Returning to this Marconi signal generator which has a lot of ripple
on the (linear) PSU output, I managed to get probes through a barely
accessible crevice and get a couple of screen shots of the rectifier
outputs I'm seeing on the scope.
So there's mains incoming which goes into a toroidal transformer and
thence to the rectifiers. There are two secondary windings on the
transformer and they each get their own bridge rectifier. This is the
waveform that's being applied to the storage caps of the PSU (which
I've disonnected for testing purposes).
The outputs of neither rectifier look at all correct to me. What does
the Panel make of them?


https://disk.yandex.com/i/CP8qRMy-QA-fCg https://disk.yandex.com/i/ubNazf1pFhuNtg

(probes are on 10x and I did compensate them first)

--- SoupGate-Win32 v1.05
* Origin: fsxNet Usenet Gateway (21:1/5)

Cursitor Doom <cd@notformail.com> wrote:

Returning to this Marconi signal generator which has a lot of ripple
on the (linear) PSU output, I managed to get probes through a barely accessible crevice and get a couple of screen shots of the rectifier
outputs I'm seeing on the scope.
So there's mains incoming which goes into a toroidal transformer and
thence to the rectifiers. There are two secondary windings on the
transformer and they each get their own bridge rectifier. This is the waveform that's being applied to the storage caps of the PSU (which
I've disonnected for testing purposes).
The outputs of neither rectifier look at all correct to me. What does
the Panel make of them?

https://disk.yandex.com/i/CP8qRMy-QA-fCg https://disk.yandex.com/i/ubNazf1pFhuNtg

(probes are on 10x and I did compensate them first)

If the bridges were working properly, there should be very little 50-Hz in
the ripple.

Looks like a bad diode in one of the bridges causing a lot of fault current
in one half of the secondary, and so messing up the other supply too.

Cheers

Phil Hobbs

--
Dr Philip C D Hobbs Principal Consultant ElectroOptical Innovations LLC / Hobbs ElectroOptics Optics, Electro-optics, Photonics, Analog Electronics

--- SoupGate-Win32 v1.05
* Origin: fsxNet Usenet Gateway (21:1/5)

On Sun, 10 Mar 2024 21:36:21 -0000 (UTC), Phil Hobbs <pcdhSpamMeSenseless@electrooptical.net> wrote:

Cursitor Doom <cd@notformail.com> wrote:

Returning to this Marconi signal generator which has a lot of ripple
on the (linear) PSU output, I managed to get probes through a barely
accessible crevice and get a couple of screen shots of the rectifier
outputs I'm seeing on the scope.
So there's mains incoming which goes into a toroidal transformer and
thence to the rectifiers. There are two secondary windings on the
transformer and they each get their own bridge rectifier. This is the
waveform that's being applied to the storage caps of the PSU (which
I've disonnected for testing purposes).
The outputs of neither rectifier look at all correct to me. What does
the Panel make of them?


https://disk.yandex.com/i/CP8qRMy-QA-fCg
https://disk.yandex.com/i/ubNazf1pFhuNtg

(probes are on 10x and I did compensate them first)

If the bridges were working properly, there should be very little 50-Hz in >the ripple.

Looks like a bad diode in one of the bridges causing a lot of fault current >in one half of the secondary, and so messing up the other supply too.

Cheers

Phil Hobbs

Thanks, Phil. Getting those rectifiers out will take some major
surgery and I just wanted verification that by devoting some
considerable time and effort into getting at them wouldn't be a
complete waste of time. I shall proceed with the extrication!

--- SoupGate-Win32 v1.05
* Origin: fsxNet Usenet Gateway (21:1/5)

On Sun, 10 Mar 2024 17:28:13 +0000, Cursitor Doom <cd@notformail.com>
wrote:

Returning to this Marconi signal generator which has a lot of ripple
on the (linear) PSU output, I managed to get probes through a barely >accessible crevice and get a couple of screen shots of the rectifier
outputs I'm seeing on the scope.
So there's mains incoming which goes into a toroidal transformer and
thence to the rectifiers. There are two secondary windings on the
transformer and they each get their own bridge rectifier. This is the >waveform that's being applied to the storage caps of the PSU (which
I've disonnected for testing purposes).
The outputs of neither rectifier look at all correct to me. What does
the Panel make of them?

https://disk.yandex.com/i/CP8qRMy-QA-fCg >https://disk.yandex.com/i/ubNazf1pFhuNtg

(probes are on 10x and I did compensate them first)

Are the filter caps removed? Is there a load on the rectified DC?

