Best Soldering Iron for SMT Work?

[Jeff Liebermann]

On Mon, 15 Feb 2010 10:12:51 -0800 (PST), Sansui Samari
<jimjam1942@gmail.com> wrote:

The fan should blow away from your work, not towards it...

Next time you have a small fan handy, try blowing air away from your
work as you suggest. At a distance of about 1ft or more, there's
almost no air flow. Set fire to some paper and watch which way the
air flows into the fan. It grabs air from all over the bench, but not
at any great distance. The heated soldering or glue smog also tends
to rise, thus making bench level air flow a marginal proposition. It
would need to be located above the work, as is found in some
combination magnifier, lamp, and fan combinations or suck LOTS of air
as in a laminar flow hood.

The best I've seen is a small metal vacuum hose close to the soldering
tip.
<http://www.circuitspecialists.com/images/BK6000%20soldering%20iron%281%29.jpg>
I started to make my own version, but never found a suitable pump.

Besides, if I wanted to use an open fan, I would need to clean up my
messy bench.
--
Jeff Liebermann jeffl@cruzio.com
150 Felker St #D http://www.LearnByDestroying.com
Santa Cruz CA 95060 http://802.11junk.com
Skype: JeffLiebermann AE6KS 831-336-2558

 

[Sansui Samari]

On Feb 15, 12:29 am, Jeff Liebermann <je...@cruzio.com> wrote:

On Sun, 14 Feb 2010 22:46:36 -0600, Jim Yanik <jya...@abuse.gov
wrote:

I use a small fan to blow gently across my work,directing unhealthy vapors
away from me.

Duz that really work with small components?  I tried a recycled CPU
fan with an alligator clip for mounting and found that even the
slightest breeze causes difficulties soldering or desoldering.  My
home workshop does have a heater so I use a small electric heater and
fan.  When soldering, I have to turn it off.

Also, I wasn't joking about the toxic smog from soldering super-glue.
The stuff really reeks and seems highly irritating.  Fortunately, I
don't use much when soldering.  Gently blowing it around the shop
seems like an invitation to accidentally stick my head into one of the
floating clouds of burnt super-glue.  Without a fan, at least I know
where not to put my head.

I bought a small fan from Wal-Mart for less than $10.You can
get clip-on or one with a base. Or,like I used to do,wire a power cord and
switch to a 120VAC "whisper fan" from an old instrument.(cooling fan,very
quiet)I even use one for chopping onions in the kitchen; No tears!

Methinks tears from cutting onions is a basic ingredient of much of my
cooking.  Crying is part of the recipe.

I've used the Pace vacuum desoldering system,too,while at TEK.

I found an old Pace something desoldering station for peanuts at a
thrift shop.  They didn't know what it was.  Works really nice.
However, it's not a hot air desoldering system and is therefore fairly
useless for SMT parts.

Not inexpensive,though.

No kidding.  I replaced a few parts and had sticker shock.  I now use
vinyl hoses, fuel filters, and brazing tip cleaners, instead of the
official Pace equivalents.

And I still preferred my Antex 15w iron with a filed-down non-clad tip for
soldering the small SMD stuff. The smaller SMD Pace tips (iron-clad)rotted
out too quickly.

I once tried to re-plate my collection of burned out tips.  I also
made some from scratch.  The core metal is copper.  On top of that is
a layer of iron, then nickel, and finally solder plate.  First, filing
and an acid cleaning bath.  I then slowly electroplated some iron, in
a ferrous chloride plus calcium chloride bath, onto what was left of
the tip.  Electroless nickel dip followed.  I also tried some
electroless silver.  I then masked off the tip, and hard black chromed
the rest of the tip.  It worked but wasn't worth the cost and effort.
A new tip was considerably cheaper.  The tip life appeared to be
dependent on the thickness of the nickel or silver layer.  Electroless
plating just doesn't apply a thick enough layer.  Silver seemed to
last a bit longer.  I was thinking of trying again, this time plating
the nickel or silver layer.

I'm not sure if the Pace tips are copper-nickel-iron, or the more
common copper-iron-nickel.  They may even be solid iron with no
plating, which would certainly oxidize and pit rapidly.  That might
explain the short observed lifetime.  I would check my Pace, but I
only have the thru-hole desoldering tip.

--
Jeff Liebermann     je...@cruzio.com
150 Felker St #D    http://www.LearnByDestroying.com
Santa Cruz CA 95060http://802.11junk.com
Skype: JeffLiebermann     AE6KS    831-336-2558

The fan should blow away from your work, not towards it...

 

[Jeff Liebermann]

On Mon, 15 Feb 2010 16:11:09 GMT, Doug White <gwhite@alum.mit.edu>
wrote:

I usually use a tiny dab of flux, which holds the part in place. I also
have a "part holder" I built that I may put into production for sale when
I retire. It uses an orange stick with a bit of pivoting weight to hold
parts down. The orange stick can be whittled into any shape that suits,
and when it gets toasted, you just replace it.

