On 4/3/24 11:56, Harvey White wrote:

It used to be that for the older tek equipment (500 series scopes), you washed the filter then sprayed it with something that acted like a dust magnet.

? At LSSM we've been using this product:



? Of course the "Turns an Ordinary Filter into an ELECTROSTATIC Filter!" claim is complete BS; a good trick with no power source. But I have to say, it is very effective.? The next time I clean the filters on my fleet of Tek 500-series scopes, I'll definitely use some.

?(no affiliation, etc)

?????????? -Dave

Is there supposed to be a dust filter in addition to the metal screen "filter"?? The screen is good for keeping fingers and larger animals out but for dust, not so much.? The manual states to wash and allow the filter to dry which makes me think there might have been something else behind the mesh.

?

Thanks,

Barry - N4BUQ

It used to be that for the older tek equipment (500 series scopes), you washed the filter then sprayed it with something that acted like a dust magnet.

Harvey


------------------------------------------------------------------------


On 4/3/2024 11:47 AM, n4buq wrote:

Is there supposed to be a dust filter in addition to the metal screen "filter"?? The screen is good for keeping fingers and larger animals out but for dust, not so much.? The manual states to wash and allow the filter to dry which makes me think there might have been something else behind the mesh.

Thanks,
Barry - N4BUQ

??? Pulling air out of an instrument means sucking air and dirt into
??? the instrument, all around the edges. Not a good thing.

??? Jeremy


??? On Wed, Apr 3, 2024 at 7:38?AM n4buq <n4buq@...> wrote:

??????? Thank you so much for this.? Lots of very good information.

??????? Interesting that you mention airflow direction. That's one
??????? thing that has puzzled me about this scope.? There has been a
??????? lot of discussion lately on other lists regarding whether fans
??????? should should push air into the instrument or pull it out and
??????? the consensus is that pulling it out is best but now I find
??????? that this scope pushes air in.? I presume part of that is to
??????? maximize the air flow directly across the pass transistors but
??????? that's just a guess. I had considered reversing the airflow
??????? but now I don't think I will.

??????? Thanks again,
??????? Barry - N4BUQ

??????? > Hi.
??????? >
??????? > There are now three bearing types available:-
??????? > Ball bearing.
??????? > Sleeve bearing (often sintered bronze* sometimes a plastic
??????? material.)
??????? > And Magnetic.
??????? >
??????? > (* With care, these can last a very long time. Some are
??????? possible to
??????? > extract and "refill" with lubrication, in a similar way to
??????? how we used
??????? > to re-lubricate motorcycle chain's!)
??????? >
??????? > The last type (magnetic) are (mechanically) virtually
??????? silent, but stray
??????? > DC magnetic fields may be an issue in some cases.? Often
??????? found on
??????? > smaller higher speed fans, at a price.? They can still fail,
??????? if dirt
??????? > gets into the bearing area though, or they overheat.
??????? >
??????? > The other source of "whine" or "turbine like" noise, is
??????? caused by
??????? > something being too close to the rotating blades, often on
??????? the "air
??????? > outlet" side.? That can be the motor strut's themselves
??????? (later types are
??????? > profiled to reduce such noise) or a nearby cable, coax, or
??????? even other
??????? > metalwork.
??????? >
??????? > (Large items too close to the inlet side can also cause
??????? noise level to
??????? > increase, as well as restricting airflow, depending on how the
??????? > obstruction allows air to pass into the fan itself...)
??????? >
??????? > Sometimes, changing the fan for one with very similar airflow
??????? > characteristics, but with the inlet over the struts rather
??????? than the
??????? > outlet (if that is the case) can help with the noise level.
??????? >
??????? > Take care not to reverse the airflow through the
??????? instrument.? Many "wont
??????? > like it" over the long term!? Most fans are marked showing
??????? the rotation
??????? > and airflow direction, but it is not difficult to tell just
??????? by looking
??????? > at the blade shape.? (The concave side is "usually" facing
??????? the outlet.)
??????? >
??????? > Instruments in a rack, can have conflicting airflow
??????? requirements too.
??????? > It's not that uncommon to find issues caused by two or more
??????? exchanging
??????? > each others warm air within a rack, rather than working
??????? together to pull
??????? > ambient air "through" the rack.? In such cases, the rack is
??????? likely to
??????? > need it's own fans too!
??????? >
??????? > It is sadly too, not uncommon for a rack to be "over
??????? populated", so that
??????? > instruments that pull air in from the underside, have little
??????? to no space
??????? > for that as the unit below it is too close. There is a
??????? reason for those
??????? > 1 or 2'U' blank panels often seen, not just to make the
??????? front look
??????? > neat.? And again, the type of support for the instrument.?
??????? Shelves and
??????? > "L" shaped supports front to back, can sometimes obstruct
??????? airflow
??????? > to/from the sides as well.
??????? >
??????? > Over the years since many older instruments and equipments were
??????? > developed, there have been vast improvements in fan
??????? technology, in
??????? > particular blade and other airflow profile design aspects.?
??????? Some to
??????? > benefit the ability to push or pull air through a
??????? restrictive passage,
??????? > others to greatly reduce fan noise, without compromising
??????? (too much) on
??????? > the airflow characteristics.? Most will use less electrical
??????? power for
??????? > the same "duty" these days than the older designs, as motor
??????? tech' too
??????? > has advanced.
??????? >
??????? > The last thing you want, is for a fan to run, with the blades
??????? > aerodynamically "stalled", often a hint is a "fluttering"
??????? sound to the
??????? > airflow, and/or air exiting a fan being spat out radially,
??????? more than
??????? > axially.? The resulting overall airflow is usually very low
??????? in those
??????? > cases, regardless to if the fan is pushing air in, or
??????? pulling it out of
??????? > a casing.
??????? >
??????? > Old catalogues to identify the original fan type and performance
??????? > (assuming you have the "originally fitted at manufacture"
??????? fan, and also
??????? > new catalogues (web pages) so as to choose a modern unit
??????? with the needed
??????? > airflow, and possibly reduced noise is what you need.? It
??????? does take more
??????? > time than you might expect though, as often the choices are
??????? either vast,
??????? > or limited.? :-(
??????? >
??????? > Keeping air filters clean too, can help with noise levels,
??????? as well as
??????? > keeping the instrument internals cooled correctly.
??????? >
??????? > Hope something helps.? I hate to see otherwise great instruments
??????? > compromised (or even damaged as a result of overheating)
??????? just because
??????? > someone didn't like the noise, so put a "quieter" fan in.
??????? >
??????? > HP (and other manufacturers) designers will have done the
??????? math, and
??????? > specified the part used originally for a good reason.? Not
??????? just to
??????? > prevent overheating, but also to produce a sensible warm up
??????? time, that
??????? > results in relatively stable operating temperatures, for a
??????? given range
??????? > of ambient temperatures.?? Compare the air outlet(s)
??????? temperatures once
??????? > they have stabilised, for the same ambient and operating
??????? conditions,
??????? > before and after replacing the fan, to be sure. Much higher
??????? with the
??????? > new fan, and it's probably not doing the job needed of it.?
??????? "How Much"
??????? > is a moot point though.
??????? >
??????? > Cheers All.
??????? >
??????? > Dave 'KBV
??????? >
??????? > (Who's populated and retrofitted customer racks with various
??????? "high
??????? > dissipation things" in the past than I care to think about.?
??????? Not unusual
??????? > to end up either fitting large fans to the top to pull air
??????? out, install
??????? > ducting if a unit has the outlet hardware for it, or just
??????? remove back
??????? > and sides, to allow free airflow, when in use.)
??????? >
??????? > Noise?? You haven't lived until you work near a host of
??????? things with
??????? > 400Hz fans in!? Some units we worked with had no less than
??????? three of
??????? > those noisy things!? They do move heck of a lot of air for
??????? the size
??????? > though...
??????? >
??????? > ><
??????? >
??????? >
??????? > --
??????? > Sent from a Micro$oft free zone:
??????? >
??????? >
??????? >
??????? >

Is there supposed to be a dust filter in addition to the metal screen "filter"?? The screen is good for keeping fingers and larger animals out but for dust, not so much.? The manual states to wash and allow the filter to dry which makes me think there might have been something else behind the mesh.