I assume the scope is AC coupled. You may be seeing a lot of
capacitative coupled hi impedance cruft, not necessarily a failure.

Why can't you open the box?

Is that old sig gen worth the hassle?

--- SoupGate-Win32 v1.05
* Origin: fsxNet Usenet Gateway (21:1/5)

On Sun, 10 Mar 2024 14:55:36 -0700, John Larkin <jl@997PotHill.com>
wrote:

On Sun, 10 Mar 2024 17:28:13 +0000, Cursitor Doom <cd@notformail.com>
wrote:

Returning to this Marconi signal generator which has a lot of ripple
on the (linear) PSU output, I managed to get probes through a barely >>accessible crevice and get a couple of screen shots of the rectifier >>outputs I'm seeing on the scope.
So there's mains incoming which goes into a toroidal transformer and >>thence to the rectifiers. There are two secondary windings on the >>transformer and they each get their own bridge rectifier. This is the >>waveform that's being applied to the storage caps of the PSU (which
I've disonnected for testing purposes).
The outputs of neither rectifier look at all correct to me. What does
the Panel make of them?


https://disk.yandex.com/i/CP8qRMy-QA-fCg >>https://disk.yandex.com/i/ubNazf1pFhuNtg

(probes are on 10x and I did compensate them first)

Are the filter caps removed? Is there a load on the rectified DC?

There isn't a load other than the probe itself. The downstream storage
caps are completely disconnected.

I assume the scope is AC coupled. You may be seeing a lot of
capacitative coupled hi impedance cruft, not necessarily a failure.

It is AC coupled, yes.

Why can't you open the box?

It *could* be done, but the manufactures have made it as difficult as
possible. I suppose I should just be grateful they haven't potted
everything as well.

Is that old sig gen worth the hassle?

Yes. It's a 10khz to 5.4ghz and they still fetch a tidy sum despite
being 25 years old.

--- SoupGate-Win32 v1.05
* Origin: fsxNet Usenet Gateway (21:1/5)

On Sun, 10 Mar 2024 17:25:29 -0700, John Larkin <jl@997PotHill.com>
wrote:

On Sun, 10 Mar 2024 23:19:33 +0000, Cursitor Doom <cd@notformail.com>
wrote:

On Sun, 10 Mar 2024 14:55:36 -0700, John Larkin <jl@997PotHill.com>
wrote:

On Sun, 10 Mar 2024 17:28:13 +0000, Cursitor Doom <cd@notformail.com> >>>wrote:

Returning to this Marconi signal generator which has a lot of ripple
on the (linear) PSU output, I managed to get probes through a barely >>>>accessible crevice and get a couple of screen shots of the rectifier >>>>outputs I'm seeing on the scope.
So there's mains incoming which goes into a toroidal transformer and >>>>thence to the rectifiers. There are two secondary windings on the >>>>transformer and they each get their own bridge rectifier. This is the >>>>waveform that's being applied to the storage caps of the PSU (which >>>>I've disonnected for testing purposes).
The outputs of neither rectifier look at all correct to me. What does >>>>the Panel make of them?


https://disk.yandex.com/i/CP8qRMy-QA-fCg >>>>https://disk.yandex.com/i/ubNazf1pFhuNtg

(probes are on 10x and I did compensate them first)

Are the filter caps removed? Is there a load on the rectified DC?

There isn't a load other than the probe itself. The downstream storage
caps are completely disconnected.

I assume the scope is AC coupled. You may be seeing a lot of
capacitative coupled hi impedance cruft, not necessarily a failure.

It is AC coupled, yes.

So you are seeing capacitively coupled random crud. The diodes aren't
even conducting. The only thing you can be sure of is that all the
diodes aren't shorted.

It's the same shape with DC coupling!
I have no idea what the rest of your message means.

A resistive load and a dc-coupled scope would show you the classic 100
Hz rectified waveform if the diodes are all good. Try to poke a
DVM-type probe in there and do that maybe.

On another forum one of the accredited gurus said to do the
measurement *unloaded* which I did. Loaded makes more sense to me,
though. I'll give it a whirl next time I get an hour to spare (that
could be some days away...)

If you suspect a bad part but can't open the box, what next?

I *can* open the box if I have to. But it's quite a big deal so I just
wanted to know there was a fair chance the bridges could be the issue
first, that's all.

--- SoupGate-Win32 v1.05
* Origin: fsxNet Usenet Gateway (21:1/5)

On Sun, 10 Mar 2024 23:19:33 +0000, Cursitor Doom <cd@notformail.com>
wrote:

On Sun, 10 Mar 2024 14:55:36 -0700, John Larkin <jl@997PotHill.com>
wrote:

On Sun, 10 Mar 2024 17:28:13 +0000, Cursitor Doom <cd@notformail.com> >>wrote:

Returning to this Marconi signal generator which has a lot of ripple
on the (linear) PSU output, I managed to get probes through a barely >>>accessible crevice and get a couple of screen shots of the rectifier >>>outputs I'm seeing on the scope.
So there's mains incoming which goes into a toroidal transformer and >>>thence to the rectifiers. There are two secondary windings on the >>>transformer and they each get their own bridge rectifier. This is the >>>waveform that's being applied to the storage caps of the PSU (which
I've disonnected for testing purposes).
The outputs of neither rectifier look at all correct to me. What does
the Panel make of them?


https://disk.yandex.com/i/CP8qRMy-QA-fCg >>>https://disk.yandex.com/i/ubNazf1pFhuNtg

(probes are on 10x and I did compensate them first)

Are the filter caps removed? Is there a load on the rectified DC?

There isn't a load other than the probe itself. The downstream storage
caps are completely disconnected.

I assume the scope is AC coupled. You may be seeing a lot of
capacitative coupled hi impedance cruft, not necessarily a failure.

It is AC coupled, yes.

So you are seeing capacitively coupled random crud. The diodes aren't
even conducting. The only thing you can be sure of is that all the
diodes aren't shorted.

A resistive load and a dc-coupled scope would show you the classic 100
Hz rectified waveform if the diodes are all good. Try to poke a
DVM-type probe in there and do that maybe.

If you suspect a bad part but can't open the box, what next?

Why can't you open the box?

It *could* be done, but the manufactures have made it as difficult as >possible. I suppose I should just be grateful they haven't potted
everything as well.

Is that old sig gen worth the hassle?

Yes. It's a 10khz to 5.4ghz and they still fetch a tidy sum despite
being 25 years old.

--- SoupGate-Win32 v1.05
* Origin: fsxNet Usenet Gateway (21:1/5)

On Mon, 11 Mar 2024 00:53:31 +0000, Cursitor Doom <cd@notformail.com>
wrote:

On Sun, 10 Mar 2024 17:25:29 -0700, John Larkin <jl@997PotHill.com>
wrote:

On Sun, 10 Mar 2024 23:19:33 +0000, Cursitor Doom <cd@notformail.com> >>wrote:

On Sun, 10 Mar 2024 14:55:36 -0700, John Larkin <jl@997PotHill.com> >>>wrote:

On Sun, 10 Mar 2024 17:28:13 +0000, Cursitor Doom <cd@notformail.com> >>>>wrote:

Returning to this Marconi signal generator which has a lot of ripple >>>>>on the (linear) PSU output, I managed to get probes through a barely >>>>>accessible crevice and get a couple of screen shots of the rectifier >>>>>outputs I'm seeing on the scope.
So there's mains incoming which goes into a toroidal transformer and >>>>>thence to the rectifiers. There are two secondary windings on the >>>>>transformer and they each get their own bridge rectifier. This is the >>>>>waveform that's being applied to the storage caps of the PSU (which >>>>>I've disonnected for testing purposes).
The outputs of neither rectifier look at all correct to me. What does >>>>>the Panel make of them?


https://disk.yandex.com/i/CP8qRMy-QA-fCg >>>>>https://disk.yandex.com/i/ubNazf1pFhuNtg

(probes are on 10x and I did compensate them first)

Are the filter caps removed? Is there a load on the rectified DC?

There isn't a load other than the probe itself. The downstream storage >>>caps are completely disconnected.

I assume the scope is AC coupled. You may be seeing a lot of >>>>capacitative coupled hi impedance cruft, not necessarily a failure.

It is AC coupled, yes.

So you are seeing capacitively coupled random crud. The diodes aren't
even conducting. The only thing you can be sure of is that all the
diodes aren't shorted.

It's the same shape with DC coupling!
I have no idea what the rest of your message means.

Something has to pull the rectified node down, to discharge the stray capacitance and junk coupled into the transformer windings, to make
the diodes actually rectify.

A resistive load and a dc-coupled scope would show you the classic 100
Hz rectified waveform if the diodes are all good. Try to poke a
DVM-type probe in there and do that maybe.

On another forum one of the accredited gurus said to do the
measurement *unloaded* which I did. Loaded makes more sense to me,
though. I'll give it a whirl next time I get an hour to spare (that
could be some days away...)

Add a few Kohms to ground and then scope the waveform.

If you suspect a bad part but can't open the box, what next?

I *can* open the box if I have to. But it's quite a big deal so I just
wanted to know there was a fair chance the bridges could be the issue
first, that's all.

--- SoupGate-Win32 v1.05
* Origin: fsxNet Usenet Gateway (21:1/5)

On Sun, 10 Mar 2024 20:49:12 -0700, John Larkin <jl@997PotHill.com>
wrote:

On Mon, 11 Mar 2024 00:53:31 +0000, Cursitor Doom <cd@notformail.com>
wrote:

On Sun, 10 Mar 2024 17:25:29 -0700, John Larkin <jl@997PotHill.com>
wrote:

On Sun, 10 Mar 2024 23:19:33 +0000, Cursitor Doom <cd@notformail.com> >>>wrote:

On Sun, 10 Mar 2024 14:55:36 -0700, John Larkin <jl@997PotHill.com> >>>>wrote:

On Sun, 10 Mar 2024 17:28:13 +0000, Cursitor Doom <cd@notformail.com> >>>>>wrote:

Returning to this Marconi signal generator which has a lot of ripple >>>>>>on the (linear) PSU output, I managed to get probes through a barely >>>>>>accessible crevice and get a couple of screen shots of the rectifier >>>>>>outputs I'm seeing on the scope.
So there's mains incoming which goes into a toroidal transformer and >>>>>>thence to the rectifiers. There are two secondary windings on the >>>>>>transformer and they each get their own bridge rectifier. This is the >>>>>>waveform that's being applied to the storage caps of the PSU (which >>>>>>I've disonnected for testing purposes).
The outputs of neither rectifier look at all correct to me. What does >>>>>>the Panel make of them?


https://disk.yandex.com/i/CP8qRMy-QA-fCg >>>>>>https://disk.yandex.com/i/ubNazf1pFhuNtg

(probes are on 10x and I did compensate them first)

Are the filter caps removed? Is there a load on the rectified DC?

There isn't a load other than the probe itself. The downstream storage >>>>caps are completely disconnected.

I assume the scope is AC coupled. You may be seeing a lot of >>>>>capacitative coupled hi impedance cruft, not necessarily a failure.

It is AC coupled, yes.

So you are seeing capacitively coupled random crud. The diodes aren't >>>even conducting. The only thing you can be sure of is that all the
diodes aren't shorted.

It's the same shape with DC coupling!
I have no idea what the rest of your message means.

Something has to pull the rectified node down, to discharge the stray >capacitance and junk coupled into the transformer windings, to make
the diodes actually rectify.

I did have a light bulb moment at about 3am and came to this
conclusion. I think of these signals as 'ghost voltages' and they're
the same thing that cause electricians to get false positives for
mains voltage on cabling that isn't live when they use their hi-z neon screwdrivers. It's the same thing we're just calling different names
if I understand you correctly - which I believe I do.

A resistive load and a dc-coupled scope would show you the classic 100
Hz rectified waveform if the diodes are all good. Try to poke a
DVM-type probe in there and do that maybe.

On another forum one of the accredited gurus said to do the
measurement *unloaded* which I did. Loaded makes more sense to me,
though. I'll give it a whirl next time I get an hour to spare (that
could be some days away...)

Add a few Kohms to ground and then scope the waveform.

I have a hunch it will just make it all the more obvious there's
something amiss with the rectifiers.

If you suspect a bad part but can't open the box, what next?

I *can* open the box if I have to. But it's quite a big deal so I just >>wanted to know there was a fair chance the bridges could be the issue >>first, that's all.

--- SoupGate-Win32 v1.05
* Origin: fsxNet Usenet Gateway (21:1/5)