Surge / