Author Topic: Show us your square wave  (Read 229586 times)

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Offline Dave_g8

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Re: Show us your square wave
« Reply #500 on: June 09, 2024, 03:25:33 pm »
Hi Bill,
Yes, I expect the noise is from the current spikes that will occur during the transitions.
 

Offline BillyO

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Re: Show us your square wave
« Reply #501 on: June 09, 2024, 03:34:27 pm »
Just so everyone is aware, the design choices for this pulser were 1) make it cheap and 2) make it relatively easy to build and 3) make it as fast as 1) & 2) would allow so that it can be used to check out the rise time on (slower) scopes.  With a bit of math it does a decent job with scopes up to 200MHz or so.

I know I could have made it perform much better using 74VLC, smaller SMD components and a much smaller footprint, but that would make it much harder for the newbie to build.  Almost anyone who can solder can solder these relatively big SMD resistors.
Bill  (Currently a Siglent fanboy)
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Offline TurboTom

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Re: Show us your square wave
« Reply #502 on: June 09, 2024, 04:40:37 pm »
For comparison, here's a similar setup of the square-wave output of my rubidium frequency source, yet utilizing four inverter gates in parallel (no schmitt-trigger) of 74LVC2G04 variety, displayed on a Rigol MSO4000 scope (4GSa/s). The slope rise/fall times have got to be <500ps, considering the contribution of the scope. So my design of an inexpensive a cheap, fairly fast square wave source would consist of a digital crystal oscillator, followed by a single gate driver (maybe a 74VLC1G14), followed by two of the aforementioned dual inverter gates in at least SOT23-6 enclosures with lots of bypassing. I would consider Leo's fast pulser "inexpensive" and considering its performance far superior over any "cheap" solution one could possibly think of. If higher output levels are desired / required, the parallel LVC gate method may be a possible way to go, though.

FYI, this same source connected to an HDO1000 scope (2GSa/s) shows pretty well defined "Gibbs ears" on both sides of the slope, so the fast edges exceed the capabilities of that scope's sampling/display engine. Sorry, no screenshot of this, but neither spectacular either  ;) .
 
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Online Performa01

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Re: Show us your square wave
« Reply #503 on: June 10, 2024, 05:36:47 pm »
Here’s the opposite of a cheap solution, but much better suited for lab use – a Siglent SDG7102A Arbitrary Waveform Generator programmed to output a 10 ns wide pulse at 10 MHz repetition rate with 1 ns transition time for both edges.

A quick check with a high bandwidth SDS7404A DSO reveals that the pulse shaper in the SDG isn’t quite accurate anymore at faster edges like this, hence the actual rise time is more like 900 ps:


SDS7404A H12_PR_W10ns_RT1ns_4GHz_Dots

A 500 MHz (actually 570 MHz) SDS2504X HD DSO by contrast, shows a bit of overshoot – this is the price we pay for analog AA-filtering, even when it’s still not very effective:


SDS2504X HD_PR_W10ns_RT1ns_570MHz_Dots

These measurements were taken in Dots display mode, in order to rule out any reconstruction artefacts. But of course, a properly implemented Sinc reconstruction does an equally flawless job:


SDS2504X HD_PR_W10ns_RT1ns_570MHz_Sinc

If you want to see Gibbs Ears, this won’t be achieved with a regular analog filter (as long as it is a minimal phase system). But it’s easily produced with a digital FIR filter, as in the variable bandwidth limiter provided by the SDS7404A. Here’s an example with 600 MHz acquisition bandwidth:


SDS7404A H12_PR_W10ns_RT1ns_600MHz_Dots
« Last Edit: June 10, 2024, 05:39:14 pm by Performa01 »
 
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Offline egonotto

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Re: Show us your square wave
« Reply #504 on: June 11, 2024, 05:27:51 am »
Hello,

Siglent SDG7102A and Siglent SDS7404A is very impressive. Here is a 1 kHz square wave with a 5 MHz but 16 bit PicoScope 4262.

Best regards
egonotto
 
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Offline Aldo22

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Re: Show us your square wave
« Reply #505 on: June 11, 2024, 07:04:27 am »
@egonotto

I don't quite understand what you're showing us.
This is more of a trapezoid with 18 microseconds (not nanoseconds) rise time.
What's "impressive" about that?
No offense, I just don't understand it.
 
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Offline tggzzz

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Re: Show us your square wave
« Reply #506 on: June 11, 2024, 07:28:03 am »
@egonotto

I don't quite understand what you're showing us.
This is more of a trapezoid with 18 microseconds (not nanoseconds) rise time.
What's "impressive" about that?
No offense, I just don't understand it.

The impressive part is being able to look at the last 1% of the risetime.

With an 8-bit scope the resolution would be inadequate.
There are lies, damned lies, statistics - and ADC/DAC specs.
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Offline egonotto

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Re: Show us your square wave
« Reply #507 on: June 11, 2024, 07:29:21 am »
Hello,

I wanted to highlight the capabilities of the Siglent SDG7102A and Siglent SDS7404A combination by showing a rectangle with the PicoScope 4262.
However, the PicoScope 4262 also has strengths. It is a true 16-bit device.