Thanks,
Barry - N4BUQ

Pulling air out of an instrument means sucking air and dirt into
the instrument, all around the edges. Not a good thing.

Jeremy


On Wed, Apr 3, 2024 at 7:38?AM n4buq <n4buq@...> wrote:

Thank you so much for this.? Lots of very good information.

Interesting that you mention airflow direction. That's one
thing that has puzzled me about this scope.? There has been a
lot of discussion lately on other lists regarding whether fans
should should push air into the instrument or pull it out and
the consensus is that pulling it out is best but now I find
that this scope pushes air in.? I presume part of that is to
maximize the air flow directly across the pass transistors but
that's just a guess. I had considered reversing the airflow
but now I don't think I will.

Thanks again,
Barry - N4BUQ

> Hi.
>
> There are now three bearing types available:-
> Ball bearing.
> Sleeve bearing (often sintered bronze* sometimes a plastic
material.)
> And Magnetic.
>
> (* With care, these can last a very long time. Some are
possible to
> extract and "refill" with lubrication, in a similar way to
how we used
> to re-lubricate motorcycle chain's!)
>
> The last type (magnetic) are (mechanically) virtually
silent, but stray
> DC magnetic fields may be an issue in some cases.? Often
found on
> smaller higher speed fans, at a price.? They can still fail,
if dirt
> gets into the bearing area though, or they overheat.
>
> The other source of "whine" or "turbine like" noise, is
caused by
> something being too close to the rotating blades, often on
the "air
> outlet" side.? That can be the motor strut's themselves
(later types are
> profiled to reduce such noise) or a nearby cable, coax, or
even other
> metalwork.
>
> (Large items too close to the inlet side can also cause
noise level to
> increase, as well as restricting airflow, depending on how the
> obstruction allows air to pass into the fan itself...)
>
> Sometimes, changing the fan for one with very similar airflow
> characteristics, but with the inlet over the struts rather
than the
> outlet (if that is the case) can help with the noise level.
>
> Take care not to reverse the airflow through the
instrument.? Many "wont
> like it" over the long term!? Most fans are marked showing
the rotation
> and airflow direction, but it is not difficult to tell just
by looking
> at the blade shape.? (The concave side is "usually" facing
the outlet.)
>
> Instruments in a rack, can have conflicting airflow
requirements too.
> It's not that uncommon to find issues caused by two or more
exchanging
> each others warm air within a rack, rather than working
together to pull
> ambient air "through" the rack.? In such cases, the rack is
likely to
> need it's own fans too!
>
> It is sadly too, not uncommon for a rack to be "over
populated", so that
> instruments that pull air in from the underside, have little
to no space
> for that as the unit below it is too close. There is a
reason for those
> 1 or 2'U' blank panels often seen, not just to make the
front look
> neat.? And again, the type of support for the instrument.?
Shelves and
> "L" shaped supports front to back, can sometimes obstruct
airflow
> to/from the sides as well.
>
> Over the years since many older instruments and equipments were
> developed, there have been vast improvements in fan
technology, in
> particular blade and other airflow profile design aspects.?
Some to
> benefit the ability to push or pull air through a
restrictive passage,
> others to greatly reduce fan noise, without compromising
(too much) on
> the airflow characteristics.? Most will use less electrical
power for
> the same "duty" these days than the older designs, as motor
tech' too
> has advanced.
>
> The last thing you want, is for a fan to run, with the blades
> aerodynamically "stalled", often a hint is a "fluttering"
sound to the
> airflow, and/or air exiting a fan being spat out radially,
more than
> axially.? The resulting overall airflow is usually very low
in those
> cases, regardless to if the fan is pushing air in, or
pulling it out of
> a casing.
>
> Old catalogues to identify the original fan type and performance
> (assuming you have the "originally fitted at manufacture"
fan, and also
> new catalogues (web pages) so as to choose a modern unit
with the needed
> airflow, and possibly reduced noise is what you need.? It
does take more
> time than you might expect though, as often the choices are
either vast,
> or limited.? :-(
>
> Keeping air filters clean too, can help with noise levels,
as well as
> keeping the instrument internals cooled correctly.
>
> Hope something helps.? I hate to see otherwise great instruments
> compromised (or even damaged as a result of overheating)
just because
> someone didn't like the noise, so put a "quieter" fan in.
>
> HP (and other manufacturers) designers will have done the
math, and
> specified the part used originally for a good reason.? Not
just to
> prevent overheating, but also to produce a sensible warm up
time, that
> results in relatively stable operating temperatures, for a
given range
> of ambient temperatures.?? Compare the air outlet(s)
temperatures once
> they have stabilised, for the same ambient and operating
conditions,
> before and after replacing the fan, to be sure. Much higher
with the
> new fan, and it's probably not doing the job needed of it.?
"How Much"
> is a moot point though.
>
> Cheers All.
>
> Dave 'KBV
>
> (Who's populated and retrofitted customer racks with various
"high
> dissipation things" in the past than I care to think about.?
Not unusual
> to end up either fitting large fans to the top to pull air
out, install
> ducting if a unit has the outlet hardware for it, or just
remove back
> and sides, to allow free airflow, when in use.)
>
> Noise?? You haven't lived until you work near a host of
things with
> 400Hz fans in!? Some units we worked with had no less than
three of
> those noisy things!? They do move heck of a lot of air for
the size
> though...
>
> ><
>
>
> --
> Sent from a Micro$oft free zone:
>
>
>
>