The stick will need to have a tiny point as many components have
shrunk to almost invisible sizes. Try using a tooth pick instead of a
plastic stick. Maybe a spring loaded automatic test probe with a
stainless tip. Not a bad idea, but I don't see it as a big seller.

The flux fumes can also be obnoxious, but no near as bad as super-glue.

The trick with both flux and super-glue is to use only as little as
necessary. For super-glue, that means one tiny drop, not a huge blob.
That's impossible with hardware store plastic tip dispensers. It's
easy with a metal tube tip dispenser.
<http://www.micromark.com/1-OZ-BELLOWS-TYPE-GLUE-APPLICATOR-SET-OF-2,7051.html>
Both the plastic and metal tips will clog. However, cleaning the
metal tip is easy. Just light a fire under the tip. The hardened
glue will burn away, thus clearing the tip. Since I don't smoke
tobacco, I have a difficult time explaining why I have a cigarette
lighter on my bench and in my toolbox.

I find a fan blowing away from me helps without causing enough of a draft
to affect my soldering.

I've tried that a few times without much success. It works acceptably
for rosin fumes, but I still manage to get burned eyes with
super-glue. Probably the clutter on the bench affecting the air flow.

Pace must have improved their stuff. We bought a full setup in the mid-
80's, and it was a pain in the neck to use. It collected dust within 6
months.

I have one of those from the 80's. It sucks, but was cheap. Until
recently, I haven't used it often enough to justify anything better.
The worst problems are that the foot pedal cord is too short, the
desoldering tip clogs constantly, the vacuum filter clogs because it's
too small, it takes 5 mins to get up to temperature, parts are
expensive, etc. The newer models are allegedly better, but still
quite expensive.
<http://www.pacedirect.com>


--
Jeff Liebermann jeffl@cruzio.com
150 Felker St #D http://www.LearnByDestroying.com
Santa Cruz CA 95060 http://802.11junk.com
Skype: JeffLiebermann AE6KS 831-336-2558

 

[Jim Yanik]

Jeff Liebermann <jeffl@cruzio.com> wrote in
news46jn5d5a1te7e0ojmn3f0hl7ma4ir9ajq@4ax.com:

Besides, if I wanted to use an open fan, I would need to clean up my
messy bench.

My muffin fan sat off to the side,but then I made a bracket to attach it to
the rack next to my bench.It was about 18" above the bench top,aimed
slightly down.
My bench was always messy,too.

You could make an arm to clamp on the end of the bench,mount the muffin fan
to that.Or mount a 1x2 to the end of the bench,mount the fan to that.

Better than breathing those fumes.

--
Jim Yanik
jyanik
at
localnet
dot com

 

[Doug White]

Jeff Liebermann <jeffl@cruzio.com> wrote in
news:f57jn5hpge9qqfp0g0hrkbe224eb65m8de@4ax.com:

On Mon, 15 Feb 2010 16:11:09 GMT, Doug White <gwhite@alum.mit.edu
wrote:

I usually use a tiny dab of flux, which holds the part in place. I
also have a "part holder" I built that I may put into production for
sale when I retire. It uses an orange stick with a bit of pivoting
weight to hold parts down. The orange stick can be whittled into any
shape that suits, and when it gets toasted, you just replace it.

The stick will need to have a tiny point as many components have
shrunk to almost invisible sizes. Try using a tooth pick instead of a
plastic stick. Maybe a spring loaded automatic test probe with a
stainless tip. Not a bad idea, but I don't see it as a big seller.

The big problem is that orange sticks & tooth picks aren't ESD safe.
Even if youy only use it on the body of the part, there are a lot of
shops that would freak at the mere thought. There is ESD safe teflon,
and that might work. It still needs to be pointed.

<snip>

Pace must have improved their stuff. We bought a full setup in the
mid- 80's, and it was a pain in the neck to use. It collected dust
within 6 months.

I have one of those from the 80's. It sucks, but was cheap. Until
recently, I haven't used it often enough to justify anything better.
The worst problems are that the foot pedal cord is too short, the
desoldering tip clogs constantly, the vacuum filter clogs because it's
too small, it takes 5 mins to get up to temperature, parts are
expensive, etc. The newer models are allegedly better, but still
quite expensive.
http://www.pacedirect.com

I figure they had to have made some improvements. I don't see how they
could still be in business if they were selling the same machine we had.
Your experience is pretty similar to ours. Constant clogging was the
bigg issue. That & the tips were pretty big even in those days. Now,
they'd be hopelessly huge.

Doug White

 

[Jeff Liebermann]

On Mon, 15 Feb 2010 22:27:04 GMT, Doug White <gwhite@alum.mit.edu>
wrote:

The big problem is that orange sticks & tooth picks aren't ESD safe.

Wood is slightly conductive, which should be sufficient to remove any
static charge. What it won't do is remove any leakage current from
connected AC appliances. I once fixed a production line problem that
was caused by induced voltage coming from a transformer located in
near the base of a Luxo lamp. The field was sufficient to induce
about 100mv of AC at a distance of about 8" to a probe card.

