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PostPosted: Sun Jul 10, 2022 2:01 pm 
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@Garth.

The 0V line is where the blue arrow is on the lower left side 0V the image. There is no offset. The driving chip is a 74LS04 in all cases.

The resistors were placed between the output and ground of the driving chip as I was trying to increase loading..

OV low was achieved with the CMOS loads. ~0.05V for the LS TTL loads and ~0.15V for the TTL loads. I checked this with two scopes and they agreed. However I expected this as the output currents here are miniscule for the CMOS and LS TTL loads WRT to the 12mA or 24mA mentioned in the data sheets for LS TTL outputs which give typical values of 0.25V and 0.35V respectively. The 6 TTL loads might have been as high as 9mA or so.

I don't have any 74FCT, sorry.

I can certainly try some pull-up resistors but LS TTL is not really my end goal. My end goal would be testing CMOS memory and PLD devices driving CMOS loads to see if we should take the data sheet TTL environment specs seriously anymore. My concern at this time is that weird dip, which I do not get with CMOS doing the driving BTW. It only happens with the LS TTL.

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PostPosted: Sun Jul 10, 2022 3:11 pm 
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Here are some pictures of my set-up. I hope the probing one is satisfactory. It's tough to hold the camera and the probe at the same time so that shot was a bit of a nightmare.

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BoardPower.jpg
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Attachment:
probing.jpg
probing.jpg [ 137.25 KiB | Viewed 1053 times ]

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PostPosted: Sun Jul 10, 2022 3:43 pm 
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Thanks for the photos! Just a very quick thought - is that electrolytic certainly the right way around? I'm not sure what the effect would be if it wasn't.


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PostPosted: Sun Jul 10, 2022 4:00 pm 
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BigEd wrote:
Thanks for the photos! Just a very quick thought - is that electrolytic certainly the right way around? I'm not sure what the effect would be if it wasn't.

Yes, ground is the lower power rail in that photo.

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PostPosted: Sun Jul 10, 2022 4:21 pm 
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Can you arrange your probing to take the ground reference from a pin of the same chip you're looking at the signal from? And if you do that, any difference between checking the driving chip versus checking a receiving chip? (Again, in both cases, using the chip's own ground pin as probe ground.)


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PostPosted: Sun Jul 10, 2022 4:49 pm 
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I've done that. It's a bit of a stretch for the whisker but it's doable. It provides exactly the same results though, at least nothing I can see on the scope. The point I'm using in that picture is only an inch away from the load ground along a fairly beefy trace.

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PostPosted: Sun Jul 10, 2022 5:15 pm 
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I'm still wondering if that dip is "real" - by which I suppose I mean does a receiving chip see the dip. If it did, and if it were a clock or a strobe, that would be bad news.


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PostPosted: Sun Jul 10, 2022 5:31 pm 
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It is what I'm thinking too. In the original solderless breadboard circuit the sip was a lot worse. This circuit improved it substantially - less than half as much. Also with the original circuit my other scope (a better one, but harder to get pictures off) showed the dip and it seemed almost as bad, but now with the improved circuit the better scope (UNI-T), while still showing the dip, it s only about 1/3 of what I see on the Hantek scope. I wish I had my Tektronix 475 back.

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PostPosted: Mon Jul 11, 2022 7:13 pm 
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Just a thought, again: if you double up on the bypass caps, leaving everything else as it is, does that improve matters?


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PostPosted: Wed Jul 13, 2022 5:05 am 
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GARTHWILSON wrote:
The next thing to try might be different values of pull-up resistors at the TTL's output. I'm sure most of us have the capability to do the experiment; but since you're already set up,... :D Actually, now I'm wanting to do it with 74FCT, and you probably don't have that.

BillO wrote:
I don't have any 74FCT, sorry.

I still need to order a long list of parts, including some 74FCT, as I don't have any FCT's; but today I tested a 74LS04 (just one section of it, just one manufacturer, Harris I believe, and just one IC, DC only, ie, no waveforms and no measurement of rise time), and got the following:

with power-supply voltage at 4.97V:
No load: VOL=0.16V, VOH=4.41V!
VOH with a 12K to Vcc: 4.97V! IOW, it really does become an open circuit when you pull it up higher.

measuring VOH with various resistors to ground:
Code:
 R      Vo     I
12K   3.54V  295µA
6.8K  3.51V  516µA
3.9K  3.47V  890µA
2.2K  3.44V  1.564mA
1.5K  3.40V  2.27mA
820Ω  3.33V  4.06mA
470Ω  3.23V  6.870mA
100Ω  2.20V  22mA

IOW, it can pull up fairly hard, just not above about 3V.

measuring VOL with various resistors to Vcc:
Code:
 R       Vo     I
2.2K   .24V  2.15mA
1K     .29V  4.68mA
470Ω   .38V  9.77mA
150Ω  1.22V  25mA
100Ω  1.81V  31.6mA
 82Ω  1.89V  37.6mA

Resistors were carbon film, 5% tolerance. I did not measure them, only went with what was marked; but I usually find 5% carbon-film resistors to be no more than about 1% off anyway.

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PostPosted: Wed Jul 13, 2022 6:56 pm 
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This is typical TTL LS characteristics from page 1-52 of 1988 TTL Logic Data book. TI's characteristics seems to suggest better Voh and Vol drive capabilities than Harris.
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PostPosted: Wed Jul 13, 2022 8:16 pm 
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Wow, I wish all logic data sheets had such graphs!

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PostPosted: Wed Jul 13, 2022 10:53 pm 
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I went ahead and calculated the apparent internal resistance of Garth's 74LS04. Since it's a TTL chip I did not expect a single value like I would with CMOS, but I did not expect this!

Code:
 R      Vo     I       Ri
12K   3.54V  295µA    4847
6.8K  3.51V  516µA    2832
3.9K  3.47V  890µA    1784
2.2K  3.44V  1.564mA   986
1.5K  3.40V  2.27mA    389
820Ω  3.33V  4.06mA    404
470Ω  3.23V  6.870mA   253
100Ω  2.20V  22mA      126

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PostPosted: Tue Jul 19, 2022 10:51 pm 
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BillO wrote:
It is what I'm thinking too. In the original solderless breadboard circuit the sip was a lot worse. This circuit improved it substantially - less than half as much. Also with the original circuit my other scope (a better one, but harder to get pictures off) showed the dip and it seemed almost as bad, but now with the improved circuit the better scope (UNI-T), while still showing the dip, it s only about 1/3 of what I see on the Hantek scope. I wish I had my Tektronix 475 back.


I had a bit of "enjoyment" time in the lab instead off all the cleaning up and re-arranging things today and got a couple of projects pieces done. One thing I mentioned was as above. I finally got that scope image off the UNI-T. Now we can see it side by side with the one from the Hantek.

Both these traces were taken with exactly the same experimental set-up. You can see how the "dip" is hugely reduced on the UNI-T scope. This lends a whole lot more credence to it being a measurement artifact.

Attachment:
6CMOS_UNI-T.png
6CMOS_UNI-T.png [ 8.87 KiB | Viewed 879 times ]


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PostPosted: Thu Nov 03, 2022 9:40 pm 
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Having just acquired a 500MHz scope and probes I wanted re-visit this to see if the anomalous rising edge was still there.

Lo and Behold
Attachment:
SDS2504X Plus_2.jpg
SDS2504X Plus_2.jpg [ 77.31 KiB | Viewed 732 times ]


It is still there. At this point I'm pretty sure that it is not an instrumentation problem.

This picture was of a 74LS04 output driving the 6 inputs of a 74ACT04

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