and all the noise that's really there, is really there. BTW, I remember the days of hair-thin traces on the TEK 485 350Mhz portable scope. NICE! My ancient TEK 475 on my bench, not so much as it has the aluminum mesh dome "lens" to magnify the apparent sweep and help keep the CRT as short as possible for portable instruments. The FAT traces of the early 465 and 475 scopes were an embarrassment to Tek. My old TEK 475 is a rescued scope from the IBM scrap sale... Still meets specs! Love the 2mv vertical sensitivity! The HP's and Philips, of the day, didn't use the mesh lenses, but were still able to keep the CRTs fairly short. The lenses always spread the traces. The mesh lenses were improved after a couple of years into the design. Can't blame those faults on todays LCD displays, can we! I experienced this first-hand as I worked as a Field Sales Engineer/manager for both Tektronix and Philips for most of the 1970's... Yep, I'm OLD and gray but electrons still work the same now as they did then!
BTW Dave Jones, on RUclips EEVBLOG, has a pair of nice videos on the topic of apparent / displayed noise on digital scopes. They are: EEVblog #601 - Why Digital Oscilloscopes Appear Noisy and EEVblog #442 - Analog Vs Digital Oscilloscope Noise. Worth a watch and good information why a more expensive digital scope might appear inferior to a less expensive digital scope or an analog scope. So, my question do any of these phenomenon apply to your comparison. Not having and Siglent SDS2000x on hand, I'll leave it to your capable hands to enlighten the rest of us. I TRULY enjoy learning something new every day!
Excerpts from the Rigol MSO5000 manual:
CHAPTER 4 - TO SET THE SAMPLE SYSTEM
Contents in this chapter:
◼ Timebase Mode (NOT INCLUDED THIS CUT AND PASTE)

◼ ACQUISITION MODE

◼ SAMPLING MODE
◼ SAMPLE RATE

◼ LA Sample Rate (NOT INCLUDED THIS CUT AND PASTE)

◼ Memory Depth (NOT INCLUDED THIS CUT AND PASTE)

◼ LA Memory Depth (NOT INCLUDED THIS CUT AND PASTE)

◼ Anti-Aliasing (NOT INCLUDED THIS CUT AND PASTE)

◼ Horizontal Expansion (NOT INCLUDED THIS CUT AND PASTE)
ACQUISTION MODE
The acquisition mode is used to control how to generate waveform points from the sample points.
MSO5000 supports the following four acquisition modes: Normal, Average, Peak, and High Resolution. By default, the acquisition mode is Normal.
Press → Acquisition on the front panel, and then rotate the multifunction knob to select the desired acquisition mode. Then, press down the knob to
select the mode. You can also press Acquisition continuously to select the mode or enable the touch screen to tap the desired mode and select it.
NORMAL
In this mode, the oscilloscope samples the signal at a specified fixed time interval to rebuild the waveform. For most of the waveforms, using this mode can produce the optimal display effects.
AVERAGE
In this mode, the oscilloscope averages the waveforms from multiple samples to reduce the random noise of the input signal and improve the vertical resolution. Greater number of averages can lower the noise and increase the vertical resolution; while at the same time, it will slow the response of the displayed waveform to the waveform changes.
When you select "Average" mode, press Averages and rotate the multifunction knob or use the numeric keypad to set the desired number of averages. You can also use the pop-up numeric keypad to input the average count. When the average count value is not in power-of-2 increments, a prompt message "Truncation average error" will be displayed. At this time, a value that is smaller than the one you input and the closest to power-of-2 increments will be input automatically. For example, if you input 9 with the numeric keypad, the average count will be input 8 automatically.
The number of averages can be set to 2, 4, 8, 16, 32, 64, 128, 256, 512, 1024, 2048, 4096, 8192, 16384, 32768, or 65536. By default, it is 2.
PEAK
In this mode, the oscilloscope acquires the maximum and minimum values of the signal within the sample interval to get the envelope of the signal or the narrow pulse that might be lost. In this mode, signal aliasing can be prevented, but the noise displayed would be larger.
In this mode, the oscilloscope can display all the pulses whose pulse widths are at least the same as the sample period.
RIGOL HIGH RESOLUTION
This mode uses an over-sample technique to average the neighboring points of the sample waveform. This reduces the random noise on the input signal, generates a much smoother waveform on the screen and improves the vertical resolution. This is generally used when the sample rate of the digital converter is greater than the storage rate of the acquisition memory.
Note:
• The "Average" and "High Res" modes use different averaging methods. The former uses "Multi-sample Average" and the latter uses "Single-sample Average".
• In "HighRes"mode, the signal bandwidth does not exceed 1/32 of the sampling rate.
• In "High Res" mode, the highest waveform refresh rate mode is not supported.
SAMPLING MODE
This oscilloscope only supports the real-time sampling mode. In this mode, the oscilloscope produces the waveform display from samples collected during one trigger event. The highest real-time sample rate on the analog channel of MSO5000 series is 8 GSa/s. The current sample rate is displayed under CH SampleRate, and you can press More → CH SampleRate to view it.
TIP: Press RUN/STOP on the front panel to stop sampling, and then the oscilloscope will maintain its last captured graph. You can still expand or zoom the waveforms by using the horizontal and vertical control knobs.