I have a theory about blowing things up with static electricity (which
is probably wrong but is worth thinking about anyway). It's the
person, not the clothes and equipment that causes problems. I've only
blown up a few things with static electricity (walking across a rug
with a floppy in my hand. It drew an arc when I inserted it into the
computah). I rarely do anything to protect against static, except
when I'm playing with GaAsFET chips and xsistors. However, I know
people who just walk into the room, and something blows up. One lady
was literally a static generator. In the dark, you could see the
sparks fly as she moved in her chair and touched things. I tried
grounding, discharge mats, and even an ozone (ionized air) generator.
Nothing worked. She would constantly blow up equipment. While this
is an extreme example, I suspect there are various degrees between her
and me. Just a theory.

Even if youy only use it on the body of the part, there are a lot of
shops that would freak at the mere thought. There is ESD safe teflon,
and that might work. It still needs to be pointed.

I've had some fun at such shops with an electrometer.
<http://en.wikipedia.org/wiki/Electrometer>
I would bring the meter to the bosses desk, and immediately determine
that most everything he owns, that's made of plastic, is an ESD
hazard. He usually spends the rest of the day chasing high voltage
readings, which are not very consistent or repeatable. That gets him
out of my way so I could get some work done. I managed to convince
one manager to go home and change into something that doesn't have
polyester.

Just spray everything in sight with some kind of laundry anti-static
spray and be done with it. Tap water in a household sprayer works
fine.

http://www.pacedirect.com

I figure they had to have made some improvements. I don't see how they
could still be in business if they were selling the same machine we had.
Your experience is pretty similar to ours. Constant clogging was the
bigg issue. That & the tips were pretty big even in those days. Now,
they'd be hopelessly huge.

They're good enough for most of what I do at home. I'm still mired in
1980's ancient technology, where you can actually see the parts and
most everything is through-hole technology. My current ongoing
nightmare:
<http://802.11junk.com/jeffl/MSF5000/MSF5000.html>
Might as well have a 1980's tool to work on 1980's technology.

Incidentally, my lab is 1970's technology and is rapidly approaching
the look of a test equipment museum.
<http://802.11junk.com/jeffl/pics/home/slides/lab.html>
The Pace desoldering station is now located in place of one of the
Wiltron sweepers, which I stupidly tried to use without replacing all
the dried out electrolytics.


--
Jeff Liebermann jeffl@cruzio.com
150 Felker St #D http://www.LearnByDestroying.com
Santa Cruz CA 95060 http://802.11junk.com
Skype: JeffLiebermann AE6KS 831-336-2558

 

[Jim Yanik]

Jeff Liebermann <jeffl@cruzio.com> wrote in
news:9hjjn5tbk3h05slnr088q5v2ht1mjaslkp@4ax.com:

On Mon, 15 Feb 2010 22:27:04 GMT, Doug White <gwhite@alum.mit.edu
wrote:

The big problem is that orange sticks & tooth picks aren't ESD safe.

Wood is slightly conductive, which should be sufficient to remove any
static charge. What it won't do is remove any leakage current from
connected AC appliances. I once fixed a production line problem that
was caused by induced voltage coming from a transformer located in
near the base of a Luxo lamp. The field was sufficient to induce
about 100mv of AC at a distance of about 8" to a probe card.

unfinished wood is not going to GENERATE a static charge. it will have
around 10% moisture content,or more depending on your local climate.

Teflon -will- generate a charge.

I have a theory about blowing things up with static electricity (which
is probably wrong but is worth thinking about anyway). It's the
person, not the clothes and equipment that causes problems.

it's the movement of certain materials that generates the static charge.
People merely provide the movement.
and the human body capacitance stores a nice charge.

I've only
blown up a few things with static electricity (walking across a rug
with a floppy in my hand. It drew an arc when I inserted it into the
computah). I rarely do anything to protect against static, except
when I'm playing with GaAsFET chips and xsistors. However, I know
people who just walk into the room, and something blows up. One lady
was literally a static generator. In the dark, you could see the
sparks fly as she moved in her chair and touched things.

Probably the sort of clothing she typically wears.
synthetics and blends are bad news for ESD.

I tried
grounding, discharge mats, and even an ozone (ionized air) generator.
Nothing worked. She would constantly blow up equipment. While this
is an extreme example, I suspect there are various degrees between her
and me. Just a theory.

from the ESD classes I've had at TEK,if you can feel a static
discharge,it's at least 2KV.Many devices blow at less than 100v,some as low
as 30v.
In the Orlando Tek center,my colleagues had a harder time passing the ESD
foot strap tester,while I passed right after putting it on.Had to test
daily.
We had an ESD mat on the bench,a floor ESD mat,wrist and foot straps,and a
ESD-smock with metallic fibers.We also had the work areas marked with RED
tape,where no one else could enter without having their ESD gear on.
(like WKRP Les Nessman's imaginary office...)