Best regards
egonotto
 
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Offline Aldo22

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Re: Show us your square wave
« Reply #508 on: June 11, 2024, 08:41:49 am »
Hello,

I wanted to highlight the capabilities of the Siglent SDG7102A and Siglent SDS7404A combination by showing a rectangle with the PicoScope 4262.
However, the PicoScope 4262 also has strengths. It is a true 16-bit device.

Thanks, but could you explain that for idiots like me?
I assume the signal comes from the AWG (SDG7102A). Does it generate a square wave or a trapezoid?
If trapezoid, why? So that the Picoscope can keep up?
What role does the SDS7404A oscilloscope play here?

What does the whole thing demonstrate? That a trapezoid has no steep edges and therefore almost no overshoot?
I really don't want to annoy you, but I don't get it.
Thank you.


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Online 2N3055

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Re: Show us your square wave
« Reply #509 on: June 11, 2024, 09:14:04 am »
Hello,

I wanted to highlight the capabilities of the Siglent SDG7102A and Siglent SDS7404A combination by showing a rectangle with the PicoScope 4262.
However, the PicoScope 4262 also has strengths. It is a true 16-bit device.

Thanks, but could you explain that for idiots like me?
I assume the signal comes from the AWG (SDG7102A). Does it generate a square wave or a trapezoid?
If trapezoid, why? So that the Picoscope can keep up?
What role does the SDS7404A oscilloscope play here?

What does the whole thing demonstrate? That a trapezoid has no steep edges and therefore almost no overshoot?
I really don't want to annoy you, but I don't get it.
Thank you.


Quote from: Sesamstrasse
...wer, wie, was,
wieso, weshalb, warum,
wer nicht fragt, bleibt dumm!

It demonstrates that every square wave IS a trapezoid, it is just a question of  how steep are the sides...  ;D
 
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Offline egonotto

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Re: Show us your square wave
« Reply #510 on: June 11, 2024, 09:18:25 am »
Hello,

the important sentence I wanted to say was: "Siglent SDG7102A and Siglent SDS7404A is very impressive"

But I wanted to respect the topic of the thread and therefore show a square wave. I spontaneously decided to use the PicoScope 4262 and its generator for this. 

But I think you can also show a square wave of the PicoScope 4262, because it is a special and unique device.

So there is no deeper meaning behind it.

Best regards
egonotto

 
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Offline Aldo22

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Re: Show us your square wave
« Reply #511 on: June 11, 2024, 09:29:36 am »
@egonotto
@2N3055

OK, thank you!
Note to self: Don't always look for the deeper meaning...  :-DD

Still, I wonder what 16bits are good for, if the signal is completely ironed out by the 70ns rise time of the Picoscope.
 
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Online Performa01

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Re: Show us your square wave
« Reply #512 on: June 11, 2024, 09:45:18 am »
Still, I wonder what 16bits are good for, if the signal is completely ironed out by the 70ns rise time of the Picoscope.

A good DSA (Dynamic Signal Analyzer) also has at least 16 bits and its rise time might exceed 1 µs.

A digital audio recorder also has up to 24 bits, even though its rise time is measured in microseconds rather than nanoseconds. ;)

The Pico cannot resolve fast ringing and HF noise, but it can do very accurate measurements within its rated bandwidth. Apart from the sexy topics like telecommunication and networking, most prozesses in the industry are rather slow and easily covered by 5 MHz.
« Last Edit: June 11, 2024, 09:47:05 am by Performa01 »
 
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Offline egonotto

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Re: Show us your square wave
« Reply #513 on: June 11, 2024, 09:49:15 am »
Hello,

the square wave has +-900 mV amplitude and 10 Hz. But look at the noise. It is about 0.5 mVpp at 200 mV/div. That is the special feature of the Picoscope 4262.

Best regards
egonotto

 
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Online 2N3055

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Re: Show us your square wave
« Reply #514 on: June 11, 2024, 10:19:04 am »
@egonotto
@2N3055

OK, thank you!
Note to self: Don't always look for the deeper meaning...  :-DD

Still, I wonder what 16bits are good for, if the signal is completely ironed out by the 70ns rise time of the Picoscope.

If spectrum of your signal is under 5MHz, there is simply no scope that can come even close to Pico 4262..
 
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Offline egonotto

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Re: Show us your square wave
« Reply #515 on: June 11, 2024, 10:20:33 am »
Hello,

for contrast a 10 Hz signal with a PicoScope 5444B (1 MOhm input). The rise time is much better here, but the noise is much worse.