SAMPLE RATE

Sampling is the process of converting the analog signal into the digital signal at a specified time interval and then restoring them in sequence. The sample rate is the reciprocal of the time interval. 
The sample rate of the analog channel is related to the current channel mode. The maximum real-time sample rate in the single-channel mode of the oscilloscope is 8 GSa/s. The maximum real-time sample rate in the half-channel mode is 4 GSa/s, and the maximum real-time sample rate in the all-channel mode is 2 GSa/s. 

SEE ALSO:
CHAPTER 16 DISPLAY CONTROL
In the display control setting menu, you can set the parameters such as the waveform display type, persistence time, intensity, grid type, grid brightness, and etc.
Contents in this chapter:

◼ To Select the Display Type

◼ To Set the PERSISTENCE TIME
◼ To Set the WAVEFORM INTENSITY
◼ To Set the Screen Grid

◼ To Set the Grid Brightness

◼ Scale

◼ COLOR GRADE
◼ Waveform Freeze
END of Attachment...

Is the MSO5000 front-end really more noisy? I checked it against a much higher-end 1GHz scope and also a 350MHz analog scope and the noise was exactly the same on all of them when using the freq gen from the MSO. I'll have to check against a better function generator but I don't think it will be much different. ??

perfect, thanks, I was looking at these 2, I hate everything about rigols UI on my ds1054

All these small annoyances with low and medium scopes drived me cracy, had rigol DS1074Z, then Rigol MSO4054 and always there where tradoffs and limitations bugs and not thought tru solutions when using them fully. decoding was a hit and run, small screen, fideling back and forth with zoom, always woundering if it was the DOT or the scope that played tricks..So when a InfiniiVision MSOX6004T (Incredebly cheap 6000€! fully loaded! A leasing company sold it, had no idea what it was (They had two, bought them both, soldone and had the other for free!)..they mostly sold cars, Trailers, tracktors machines etc I was the only bidder! Since i was in the proces of ordering a brand new one from Keysight) and was earching, it came in view ! Now only look back when having naightmares after a long stint in the lab. Life before and after...All those seconds with becouse of sluggish updates when using the Rigols that gave me gray hair and stomack problems. I recomend the msox6004a!

Many thanks for this review, I have been agonising over which of these two scopes to buy. Like you, I have tended to favour Rigol in the past but was starting to move towards Siglent after watching several EEBlog videos. Now, having watched your excellent comparison video, I will definitely be going the Siglent route. I understand that Rigol have designed their own asic front end chip, this might be the reason for the poor noise performance. One possible downside of the Siglent is that it has only one sig. gen. output channel and no modulation modes, whereas the Rigol has two channels with am/fm/fsk modulation.

Hello. Have you already screwed the screw on the shelf into place? 😅

you can set the horizontal expansion point on the siglent to be anywhere.

I like the update speed on the siglent better than the rigol and the display is rock solid - the rigol is fluttering about. I'm wondering how much better (if any) a Siglent SDS5034 would be vs SDS2354X-plus - in terms of features and experience... I think the separate vertical controls could be handy but isn't a dealbreaker, but also 5GSa/s (2.5) on the SDS5000 series vs 2GSa/s (1) on 2000. Or whether its just worth getting the base 2104X+ and 'upgrading' :)

Re. Siglent’s lack of video out: you can connect to the SDS2000X series using a computer or tablet (or smartphone for that matter) and point a browser to the scope’s IP and see a full-screen image of the scope’s display. Control the scope too.

Oooh, have to press a button to select the ch! Nasty! They should be shot for that. (yoking .. really).
It also seems that you're a little confused about what the word "DEFAULT" means. No problem.
Okay, so this seems to be a bunch of nitpicks with the Siglent edging out the Rigol. Good thing he Rigol is a bit cheaper. (but not as I write this) For me the win goes to the Siglent. I'll agree, neither one is quite as good as a $18,000 Keysight, R&S or Tek, but if I had $18K burning a hole in my pocket I have higher priority outlets for that kind of excess. I'm a hobbyist so either of these scopes are bordering on overkill for what I need. The Siglent (especially considering the present pricing) is the clear winner. One is on the way as I type.

4:42 I dont thinks so "disappointment" you can change the thickness with measure>averega> such as 128.

The SDS2104X Plus can be upgraded to the SDS2354X Plus?

that noise in the rigol might as well be the fuckton of waveforms/s overlapping

To be fair, the Rigol can decode flex-ray, i2s and mil-std-1553 serial data. This might be an important difference to some people. Rigols last firmware update was in April 2020. I'm hoping that is only because of coronavirus and that future updates will come at some point. I'm looking to replace my old DS 1102C which has served me well having never been updated. Alas, the lcd is starting to exhibit solid color vertical lines that come and go. I've tried reseating the cable, but I fear that it's the actual screen that is failing internally. I'm afraid to pull it completely apart until I have a new scope. If I can fix it, it is destined for portable and possibly automotive service. It's been a great scope, even though it cost a small fortune (>$1000) new. Right now, the MSO 5074 with the free bundle is looking pretty good to me for $1000. I do like that the new Siglent's support wifi, but I'm hesitant to switch from Rigol because I've been so happy with my last purchase from them.

Rigol Is great machine...

Regarding channel to channel skew: from the MSO5000 manual: Channel Delay
When using an oscilloscope for actual measurement, the transmission delay of the probe cable may bring relatively greater errors (zero offset). MSO5000 allows you to set a delay time for calibrating the zero offset of the corresponding channel. Zero offset is defined as the offset of the crossing point of the waveform and trigger level line relative to the trigger position, as shown in Figure 2-2.
Missing Graphic which doesn’t copy.
Figure 2-2 Zero Offset
Press 1 → More → Ch-Ch Skew, rotate the multifunction knob or use the numeric keypad to set the desired delay calibration time. The available range of the delay calibration time is from -100 ns to 100 ns.
Note: This parameter is related to the instrument model and the current horizontal time base setting. The larger the horizontal time base is, the larger the setting step will be.

Thanks for the video and update. Though I still can't make my mind going for which one. I fully agree with your unbiased opinion.
Actually I ordered a MSO5074 and returned it when I have seen the video of "fake" vertical range below 5mV. I can accept it's ADC noise, but I can't accept the digital zoomed vertical range. It dose limit it's ability to measure low level signal like ripple noise.
Below are some of my personal points of view:
MSO500's strong points:
- tangible knob and keys for vertical controls and soft menus
MSO500's weak points:
- the vertical ranges below 5mV/div are digital zoomed
SDS2000X+'s strong points:
- more detail in specifications, I feel Rigo's are a bit vague.
- fruitful power measurement functions
SDS2000X+'s weak points:
- the UI seems hassle, not intuitive.
- can't acquire waveforms outside the screen although it has got a lot of memory. it should be able to zoom out or shift waveforms which outside the screen. I can't say if the segmented acquisition make sense. But having zoom out ability make things easier.
Something I'm not sure:
- If MSO5000's full-memory hardware measurement is for all the measurements? I can only find the frequency counter is in hardware.
- If MSO5000's full (1M points) memory FFT has high update rate? SDS2000X+'s seems a bit laggy. But it's still much better than those vintage digital oscilloscopes other than HP/Agilents'.
Both model don't search events of digital channels. That's a pity.

I am being petty here, but thanks for pronouncing "Rigol" correctly.

Dude, connect USB mice to Siglent - and you don't have to touch the screen! :)

Yeah rigol is more of a "digital" oriented scope, higher sampling rate higher noise. Price is about 30% more for siglent, worth it if you have the budget. Skew adjustment is in SCPI but doesn't work, reported as a bug, not fixed. But for me 99% of the time logic analysis on the PC is better than a scope.

Rigol have better support and after firmware update works better. Also it have many free bonuses and options. Sample rate 5GS instead Siglent 2GS.

thanx.... rigol useless for us

if you can't comment on Tank's msg this review cannot be trusted

aimless waffling. Maybe try organising a structured review next time.

All GUI writers should be locked into a test room for 1,000 days and made to use the scope all that time in order to make these GUI MORRONS write the GUI properly, INCLUDING responsiveness!

Maybe the terrible ADC is because the Rigol has a terrible ADC? :) ...a compromise for the 8GS/s ADC!