Pulling air out of an instrument means sucking air and dirt into the instrument, all around the edges. Not a good thing.?

Jeremy?

On Wed, Apr 3, 2024 at 7:38?AM n4buq <n4buq@...> wrote:

Thank you so much for this.? Lots of very good information.

Interesting that you mention airflow direction.? That's one thing that has puzzled me about this scope.? There has been a lot of discussion lately on other lists regarding whether fans should should push air into the instrument or pull it out and the consensus is that pulling it out is best but now I find that this scope pushes air in.? I presume part of that is to maximize the air flow directly across the pass transistors but that's just a guess. I had considered reversing the airflow but now I don't think I will.

Thanks again,
Barry - N4BUQ

> Hi.
>
> There are now three bearing types available:-
> Ball bearing.
> Sleeve bearing (often sintered bronze* sometimes a plastic material.)
> And Magnetic.
>
> (* With care, these can last a very long time.? Some are possible to
> extract and "refill" with lubrication, in a similar way to how we used
> to re-lubricate motorcycle chain's!)
>
> The last type (magnetic) are (mechanically) virtually silent, but stray
> DC magnetic fields may be an issue in some cases.? Often found on
> smaller higher speed fans, at a price.? They can still fail, if dirt
> gets into the bearing area though, or they overheat.
>
> The other source of "whine" or "turbine like" noise, is caused by
> something being too close to the rotating blades, often on the "air
> outlet" side.? That can be the motor strut's themselves (later types are
> profiled to reduce such noise) or a nearby cable, coax, or even other
> metalwork.
>
> (Large items too close to the inlet side can also cause noise level to
> increase, as well as restricting airflow, depending on how the
> obstruction allows air to pass into the fan itself...)
>
> Sometimes, changing the fan for one with very similar airflow
> characteristics, but with the inlet over the struts rather than the
> outlet (if that is the case) can help with the noise level.
>
> Take care not to reverse the airflow through the instrument.? Many "wont
> like it" over the long term!? Most fans are marked showing the rotation
> and airflow direction, but it is not difficult to tell just by looking
> at the blade shape.? (The concave side is "usually" facing the outlet.)
>
> Instruments in a rack, can have conflicting airflow requirements too.
> It's not that uncommon to find issues caused by two or more exchanging
> each others warm air within a rack, rather than working together to pull
> ambient air "through" the rack.? In such cases, the rack is likely to
> need it's own fans too!
>
> It is sadly too, not uncommon for a rack to be "over populated", so that
> instruments that pull air in from the underside, have little to no space
> for that as the unit below it is too close.? There is a reason for those
> 1 or 2'U' blank panels often seen, not just to make the front look
> neat.? And again, the type of support for the instrument.? Shelves and
> "L" shaped supports front to back, can sometimes obstruct airflow
> to/from the sides as well.
>
> Over the years since many older instruments and equipments were
> developed, there have been vast improvements in fan technology, in
> particular blade and other airflow profile design aspects.? Some to
> benefit the ability to push or pull air through a restrictive passage,
> others to greatly reduce fan noise, without compromising (too much) on
> the airflow characteristics.? Most will use less electrical power for
> the same "duty" these days than the older designs, as motor tech' too
> has advanced.
>
> The last thing you want, is for a fan to run, with the blades
> aerodynamically "stalled", often a hint is a "fluttering" sound to the
> airflow, and/or air exiting a fan being spat out radially, more than