Best regards
egonotto
« Last Edit: June 11, 2024, 10:22:46 am by egonotto »
 
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Offline Aldo22

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Re: Show us your square wave
« Reply #516 on: June 11, 2024, 10:31:20 am »
@Performa01
@2N3055
@egonotto

Great, thanks for the information!  :-+
It's just a bit off-topic: "show us your highest frequency square wave that looks like a strong square wave" and "kind of curious to see what is the lowest price device is that can produce a really good looking square wave at 1, 5, 10, 20, and 30 MHz?"

I'll show something on-topic.
5MHz from DSO2000 (Scope + AWG)
« Last Edit: June 11, 2024, 10:37:33 am by Aldo22 »
 
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Online Performa01

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Re: Show us your square wave
« Reply #517 on: June 11, 2024, 12:40:01 pm »
Just to complete the SDG7102A topic: here is the fastest slope of 500 ps for both edges. With these settings, the instrument is operated outside its specs and actual rise time is a little slower. Apart from that, we’re starting to see Gibbs Ears in this capture – this is from the ~1.2 GHz reconstruction filter inside the AWG.

I have limited the acquisition bandwidth to 1.25 GHz. This doesn’t make any difference – except for cutting off all the HF noise above 1.25 GHz, because there is no meaningful output from the AWG above 1.2 GHz anyway.


SDS7404A_SDG7102A_Pulse_W10ns_RT500ps_BWL1.25GHz

The genuine resolution is “only” 12 bits, yet we can get a bunch of additional bits by filtering and/or averaging. The example above shows a noise-free ten-times zoom for close inspection of the pre-ringing.


It's just a bit off-topic: "show us your highest frequency square wave that looks like a strong square wave"

Not quite sure what qualifies as “strong square wave”, but if the criterion is that it can be easily identified as such, then I have an example here:


SDS7404A_Demo_Square_500MHz

This is a 500 MHz square wave coming from a SignalHound TG44A tracking generator. Certainly not the cleanest square wave around, yet with nice fast edges.
« Last Edit: June 11, 2024, 12:46:07 pm by Performa01 »
 
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Offline Electro FanTopic starter

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Re: Show us your square wave
« Reply #518 on: June 11, 2024, 09:53:54 pm »
Not quite sure what qualifies as “strong square wave”, but if the criterion is that it can be easily identified as such, then I have an example here:



About 9.5 years after the original post “can be easily identified as such“ sounds like a reasonable criterion to me :)
EF
 
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Online Performa01

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Re: Show us your square wave
« Reply #519 on: June 12, 2024, 06:27:31 am »
About 9.5 years after the original post

Huh?
 

Offline guenthert

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Re: Show us your square wave
« Reply #520 on: June 12, 2024, 07:28:01 am »
About 9.5 years after the original post “can be easily identified as such“ sounds like a reasonable criterion to me :)
EF

And yet, only Tomorokoshi was able to produce one in https://www.eevblog.com/forum/testgear/show-us-your-square-wave/msg1332941/#msg1332941

Seriously though, if the request would have been for a periodic composite signal where there are only odd harmonics, decaying with 1/f and where at least the fifth harmonic is included to 70%, there wouldn't be much needless discussion about the shape, the bandwidth requirements would be obvious and also that an oscilloscope isn't the ideal tool for this.   But then, where would be the fun in that?
 

Offline TurboTom

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Re: Show us your square wave
« Reply #521 on: June 12, 2024, 07:31:00 am »

About 9.5 years after the original post “can be easily identified as such“ sounds like a reasonable criterion to me :)
EF

At least, this permits posting some seriously low frequency square waves...  >:D
 

Offline Electro FanTopic starter

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Re: Show us your square wave
« Reply #522 on: June 12, 2024, 09:10:15 am »
About 9.5 years after the original post

Huh?

When I made the original post almost a decade ago I had some feedback about “what’s a strong square wave?” I wasn’t sure then and I’m still trying to learn - but your descriptive wording resonates well with me.   :-+
 
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Offline joeqsmith

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Re: Show us your square wave
« Reply #523 on: June 15, 2024, 01:22:31 am »
GigaWave with Tektronix S-52 tunnel diode head (<25ps Tr)

https://www.sjl-instruments.com/


Nice, what I would like to see the real time behavior, as 20..80% or 10..90% rise time changes over time :D

On a LeCroy easy to graph over time as rise f(t).

Better late than never.   Showing the output from the LiteVNA (low cost VNA). 


Offline joeqsmith

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Re: Show us your square wave
« Reply #524 on: June 15, 2024, 03:42:00 am »
Showing the risetime drift using the latest software with tracking  enabled.  The Tektronix pulser is very slow.  There is a tradeoff between the drift, amount of and how fast the data is collected and the repeatability.   I would imagine if this pulser had a faster pulse rate, I could collect more data and this measurement would tighten up.   

Still, less than 5ps over a span of 21 minutes.   Also they spec the scope for 40ps typical 80/20.   All of the measurements I have made fall below that.   

***
Also shown after 50 minutes, it is starting to appear gaussian with less than 7ps.   
« Last Edit: June 15, 2024, 04:01:30 am by joeqsmith »
 
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