Simplified summery of all the past N.S. in this thread
The Tbolt needs a very clean and stable +12 volt supply to get the best
possible performance.
The -12 & +5 supplies are not very critical.
For the +12 volt supply, use one as good as you can,
For the -12V (-8 to -13) & +5V (+-5%) power, Most any general purpose
Regulated supply will work fine.
To help explain in more detail,
Bob added:
A common mode choke might also be a good idea,
[to use in several places, to clean up and remove high freq and audio noise
caused by switcher etc.]
WarrenS added:
TRUE, BUT A Common mode choke filter does not remove 60 or 120 Hz line
freq ripple on the +12 V,
nor does it help with voltage variations caused by Line voltage
sensitivities.
For that, using a +15 volt supply feeding a well heatsinked, 12V three
terminal regulator is one good way to keep the Line freq ripple and voltage
variations out of the +12V. [The 15 volts has to be "clean" with no High
freq junk, OR some will get thru the post regulator.]
ws
*************
Hi
What I'm talking about here is a common mode choke on the +12 volt supply.
They are pretty common items. Just about every TV or commercial switcher has
one on the power line. Some switchers have them on the outputs as well.
Two independent windings are put on the same core. The DC current / flux
generated in one cancels the magnetizing flux from the other. That keeps the
core from saturating. Thus you can get a lot of inductance in a small
package. With a differential mode choke the thing that makes them *big* is
core saturation. The obvious gotcha is that they will indeed saturate with
very high levels of common mode noise. That's unlikely to be an issue here.
The simple reason it would apply here is your earlier comment that the +12
is the supply to worry about. If the +12 and +5 are "garden variety" that
would suggest a higher grade supply for the +12 source. As long as the
currents are balanced, a common mode choke can be useful.
No choke is going to help with DC regulation at the levels we are talking
about here. What a choke is going to help with is audio and RF crud on the
supply. Things like an external three terminal regulator will help with
differential noise on the supply. The same is true of bypass caps. What they
will not help with is common mode noise. There are some exotic current
source setups that will help with common mode, but a choke is normally a lot
cheaper (and in most cases better approach).
At some point in the audio range the isolation provided by most regulators
drops off. By the time you get to 100 KHz it's rare to find one that is
doing a lot more than the bypass capacitors alone would do. If you know that
the +12 is sensitive, doing a broad band isolation may indeed help things.
Chokes of some sort are likely to be part of what you grab for the task.
I've seen designs that go quite a way down the differential filter road when
the real issue was common mode.
There's no reason to throw away anything else here. It's just one more thing
to consider adding to the design. Depending on exactly how things are or
aren't set up it may or may not help.
Bob
****************
On Feb 26, 2010, at 10:44 PM, WarrenS wrote:
I don't know of any reasonable inductor thing that is useful to reduce
High
current ripple PS ripple.
There where inductors, of the small bread box size, used in very early
tube
radios, But that was mostly just for low current B+ voltages.
Do you have a standard part in mind that will reduce 60 and 120Hz line
voltage ripple by 20 dB or more at 1/2 amp rating,
AND that does not hurt the voltage regulation with changing currents?
What about one to reduce the DC voltage variations?
Your ground loop comment, sounds like you are talking about isolating the
10
MHz Osc ground to reduce ground loop problems and your comments are NOT
about reducing the +12 volt PS ripple. If so, Yea good idea, But BIG
difference.
As often happens on these post, there is misunderstandings somewhere and
they tend to get way off the point,
so have to go now and let others take the torch.
Original question was, Is the Tbolt's -12 volt supply sensitive or
critical.
SIMPLE answer, NO, just use a little common sense with it.
Have fun
ws
**************
Hi
It's pretty easy to get a common mode choke that will indeed break up 120
Hz
ground loops. Often they are very low impedance. With most supplies the
rectified line is what's coming through.
Bob
**************
On Feb 26, 2010, at 10:10 PM, WarrenS wrote:
Common mode choke filter does not get ride of LINE NOISE on the +12 V
or
LINE VOLTAGE sensitivities...,
Please explain how a common mode choke on the +12 and ground does
nothing
to help keep the supply clean.
What size is your common mode choke filter?
To have any effect on 60 Hz PS ripple it would need to bigger than a
(small) bread box .
And to help reduce DC type line voltage variations it would need to be
bigger than a House. (yea, Earth size)
Common mode filters are for HI freq, not 60 Hz OR DC.
But then, you already know that so I do not know why your comment???
ws
*************
Hi
Please explain how a common mode choke on the +12 and ground
does nothing to help keep the supply clean.
Bob
*****************
On Feb 26, 2010, at 9:57 PM, WarrenS wrote:
Lots of questions ....
Same Simple answer.
Make the +12 volts is as good as you can get it, For the rest any
general
purpose PS works fine.
And a Common mode choke filter does not get ride of line noise on the
+12
V or Line voltage sensitivities, both are important on the +12V
ws
****************
Hi
Depending on the supply setup, a common mode choke
might also be a good idea.
The +12 runs the OCXO, so it's going to have an impact.
What about the +5 Volts? Obviously it needs to be crud free. Gross
changes will impact the temperature of the unit. What about small
changes? Is it running the maser reference for the DAC or does
that come off the +12? Is +5 just a digital supply?
Lots of questions ....
Bob
******************
On Feb 26, 2010, at 6:59 PM, WarrenS wrote:
Yes, I Did that, The +5 and -12 has NO effect on freq or operation of
the unit except for really far out voltages.
I tested mine with the -12 from -2 to -15 and could see no effect in
the
e-11 range.
The -12 is used for the RS232 and the -Dac out so If you don't need the
neg Dac out voltage or neg RS232 Drive, then it can pretty much be
anything. But It should be kept in -7 to -13 range, and common sense
means there should be little noise on it so it does not couple into
other things. BUT the circuit it's self does not care what the supply
is
at or what is used.
The +12 on the other hand, Needs to be stable and quiet with no ripple.
I found using a +15 volt supply feeding a 12V three terminal will heat
slinked regulator a good way to go to keep ALL the ripple out of the
+12V
ws
*******************
Hi
Has anybody actually measured the supply sensitivity on the -12 volt
line to see weather a 5 volt change makes any noticeable difference in
the output frequency? The power on -12 is very low, so there should be
negligible thermal impact from a change.
Bob
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