> axially.? The resulting overall airflow is usually very low in those
> cases, regardless to if the fan is pushing air in, or pulling it out of
> a casing.
>
> Old catalogues to identify the original fan type and performance
> (assuming you have the "originally fitted at manufacture" fan, and also
> new catalogues (web pages) so as to choose a modern unit with the needed
> airflow, and possibly reduced noise is what you need.? It does take more
> time than you might expect though, as often the choices are either vast,
> or limited.? :-(
>
> Keeping air filters clean too, can help with noise levels, as well as
> keeping the instrument internals cooled correctly.
>
> Hope something helps.? I hate to see otherwise great instruments
> compromised (or even damaged as a result of overheating) just because
> someone didn't like the noise, so put a "quieter" fan in.
>
> HP (and other manufacturers) designers will have done the math, and
> specified the part used originally for a good reason.? Not just to
> prevent overheating, but also to produce a sensible warm up time, that
> results in relatively stable operating temperatures, for a given range
> of ambient temperatures.?? Compare the air outlet(s) temperatures once
> they have stabilised, for the same ambient and operating conditions,
> before and after replacing the fan, to be sure.? Much higher with the
> new fan, and it's probably not doing the job needed of it.? "How Much"
> is a moot point though.
>
> Cheers All.
>
> Dave 'KBV
>
> (Who's populated and retrofitted customer racks with various "high
> dissipation things" in the past than I care to think about.? Not unusual
> to end up either fitting large fans to the top to pull air out, install
> ducting if a unit has the outlet hardware for it, or just remove back
> and sides, to allow free airflow, when in use.)
>
> Noise?? You haven't lived until you work near a host of things with
> 400Hz fans in!? Some units we worked with had no less than three of
> those noisy things!? They do move heck of a lot of air for the size
> though...
>
> ><
>
>
> --
> Sent from a Micro$oft free zone:
>
>
>
>

The whine is the ball bearings rolling on a not so smooth
race. The problem could be the metal of the race has been
brinelled by the balls smacking on it... kind of like little
ball peen hammers. Or it could be chunks of dried grease
making noise as they get into stuff.

Most people that try to lubricate these fans don't realize
that there are two ball bearings in the motor, one you can
easily see if you remove the label, and the other spring
loaded to the other side of the fan. You have to lube them
both.

The motors come apart pretty easy. Usually, there is a "C"
ring, or a plastic washer like piece that is clipped over
a groove in the bearing shaft. Remove it, and the fan, and
both bearings will pop right out.

Then remove one seal from each bearing, and wash them out with
naptha, or varsol, or gasoline... It only takes a little, and
blow them try. Don't let them spin very fast, as it will
Brinel the bearing races.

Put a little dab of lubriplate in the bearing, and you are good
to go. Don't pack them full, that only turns the bearing into
a grease pump, and makes everything turn slow, and get hot.

Assembly is the reverse of disassembly.

-Chuck Harris


On Tue, 2 Apr 2024 15:42:51 -0400 (EDT) "n4buq" <n4buq@...>
wrote:

Do all the 140-series scopes have extremely noisy fans? My 140B is
excessively noisy and I'm wondering if a different fan could be
substituted. I don't mind the wind noise all that much, the whine
that's associated with it is pretty obnoxious. I haven't lubricated
it yet but I suspect that won't really knock down that whine very
much (if at all). Looking for suggestions.

Thanks,
Barry - N4BUQ

Hi.

There are now three bearing types available:-
Ball bearing.
Sleeve bearing (often sintered bronze* sometimes a plastic material.)
And Magnetic.

