... aren't the inputs only rated to handle like 100v? ...
Look at your scope's manual and/or specs. Most scopes would be rated to withstand 400-600v on the input, but that depends on your scope's input circuit.
And you'd probably want to use the a.c. coupling mode so you only see the ripple, not the big d.c. voltage offset...
Yes you do need to know what your scope is capable of measuring.
We cannot tell you what that is.
Now it has been over 25 years since I did this on a daily basis, but this it how I remember it going.
OK, so we are using a scope capable of measuring at least 500VDC.
So we have the scope set to measure DC at our largest interval possible.
We connect the probe to the B+ and find our trace. Then we center that trace on the middle line.
Then we switch the scope to measure AC. Since our measurement interval is still set to the highest possible, we don't see any AC yet.
Still just a flat line at the center of our scope. Then we start dialing the measurement interval down until we start to see waves instead of a flat line.
We may need to adjust our sync at this point to start to see the waves instead of a fuzzy fat line.
But we keep dialing our interval down until we see the waves or the fuzzy fat line.
So lets say for this example we expect to see 4VAC ripple on our just rectified DC.
When we get down to the 1V per division setting, we should have an AC wave that measures 2 divisions above and below the middle line of our scope.
The gear I worked on would usually give us a spec for acceptable AC ripple on each voltage.
If we expected to see 4VAC ripple here, but when we dialed down to 10V per division we got the wave measuring 2 above and 2 below the line, we have a problem.
Instead of 4V of ripple we are measuring 40V. Our first E-cap is not doing it's job.
Instead lets say we dial down to 1V per division and we see our wave measures 2 above and 2 below or less. So we are good here.
Now if we move our probe to the next voltage test point, we may lose sight of our trace if the next DC voltage is much lower than our first.
Our DC offset is set to put the trace in the middle for our 1st voltage. Our trace might have dropped off the bottom of our screen.
So we could just adjust our offset lower to put the trace back in the middle of the screen again.
But if we can seem to find the trace now, we can always start over on DC measurement largest division setting to find our trace and put it back in the middle of the screen again.
So now we expect our AC ripple to be lets say 2V at our next voltage.
When we get dialed down to 1V per division and we see our AC wave 1 above and 1 below the middle line, we are good.
If we still have 2 above and 2 below the line we know the second E-cap is not doing it's job.
So our 3rd DC voltage we expect to have 1V or less AC ripple.
We follow the same procedure, but this time we should be able to dial down to .5V division and see our AC wave 1 above and 1 below the center or less.
I hope you followed my example. Like I said it has been a long time since I last did this.
When you do it on a daily basis, it becomes like 2nd nature and you really don't need to think about the dials and knobs you turn to make it happen.
It makes it harder to explain to someone else then, but very easy to just do it yourself.
