Scope use question...

[Bob Engelhardt]

I\'d like to use both traces on my scope to look at 2 voltages that are
without a common reference. E.g., across R1 & across R3:

________R1____
|
R2 ...
|
R3
____|______

I know that there are isolation probes to do this ($$$), but I\'m
wondering if there is some clever other way to do it. In my minimal
experience I can\'t see one, but I\'m hopeful that someone more clever
than I has one to share.

Thanks, Bob

 

[Michael Terrell]

On Tuesday, August 15, 2023 at 10:42:33 AM UTC-4, Bob Engelhardt wrote:

I\'d like to use both traces on my scope to look at 2 voltages that are
without a common reference. E.g., across R1 & across R3:

________R1____
|
R2 ...
|
R3
____|______

I know that there are isolation probes to do this ($$$), but I\'m
wondering if there is some clever other way to do it. In my minimal
experience I can\'t see one, but I\'m hopeful that someone more clever
than I has one to share.

Thanks, Bob

You could do it with a four channel cope that allows combining two channels in summing mode, like the cutom probes do.
Can you just use two voltmeters, instead?

 

[Jasen Betts]

On 2023-08-15, Bob Engelhardt <BobEngelhardt@comcast.net> wrote:

I\'d like to use both traces on my scope to look at 2 voltages that are
without a common reference. E.g., across R1 & across R3:

________R1____
|
R2 ...
|
R3
____|______

I know that there are isolation probes to do this ($$$), but I\'m
wondering if there is some clever other way to do it. In my minimal
experience I can\'t see one, but I\'m hopeful that someone more clever
than I has one to share.

Thanks, Bob

With that exact circuit you could do it because the voltage on R3 is
some fixed multiple of the voltage on R2+R3 but in the general case,
no, an ordinary 2 channel scope can only measure voltage between three
points (one of them being ground)

--
Jasen.
🇺🇦 Слава Україні

 

[Chris Jones]

On 16/08/2023 12:42 am, Bob Engelhardt wrote:

I\'d like to use both traces on my scope to look at 2 voltages that are
without a common reference.  E.g., across R1 & across R3:

________R1____
    |
    R2           ...
    |
    R3
____|______

I know that there are isolation probes to do this ($$$), but I\'m
wondering if there is some clever other way to do it.  In my minimal
experience I can\'t see one, but I\'m hopeful that someone more clever
than I has one to share.

Thanks, Bob

You could buy or build a differential probe.

If you only wanted to see one trace (e.g. the voltage across R1), you
could put the scope into summing mode and invert one channel. This
doesn\'t work all that well because the gain of the two channels and
probes isn\'t all that well matched.

 

[Bob Engelhardt]

Could I use a pulse transformer for isolation? E.g.:
https://www.digikey.com/en/products/detail/DA101C/3438644

It would put some inductance in the signal path, but I don\'t deal with
frequencies higher than audio. Any other limitations?

 

[Bob Engelhardt]

On 8/15/2023 4:36 PM, Michael Terrell wrote:

You could do it with a four channel cope that allows combining two channels in summing mode, like the cutom probes do.
Can you just use two voltmeters, instead?

I need to see the waveforms.

 

[Bob Engelhardt]

You could buy or build a differential probe.

If you only wanted to see one trace ...

Differential probe: too much (this is just a lower-level hobby). Whole
point is to see both signals.

 

[Jasen Betts]

On 2023-08-16, Bob Engelhardt <BobEngelhardt@comcast.net> wrote:

You could buy or build a differential probe.

If you only wanted to see one trace ...

Differential probe: too much (this is just a lower-level hobby). Whole
point is to see both signals.

Is this a repetitive signal, perhaps you could use the trigger input
and probe the other two signals separately?


--
Jasen.
🇺🇦 Слава Україні

 

[Nick Bowler]

On 2023-08-16, Bob Engelhardt wrote:

You could buy or build a differential probe.

If you only wanted to see one trace ...

Differential probe: too much (this is just a lower-level hobby). Whole
point is to see both signals.

I think a big reason differential probes cost so much is because they are
usually designed for mains voltage applications and are therefore built to
meet various electrical safety standards (CAT ratings, etc.).

If you don\'t care about this safety aspect (e.g., you\'re probing some low
voltage electronics) there appears to be some mass-produced ~US$50 option
readily available on aliexpress (no clue about its quality).

If you are not too fussed about probe performance then maybe you can just
hack together something on the bench. Perhaps a very simple opamp
differential amplifier circuit like this one will fill the bill:

https://www.electronics-tutorials.ws/opamp/opamp_5.html

 

[Chris Jones]

On 17/08/2023 6:17 am, Bob Engelhardt wrote:

You could buy or build a differential probe.

If you only wanted to see one trace ...


Differential probe:  too much (this is just a lower-level hobby).  Whole
point is to see both signals.

I did suggest you might build one. Depending on what your requirements
are, it might be cheap and easy to do. I made a simple one, I think from
an AD830.

 

[Bob Engelhardt]

On 8/18/2023 2:34 PM, Nick Bowler wrote:

[...]
If you are not too fussed about probe performance then maybe you can just
hack together something on the bench. Perhaps a very simple opamp
differential amplifier circuit like this one will fill the bill:

https://www.electronics-tutorials.ws/opamp/opamp_5.html

\"Not too fussed about performance\" - that\'s me! Low frequency, low
voltage, low precision is my world.

The differential amplifier looks good - thanks.