Tweet
Originally posted by Helmholtz
View Post
-
Here's a couple of different resolutions. Also a link to a video in case that is of any value. I'll see what I can do with the +/- 15V.
https://drive.google.com/file/d/1uHz...ew?usp=sharing
-
Like I said, I'm pretty green on the scope. This is what I got when I tried to scope the -15V supply.Originally posted by Helmholtz View Post
https://drive.google.com/file/d/1wWl...usp=drive_link
Comment
-
You should get a steady trace showing the 60Hz ripple.Originally posted by bobloblaws View Post
Do not feed a signal while scoping the power supply and don't forget to connect the probe's ground clip to amp ground.- Own Opinions Only -Comment
-
I can give it another go tomorrow.Originally posted by Helmholtz View Post
Anyway, it sounds like you are convinced my issue is ripple in the +-15V supply. If that is the case, what is left to do other than pull the board out and remove the 1000uF caps and test and possibly replace them?Comment
-
You can first just bridge another cap across the existing 1000uF caps in the 15V supplies using whatever access points are available from the top of the board.Originally posted by bobloblaws View Post
Comment
-
I could not get the scope to lock onto a waveform (other than something around 90Mhz) when trying somewhere other than the output, even then I still had to prime it first with a 64Hz test signal. Like I said, I'm pretty green.Originally posted by Helmholtz View Post
Anyway if I audio probe the positive rail of the +- 15V supply I'm hearing 120hz. Bridging another 1000uF cap did not reduce the hum at the output.
Comment
-
I don't understand this, especially as your scope has "autoset", making it rather foolproof.Originally posted by bobloblaws View Post
Do you use a real scope probe?
Did you connect the ground clip?
Is the scope in good shape?
Do you have the scope's manual?
To me working with a scope is pure fun (admittedly I've used scopes daily for many years).
Last edited by Helmholtz; 09-25-2024, 12:04 AM.- Own Opinions Only -Comment
-
Originally posted by Helmholtz View Post
Yes, the one that came with it. Tried it on 1X and 10X.
Originally posted by Helmholtz View Post
Yes
It's still like newOriginally posted by Helmholtz View Post
Originally posted by Helmholtz View Post
3 files attached
ds1102e.pdf User's Guide for Oscilloscope.pdf Users+Guide+DS1102E.pdf
Comment
-
When you are trying to see the hum component, even when it is riding on a noisy signal, it works well to use the Line Trigger function. This works with both 60 Hz and 120 Hz hum as well an other hum harmonics related to the line signal. This is an old school method that will probably work better than the modern Auto function in this particular circumstance.Originally posted by bobloblaws View Post
Reference post #57 in this thread and the attached table from your scope manual.
Comment
-
Probably the problem is not in the power supply, and not even in the transistor circuit. It is a banal induced background from improper installation of conductors and shielding.Comment
-
Thanks, Tom. I think that helped. I also figured out that I need to spin the time and volt knobs to find the wave. I'd been expecting something to just appear automatically, like when pushing the "Auto" button.Originally posted by Tom Phillips View PostWhen you are trying to see the hum component, even when it is riding on a noisy signal, it works well to use the Line Trigger function. This works with both 60 Hz and 120 Hz hum as well an other hum harmonics related to the line signal. This is an old school method that will probably work better than the modern Auto function in this particular circumstance.
Reference post #57 in this thread and the attached table from your scope manual.
This is from the +15V rail: I believe it is what I heard yesterday when I audio probed the same spot ("H" on the drawing). I don't detect anything like that on the -15V rail (I had to turn the audio probe waaay up to hear any hum), which seems counterintuitive since it seemed like the section associated with the negative rail was where the problem manifested itself (bypassing the contour section eliminated the hum, right?).
I took a video as well, also scoping "H" to show that it is not locked on a single frequency, it is jumping around quite a bit.
https://drive.google.com/file/d/1TRc...ew?usp=sharing
Comment
-
Got it. I didn't account for the actual time spacing of the peaks and simply saw that there were doubled peaks within the 60Hz image. Brain fart. Makes sense now as you've explained it. Thank you.Originally posted by Helmholtz View Post"Take two placebos, works twice as well." Enzo
"Now get off my lawn with your silicooties and boom-chucka speakers and computers masquerading as amplifiers" Justin Thomas
"If you're not interested in opinions and the experience of others, why even start a thread?
You can't just expect consent." HelmholtzComment
-
-
Both of them.
I'm sorry, I don't know your skill level.
Comment
-
No offence taken.Originally posted by x-pro View PostBoth of them.
I'm sorry, I don't know your skill level.
Anyway, the only thing I can think to do at this point is pull the board out again and reflow solder joints, possibly the whole board if revisiting the +-15V supply doesn't solve it.
I'm still perplexed why bypassing the -15V contour section cleared it up but the +15V rail is where I'm detecting noise when probing/scoping.Comment
Comment