BTW,there are ESD-testers for the bench and floor mats....

they make ESD-safe chairs...they have a grounding chain that drags on your
ESD floor mat.your typical office chair is not ESD safe at all.
and you can buy ESD-shoes,too.

Even if youy only use it on the body of the part, there are a lot of
shops that would freak at the mere thought. There is ESD safe teflon,
and that might work. It still needs to be pointed.

I've had some fun at such shops with an electrometer.
http://en.wikipedia.org/wiki/Electrometer
I would bring the meter to the bosses desk, and immediately determine
that most everything he owns, that's made of plastic, is an ESD
hazard. He usually spends the rest of the day chasing high voltage
readings, which are not very consistent or repeatable. That gets him
out of my way so I could get some work done. I managed to convince
one manager to go home and change into something that doesn't have
polyester.

Just spray everything in sight with some kind of laundry anti-static
spray and be done with it.

not a lasting solution.
Risky,as you can't be sure of the level of protection.

Tap water in a household sprayer works
fine.

http://www.pacedirect.com

I figure they had to have made some improvements. I don't see how
they could still be in business if they were selling the same machine
we had. Your experience is pretty similar to ours. Constant clogging
was the bigg issue. That & the tips were pretty big even in those
days. Now, they'd be hopelessly huge.

the last Pace station I used (in 1998)had different desoldering(DS) tips
for SMD work,different than the older Pace station. And the thru-hole DS
tips were LONG compared to the earlier ones,prevented clogging in the
heater element.

They're good enough for most of what I do at home. I'm still mired in
1980's ancient technology, where you can actually see the parts and
most everything is through-hole technology. My current ongoing
nightmare:
http://802.11junk.com/jeffl/MSF5000/MSF5000.html
Might as well have a 1980's tool to work on 1980's technology.

Incidentally, my lab is 1970's technology and is rapidly approaching
the look of a test equipment museum.
http://802.11junk.com/jeffl/pics/home/slides/lab.html
The Pace desoldering station is now located in place of one of the
Wiltron sweepers, which I stupidly tried to use without replacing all
the dried out electrolytics.

--
Jim Yanik
jyanik
at
localnet
dot com

 

[Wild_Bill]

That auction is just for a soldering iron tip, and the shipping for the 1
tip is an additional $10.

--
Cheers,
WB
..............


"Sansui Samari" <jimjam1942@gmail.com> wrote in message
news:185669ed-7b97-45b1-9232-295dcd496c79@u15g2000prd.googlegroups.com...

http://cgi.ebay.com/Hexacon-Soldering-Tip-for-2300-Chisel-1-4-quot-J802X_W0QQitemZ200430997117QQcmdZViewItemQQptZLH_DefaultDomain_0?hash=item2eaa9e4e7d

For $16, it would be worth the risk, if you didn't like. I love the
things though. I think the older ones were a bit better though.

-J

 

[Jeff Liebermann]

On Mon, 15 Feb 2010 18:51:26 -0600, Jim Yanik <jyanik@abuse.gov>
wrote:

One lady
was literally a static generator. In the dark, you could see the
sparks fly as she moved in her chair and touched things.

Probably the sort of clothing she typically wears.
synthetics and blends are bad news for ESD.

Nope. We did considerable experimentation with clothing, furniture,
furniture covers, and anti-static mats. All of these would help, but
she consistently failed the electrometer test. (I don't recall the
readings). Even with a metal chair on an anti-static mat, she would
throw sparks. I would try the same chair and mat and the electrometer
would read nearly nothing.

from the ESD classes I've had at TEK,if you can feel a static
discharge,it's at least 2KV.Many devices blow at less than 100v,some as low
as 30v.

Yep. However, I tend to deal with components installed in PCB's,
where the board leakage, and biasing components offer some protection.
When replacing an active component, I'm sometimes careful to ground
myself with just a simple wrist strap. I don't recall ever blowing
anything up during assembly. Other people I worked with would blow up
components by just staring at them. Since everything is the same
except the person and possibly his clothes, it has to be something in
the body chemistry causing the higher static buildup.

In the Orlando Tek center,my colleagues had a harder time passing the ESD
foot strap tester,while I passed right after putting it on.Had to test
daily.

Hmm... you're confirming my observations, suspicions and speculations.

We had an ESD mat on the bench,a floor ESD mat,wrist and foot straps,and a
ESD-smock with metallic fibers.We also had the work areas marked with RED
tape,where no one else could enter without having their ESD gear on.
(like WKRP Les Nessman's imaginary office...)

BTW,there are ESD-testers for the bench and floor mats....

they make ESD-safe chairs...they have a grounding chain that drags on your
ESD floor mat.your typical office chair is not ESD safe at all.
and you can buy ESD-shoes,too.

Maybe a tin hat or colander with a long grounding strap? In the lab,
we used all metal stools with hard fiberboard seats. No ESD problem.
We did have a consultant running around looking for ESD and other
"safety" issues, but he never noticed the cotton Persian run in my
office.

Just spray everything in sight with some kind of laundry anti-static
spray and be done with it.

not a lasting solution.
Risky,as you can't be sure of the level of protection.

I would sometimes dump in some Photo-Flow or water immiscible oil to
increase surface tension and reduce evaporation rate. That's roughly
what the anti-static sprays are doing using soap and alcohol. I'm not
sure what's in the current anti-static sprays to retard evaporation,
but this might offer a clue:
<http://news.oneindia.in/2007/10/29/emulsion-film-coat-used-in-retarding-evaporation-in-water-bodies-1193658468.html>
Anyways, the electrometer showed that it would reduce static buildup
on a carpet for about 6 hours, which was good enough. I vaguely
recall that just tap water would last about 2 hours.

the last Pace station I used (in 1998)had different desoldering(DS) tips
for SMD work,different than the older Pace station. And the thru-hole DS
tips were LONG compared to the earlier ones,prevented clogging in the
heater element.

Here's a photo of my Pace desoldering station.
<http://802.11junk.com/jeffl/crud/pace-desoldering-station.jpg>
The solder sucking hand piece is a model SX-25. I just found the
manual. It's titled
"No Clog Solder Extractor"
The No Clog is a bad joke. The instructions include a section on how
to pound out a broken tip with an 1/8" ramrod. Hopefully, I won't
need to do that.

--
# Jeff Liebermann 150 Felker St #D Santa Cruz CA 95060
# 831-336-2558
# http://802.11junk.com jeffl@cruzio.com
# http://www.LearnByDestroying.com AE6KS

 

[Sansui Samari]

On Feb 16, 5:22 am, "Wild_Bill" <wb_wildb...@XSPAMyahoo.com> wrote:

That auction is just for a soldering iron tip, and the shipping for the 1
tip is an additional $10.

--
Cheers,
WB
.............

"Sansui Samari" <jimjam1...@gmail.com> wrote in message

news:185669ed-7b97-45b1-9232-295dcd496c79@u15g2000prd.googlegroups.com...

http://cgi.ebay.com/Hexacon-Soldering-Tip-for-2300-Chisel-1-4-quot-J8...

For $16, it would be worth the risk, if you didn't like.  I love the
things though.  I think the older ones were a bit better though.

-J

Yea, I said that in the next post. Still love my old hex iron
though. I don't really need all of the de-soldering attachments that
the other brands have though. I've been soldering so long that I can
get pretty much anything done with just the iron. So if you are in
need of something that has de-soldering equipment built into the iron,
then it wouldn't be a good all around system.

 

[Sansui Samari]

On Feb 16, 5:24 pm, Jeff Liebermann <je...@cruzio.com> wrote:

On Mon, 15 Feb 2010 18:51:26 -0600, Jim Yanik <jya...@abuse.gov
wrote:

One lady
was literally a static generator.  In the dark, you could see the
sparks fly as she moved in her chair and touched things.  

Probably the sort of clothing she typically wears.
synthetics and blends are bad news for ESD.

Nope.  We did considerable experimentation with clothing, furniture,
furniture covers, and anti-static mats.  All of these would help, but
she consistently failed the electrometer test.  (I don't recall the
readings).  Even with a metal chair on an anti-static mat, she would
throw sparks.  I would try the same chair and mat and the electrometer
would read nearly nothing.

from the ESD classes I've had at TEK,if you can feel a static
discharge,it's at least 2KV.Many devices blow at less than 100v,some as low
as 30v.

Yep.  However, I tend to deal with components installed in PCB's,
where the board leakage, and biasing components offer some protection.
When replacing an active component, I'm sometimes careful to ground
myself with just a simple wrist strap.  I don't recall ever blowing
anything up during assembly.  Other people I worked with would blow up
components by just staring at them.  Since everything is the same
except the person and possibly his clothes, it has to be something in
the body chemistry causing the higher static buildup.

In the Orlando Tek center,my colleagues had a harder time passing the ESD
foot strap tester,while I passed right after putting it on.Had to test
daily.

Hmm... you're confirming my observations, suspicions and speculations.

We had an ESD mat on the bench,a floor ESD mat,wrist and foot straps,and a
ESD-smock with metallic fibers.We also had the work areas marked with RED
tape,where no one else could enter without having their ESD gear on.
(like WKRP Les Nessman's imaginary office...)

BTW,there are ESD-testers for the bench and floor mats....

they make ESD-safe chairs...they have a grounding chain that drags on your
ESD floor mat.your typical office chair is not ESD safe at all.
and you can buy ESD-shoes,too.

Maybe a tin hat or colander with a long grounding strap?  In the lab,
we used all metal stools with hard fiberboard seats.  No ESD problem.
We did have a consultant running around looking for ESD and other
"safety" issues, but he never noticed the cotton Persian run in my
office.

Just spray everything in sight with some kind of laundry anti-static
spray and be done with it.  

not a lasting solution.
Risky,as you can't be sure of the level of protection.