(* With care, these can last a very long time.? Some are possible to
extract and "refill" with lubrication, in a similar way to how we used
to re-lubricate motorcycle chain's!)

The last type (magnetic) are (mechanically) virtually silent, but stray
DC magnetic fields may be an issue in some cases.? Often found on
smaller higher speed fans, at a price.? They can still fail, if dirt
gets into the bearing area though, or they overheat.

The other source of "whine" or "turbine like" noise, is caused by
something being too close to the rotating blades, often on the "air
outlet" side.? That can be the motor strut's themselves (later types are
profiled to reduce such noise) or a nearby cable, coax, or even other
metalwork.

(Large items too close to the inlet side can also cause noise level to
increase, as well as restricting airflow, depending on how the
obstruction allows air to pass into the fan itself...)

Sometimes, changing the fan for one with very similar airflow
characteristics, but with the inlet over the struts rather than the
outlet (if that is the case) can help with the noise level.

Take care not to reverse the airflow through the instrument.? Many "wont
like it" over the long term!? Most fans are marked showing the rotation
and airflow direction, but it is not difficult to tell just by looking
at the blade shape.? (The concave side is "usually" facing the outlet.)

Instruments in a rack, can have conflicting airflow requirements too.
It's not that uncommon to find issues caused by two or more exchanging
each others warm air within a rack, rather than working together to pull
ambient air "through" the rack.? In such cases, the rack is likely to
need it's own fans too!

It is sadly too, not uncommon for a rack to be "over populated", so that
instruments that pull air in from the underside, have little to no space
for that as the unit below it is too close.? There is a reason for those
1 or 2'U' blank panels often seen, not just to make the front look
neat.? And again, the type of support for the instrument.? Shelves and
"L" shaped supports front to back, can sometimes obstruct airflow
to/from the sides as well.

Over the years since many older instruments and equipments were
developed, there have been vast improvements in fan technology, in
particular blade and other airflow profile design aspects.? Some to
benefit the ability to push or pull air through a restrictive passage,
others to greatly reduce fan noise, without compromising (too much) on
the airflow characteristics.? Most will use less electrical power for
the same "duty" these days than the older designs, as motor tech' too
has advanced.

The last thing you want, is for a fan to run, with the blades
aerodynamically "stalled", often a hint is a "fluttering" sound to the
airflow, and/or air exiting a fan being spat out radially, more than
axially.? The resulting overall airflow is usually very low in those
cases, regardless to if the fan is pushing air in, or pulling it out of
a casing.

Old catalogues to identify the original fan type and performance
(assuming you have the "originally fitted at manufacture" fan, and also
new catalogues (web pages) so as to choose a modern unit with the needed
airflow, and possibly reduced noise is what you need.? It does take more
time than you might expect though, as often the choices are either vast,
or limited.? :-(

Keeping air filters clean too, can help with noise levels, as well as
keeping the instrument internals cooled correctly.

Hope something helps.? I hate to see otherwise great instruments
compromised (or even damaged as a result of overheating) just because
someone didn't like the noise, so put a "quieter" fan in.

HP (and other manufacturers) designers will have done the math, and
specified the part used originally for a good reason.? Not just to
prevent overheating, but also to produce a sensible warm up time, that
results in relatively stable operating temperatures, for a given range
of ambient temperatures.?? Compare the air outlet(s) temperatures once
they have stabilised, for the same ambient and operating conditions,
before and after replacing the fan, to be sure.? Much higher with the
new fan, and it's probably not doing the job needed of it.? "How Much"
is a moot point though.

Cheers All.

Dave 'KBV

(Who's populated and retrofitted customer racks with various "high
dissipation things" in the past than I care to think about.? Not unusual
to end up either fitting large fans to the top to pull air out, install
ducting if a unit has the outlet hardware for it, or just remove back
and sides, to allow free airflow, when in use.)

Noise?? You haven't lived until you work near a host of things with
400Hz fans in!? Some units we worked with had no less than three of
those noisy things!? They do move heck of a lot of air for the size
though...

<

--
Sent from a Micro$oft free zone:

<