A new PR (personal record) as they say in track and field: a rise time measurement of about 40 picoseconds (40 trillionths of a second). This is slightly more than a 6x improvement over the previous PR of about 250 picoseconds (ie, about a quarter of a nanosecond which is of course a quarter of a billionth of a second).
In the image you can see that the voltage increases about 200 mV (4 vertical divisions upward at 50mV per division from the 10% line to the 90% line) in about 2 horizontal divisions (each horizontal division being 20 picoseconds) for a total elapsed time of approximately 40 picoseconds. I don't see any good way to get to a sub picosecond (less than a trillionth of a second) rise time, but it might be possible to squeeze out another 5 - 10 picoseconds with some further studying and fine tuning.
It would take 25 billion of these 40 picosecond increments to move a watch needle 1 second.
No big deal for the veterans here I realize but kind of fun for a guy who had not much of a clue about pulse generators and rise time measurements a couple years ago.
Awesome! You beat my record by 16ps!
What is your source? Which mainframe are you using?
- Ken
Nice job!
Thanks, your earlier work was in part what inspired me!
Awesome! You beat my record by 16ps!
What is your source? Which mainframe are you using?
- Ken
Thanks. I'm using a 7904 with a S-52 and a S-6 in a 7S12. I still have some things to figure out and better understand about the various Tektronix parts. It's a journey.
This is too cool.
Great Job.
I would love to see the circuit and your layout technique.
This is too cool.
Great Job.
I would love to see the circuit and your layout technique.
Pretty simple - plug n play with off the shelf Tektronix everything, if you can find the parts in working condition.
The S-52 pulse generator and the S-6 sampling head sit inside a 7S12 plugin which sits inside the 7904 mainframe.
The S-52 is connected to the S-6 with a short SMA to SMA rigid jumper cable. The 7S12 has a dual dial that lets you choose time divisions plus a 10x, 1x and 0.1x setting and it also has a TDR function that allows you to scroll around in the time domain as well as measure time delays and correlate time to cable lengths. You just plug it all together as described and twiddle the dials and the pulse generated by the S-52 appears on the display as shown. You can find old scanned user manuals in pdf formats on the web. Other than reading the manuals the primary skill required has more do with hunting for antiques than electrical engineering but when you get the parts found and working you have some very good measuring capabilities.
Niiiice!
I don't know what's so fascinating about this, but it floats my boat: a good day I can get a tad over 30ps out of my 54121T boat anchor setup.
Niiiice!
I don't know what's so fascinating about this, but it floats my boat: a good day I can get a tad over 30ps out of my 54121T boat anchor setup.
Yep, there is something hard to describe at work in getting these measurements - I think part of it is just the notion of measuring things in billionths and trillionths - not to mention it's billionths and trillionths of something already kind of small (1 second). You and Joe might be the leaders in the eevblog forum fastest rise times sweepstakes.
I'll play too.
20ps/div. Rise time 25.6ps.
I'll play too.
20ps/div. Rise time 25.6ps.
Check your workbench -- your oscilloscope has fallen over onto its side.
I'll play too.
20ps/div. Rise time 25.6ps.
Check your workbench -- your oscilloscope has fallen over onto its side.
I thought he was using a grey-import camera or something - wrong latitude for his country.
No, no. That's intentional. It makes the electrons go faster.
I'll play too.
20ps/div. Rise time 25.6ps.
Check your workbench -- your oscilloscope has fallen over onto its side.
I take part also!
Thanks for posting this.
Did you do anything special to achieve such a fast rise time with the Tek S-4?
According to the TekWiki site (
http://w140.com/tekwiki/wiki/S-4) it "only" has 25ps rise time.
..
Did you do anything special to achieve such a fast rise time with the Tek S-4?
..
The s-4 head is connected directly to Tek 284 pulse generator connector with 3 FT long SAMPLING HEAD EXTENDER. There was nothing else special. The used plug ins are 7S11 and 7T11.
Someone shared schema pulse generator so fast pulse?
I take part also!
Very nice! You need to work on that jitter though ;-)
A vid of how this works in the Tek world would be great. The HP I have doesn't do the random equivalent time sampling that I believe the Teks do so there's some jiggery pokery that you need to do particularly if the signal's not regular or not reasonably repetitive.
FWIW I did a couple of vids on the HP setup referenced in the square wave thread.
https://www.eevblog.com/forum/testgear/show-us-your-square-wave/msg863872/#msg863872
I'm not sure about the older Tekronix sampling scopes but I don't believe the 11800 series does random equivalent time sampling.
I kind of remember reading in some Tek document that random equivalent time sampling is somewhat limited in performance.
From Tekronix XYZs of Oscilloscopes:
"The bandwidth limit for random equivalent-time sampling is less than for sequential-time sampling."
Unfortunately it doesn't go into details.
Edit: It adds the following:
"Technologically speaking, it is easier to generate a very short,
very precise “delta t” than it is to accurately measure the
vertical and horizontal positions of a sample relative to the
trigger point, as required by random samplers. This precisely
measured delay is what gives sequential samplers their
unmatched time resolution."
Ok, thanks for that, I wasn't aware that there was a technical performance limitation, but happy to have learned something new.
Just checking to see if anyone has some advice on how to adjust the Horizontal SWEEP CAL Control on the 7S12? I have things finally running with the various plug ins
and I'm somewhat reluctant to twiddle more controls.
In the 7S12 manual it shows a waveform as in the graphic attached below. Any chance that with a timebase setting of 1us that pulse #1 should be 1 division across (1 us), and the inverted pulse #2 should be about a half a division across (0.5 us)?
I can come of course up with a tool to make the adjustment but I'm wondering what the best way is to get it calibrated properly?
Thanks!
...
In the image you can see that the voltage increases about 200 mV (4 vertical divisions upward at 50mV per division from the 10% line to the 90% line) in about 2 horizontal divisions (each horizontal division being 20 picoseconds) for a total elapsed time of approximately 40 picoseconds. I don't see any good way to get to a sub picosecond (less than a trillionth of a second) rise time, but it might be possible to squeeze out another 5 - 10 picoseconds with some further studying and fine tuning.
...
Pardon me for saying so, but if we can't see the top of the pulse, it isn't a 40 ps
rise time, it is "merely" a 5000 V/us slew rate for 40 ps. Not the same. Am I wrong?
I don't see any good way to get to a sub picosecond (less than a trillionth of a second) rise time
Childs play for the optical folks, which can then be converted to fast electrical pulses ... bigger problem is getting it down a coax cable.