I would sometimes dump in some Photo-Flow or water immiscible oil to
increase surface tension and reduce evaporation rate.  That's roughly
what the anti-static sprays are doing using soap and alcohol.  I'm not
sure what's in the current anti-static sprays to retard evaporation,
but this might offer a clue:
http://news.oneindia.in/2007/10/29/emulsion-film-coat-used-in-retardi...
Anyways, the electrometer showed that it would reduce static buildup
on a carpet for about 6 hours, which was good enough.  I vaguely
recall that just tap water would last about 2 hours.

the last Pace station I used (in 1998)had different desoldering(DS) tips
for SMD work,different than the older Pace station. And the thru-hole DS
tips were LONG compared to the earlier ones,prevented clogging in the
heater element.

Here's a photo of my Pace desoldering station.
http://802.11junk.com/jeffl/crud/pace-desoldering-station.jpg
The solder sucking hand piece is a model SX-25.  I just found the
manual.  It's titled
  "No Clog Solder Extractor"
The No Clog is a bad joke.  The instructions include a section on how
to pound out a broken tip with an 1/8" ramrod.  Hopefully, I won't
need to do that.

--
# Jeff Liebermann 150 Felker St #D Santa Cruz CA 95060
# 831-336-2558
#http://802.11junk.com              je...@cruzio.com
#http://www.LearnByDestroying.com              AE6KS

ESD induced problems usually don't show up right away, they generally
show up later on in shortened component life. Our esd lines at most of
the places I've worked usually use a conductive floor mat, or floor
coating, with footstraps when an individual is all over the floor and
wrist straps at work stations. De-ionization stations, and conductive
work mats at each work station, with dual grounding for a tester. No
synthetic clothing would be allowed, unless you wore a smock over it,
and had short sleeves. No food packaging, or synthetic cups allowed
at any work stations. No Styrofoam would be allowed, only pink non
static foam, or black conductive foam. No plastic bags unless they
were the pink plastic or conductive ESD bags. All ESD bags had to be
folded over, or else they were worthless. No static producing tape
allowed until boards were sealed in ESD bags. All carts had to have
chains that would drag on the floor to keep them from becoming a
vandergraph generator. Although, if they would have just made the
wheels conductive, that probably wouldn't have been an issues. All
trays &c... had to be conductive. One big misconception that a lot of
people have, is that just because a component is on a substrate it's
safe from ESD. Usually still a pretty big risk. Just soldering on
the substrate, you can pass a large voltage from you to your iron.

Bullshit, bullshit, yada, yada.

 

[Jim Yanik]

Jeff Liebermann <jeffl@cruzio.com> wrote in
news:lcfmn5t76b9k4d52i7jva0dr3deld4ciq3@4ax.com:

On Mon, 15 Feb 2010 18:51:26 -0600, Jim Yanik <jyanik@abuse.gov
wrote:

One lady
was literally a static generator. In the dark, you could see the
sparks fly as she moved in her chair and touched things.

Probably the sort of clothing she typically wears.
synthetics and blends are bad news for ESD.

Nope. We did considerable experimentation with clothing, furniture,
furniture covers, and anti-static mats. All of these would help, but
she consistently failed the electrometer test. (I don't recall the
readings). Even with a metal chair on an anti-static mat, she would
throw sparks. I would try the same chair and mat and the electrometer
would read nearly nothing.

I still can't buy that her body generated static charges.

from the ESD classes I've had at TEK,if you can feel a static
discharge,it's at least 2KV.Many devices blow at less than 100v,some
as low as 30v.

Yep. However, I tend to deal with components installed in PCB's,
where the board leakage, and biasing components offer some protection.
When replacing an active component, I'm sometimes careful to ground
myself with just a simple wrist strap. I don't recall ever blowing
anything up during assembly. Other people I worked with would blow up
components by just staring at them. Since everything is the same
except the person and possibly his clothes, it has to be something in
the body chemistry causing the higher static buildup.

maybe her skin is really dry.

In the Orlando Tek center,my colleagues had a harder time passing the
ESD foot strap tester,while I passed right after putting it on.Had to
test daily.

Hmm... you're confirming my observations, suspicions and speculations.

Probably that their feet didn't sweat as much as mine....
Or that they wore different socks.

We had an ESD mat on the bench,a floor ESD mat,wrist and foot
straps,and a ESD-smock with metallic fibers.We also had the work areas
marked with RED tape,where no one else could enter without having
their ESD gear on. (like WKRP Les Nessman's imaginary office...)

BTW,there are ESD-testers for the bench and floor mats....

they make ESD-safe chairs...they have a grounding chain that drags on
your ESD floor mat.your typical office chair is not ESD safe at all.
and you can buy ESD-shoes,too.

Maybe a tin hat or colander with a long grounding strap? In the lab,
we used all metal stools with hard fiberboard seats. No ESD problem.
We did have a consultant running around looking for ESD and other
"safety" issues, but he never noticed the cotton Persian rug in my
office.

did you do electronic servicing in your office?
Our office area had carpet,the service dept. had vinyl tile.
(with a pattern that hid small dropped parts well...)

Our printer guys used to do some repairs in their office area,on the
carpet,and they really didn't pay much attention to ESD.

Just spray everything in sight with some kind of laundry anti-static
spray and be done with it.

not a lasting solution.
Risky,as you can't be sure of the level of protection.

I would sometimes dump in some Photo-Flow or water immiscible oil to
increase surface tension and reduce evaporation rate. That's roughly
what the anti-static sprays are doing using soap and alcohol. I'm not
sure what's in the current anti-static sprays to retard evaporation,
but this might offer a clue:
http://news.oneindia.in/2007/10/29/emulsion-film-coat-used-in-retarding
-evaporation-in-water-bodies-1193658468.html
Anyways, the electrometer showed that it would reduce static buildup
on a carpet for about 6 hours, which was good enough. I vaguely
recall that just tap water would last about 2 hours.

the last Pace station I used (in 1998)had different desoldering(DS)
tips for SMD work,different than the older Pace station. And the
thru-hole DS tips were LONG compared to the earlier ones,prevented
clogging in the heater element.

Here's a photo of my Pace desoldering station.
http://802.11junk.com/jeffl/crud/pace-desoldering-station.jpg
The solder sucking hand piece is a model SX-25. I just found the
manual. It's titled
"No Clog Solder Extractor"
The No Clog is a bad joke. The instructions include a section on how
to pound out a broken tip with an 1/8" ramrod. Hopefully, I won't
need to do that.

I've had to do it.
Man,that IS an ancient model!
Of course,you could order a new handle assembly to use with your base.
And the longer DS tips.

BTW,I was wondering if the automotive high temp anti-seize lubricant made
by Permatex would help with the tip seize problem? It's rated up to
1600degF. item 81343

It's made to go on spark plug and O2 sensor threads.
It's got a lot of aluminum and graphite in it.


--
Jim Yanik
jyanik
at
localnet
dot com

 

[Jeff Liebermann]

On Wed, 17 Feb 2010 08:04:41 -0600, Jim Yanik <jyanik@abuse.gov>
wrote:

I still can't buy that her body generated static charges.

I don't really understand the mechanism. My best guess(tm) is that
her skin resistance is less than mine. She would present a high
surface resistance (ohms/square) while I would present a somewhat
lower resistance. I would tend to bleed off generated static, while
she would tend to hold it. I've crudely tested this guess(tm) with an
ohmmeter. Grabbing the probes between index thumb and index finger on
both hands, I usually get about 4M Ohms. This lady would do about
twice that. (Note: She died in 2007 so I can't retest).

maybe her skin is really dry.

Yep.

Hmm... you're confirming my observations, suspicions and speculations.

Probably that their feet didn't sweat as much as mine....
Or that they wore different socks.

I don't know which articles of clothing cause the most ESD problems.
My guess(tm) is that the seat of the pants, rubbing against the chair,
would have the biggest effect. Google shows a few ESD safe socks, but
far more emphasis seems to be placed on ESD safe shoes. I would think
they would go together as an insulator in a problem with both socks
and shoes. Plenty of heel grounders, but few ankle straps.

Maybe a tin hat or colander with a long grounding strap? In the lab,
we used all metal stools with hard fiberboard seats. No ESD problem.
We did have a consultant running around looking for ESD and other
"safety" issues, but he never noticed the cotton Persian rug in my
office.

did you do electronic servicing in your office?

No. I slept on the office floor and the Persian rug (with foam pad
underneath) made it far more comfortable. I sometimes dragged
finished boards and products into the office for a show and tell, or
interview, but there was no soldering or electronics work done in the
office (mostly so as not to burn holes in the Persian rug).

Our office area had carpet,the service dept. had vinyl tile.
(with a pattern that hid small dropped parts well...)

My office is all nylon carpet. I've measured the ESD potential with
the electrometer and found that the carpet is not a serious problem.
My guess(tm) is that it's because I haven't cleaned (or seen) the
carpet in 20 years. Also, the RH is now about 85% and rarely drops
below 30%, which helps considerably.

Our printer guys used to do some repairs in their office area,on the
carpet,and they really didn't pay much attention to ESD.

Printer repair is mostly mechanical (which is why I like doing it).
The electronic part is mostly board swapping. I also used to do it on
the carpet, but when my back started protesting, I switched to a
proper (low) table. However, one of my work tables is just a steel
office desk. The formica or plastic top is a problem. I avoid using
it for anything other than storage or paperwork:
<http://802.11junk.com/jeffl/pics/office/slides/radio-mess.html>

In my never humble opinion, the trick to ESD protection is to do some
testing with an electrometer. There's no way to reduce ESD to what
would be considered safe in a production environment, but testing will
uncover some potential problems.

http://802.11junk.com/jeffl/crud/pace-desoldering-station.jpg

Man,that IS an ancient model!

It cost me about $25 plus about $50 in parts about 20 years ago. At
the time, comparable desoldering stations were going for perhaps $800.
It may be old, it may clog, it may be clumsy, and it certainly is
ugly, but it works. However, during the same time period, components
and lead spacing have shrunk to the point where it's basically
useless. I still use it for thru-hole component desoldering, but for
SMT, I'm shopping for a hot air device.

Of course,you could order a new handle assembly to use with your base.
And the longer DS tips.

Good idea as a longer tip would be better. I hate to admit that I'm
still using the same 20+ year old tip. When I bought it, the original
tip had to get pounded out and replaced.

BTW,I was wondering if the automotive high temp anti-seize lubricant made
by Permatex would help with the tip seize problem? It's rated up to
1600degF. item 81343
It's made to go on spark plug and O2 sensor threads.
It's got a lot of aluminum and graphite in it.

<http://www.permatex.com/products/automotive/b_lubricants/specialty_lubricants/Permatex_Anti-Seize_Lubricant_a.htm>
The problem with that stuff is that it has copper, graphite, and
aluminum in it. Fine for spark plugs in an aluminum or iron engine
head. However, most soldering iron tips are either nickel or chromium
(the non-solderable part) plated. The copper will eventually go into
solution (galvanic corrosion) and create a ceramic like coating. Avoid
the copper stuff. What methinks you want is a nickel based anti-seize
to match the tip plating.
<http://www.drillspot.com/products/280558/Loctite_77124_Nickel_Anti_Seize_Lubricant>
<http://www.drillspot.com/power-tools-and-metalworking/lubricants/anti-seize-compounds/>
Permatex and Loctite both carry it. It's suppose to be for stainless
and works to 2600F. I tried some on a big thermostatically controlled
iron, with a huge threaded nickel plated copper slab of a tip, and it
worked as expected. No stuck tips.


--
Jeff Liebermann jeffl@cruzio.com
150 Felker St #D http://www.LearnByDestroying.com
Santa Cruz CA 95060 http://802.11junk.com
Skype: JeffLiebermann AE6KS 831-336-2558

 

[Jim Yanik]

Jeff Liebermann <jeffl@cruzio.com> wrote in
news:7p8on55de5una29hp3itu0v52oha934gob@4ax.com:

My office is all nylon carpet. I've measured the ESD potential with
the electrometer and found that the carpet is not a serious problem.
My guess(tm) is that it's because I haven't cleaned (or seen) the
carpet in 20 years. Also, the RH is now about 85% and rarely drops
below 30%, which helps considerably.

RH is the key. High RH allows the charges to bleed off as rapidly as they
are generated.


snip for brevity...

http://802.11junk.com/jeffl/crud/pace-desoldering-station.jpg

Man,that IS an ancient model!

It cost me about $25 plus about $50 in parts about 20 years ago. At
the time, comparable desoldering stations were going for perhaps $800.
It may be old, it may clog, it may be clumsy, and it certainly is
ugly, but it works. However, during the same time period, components
and lead spacing have shrunk to the point where it's basically
useless. I still use it for thru-hole component desoldering, but for
SMT, I'm shopping for a hot air device.

I used to have to use the same Pace handle on a smaller station to desolder
all the IC sockets on a board,in order to remove bad sockets.It needed
constant cleaning.Fortunately,we had a bin full of tips and filters.

Of course,you could order a new handle assembly to use with your base.
And the longer DS tips.

Good idea as a longer tip would be better. I hate to admit that I'm
still using the same 20+ year old tip. When I bought it, the original
tip had to get pounded out and replaced.

I'm pretty sure the longer tips will fit your older handle.
I'd use that anti-seize with them,though.

BTW,I was wondering if the automotive high temp anti-seize lubricant
made by Permatex would help with the tip seize problem? It's rated up
to 1600degF. item 81343
It's made to go on spark plug and O2 sensor threads.
It's got a lot of aluminum and graphite in it.

http://www.permatex.com/products/automotive/b_lubricants/specialty_lubr
icants/Permatex_Anti-Seize_Lubricant_a.htm
The problem with that stuff is that it has copper, graphite, and
aluminum in it.

Hmm,the package I have didn't say copper.I'll check the MSDS.

Fine for spark plugs in an aluminum or iron engine
head. However, most soldering iron tips are either nickel or chromium
(the non-solderable part) plated. The copper will eventually go into
solution (galvanic corrosion) and create a ceramic like coating. Avoid
the copper stuff. What methinks you want is a nickel based anti-seize
to match the tip plating.
http://www.drillspot.com/products/280558/Loctite_77124_Nickel_Anti_Seiz
e_Lubricant
http://www.drillspot.com/power-tools-and-metalworking/lubricants/anti-s
eize-compounds/
Permatex and Loctite both carry it. It's suppose to be for stainless
and works to 2600F. I tried some on a big thermostatically controlled
iron, with a huge threaded nickel plated copper slab of a tip, and it
worked as expected. No stuck tips.

--
Jim Yanik
jyanik
at
localnet
dot com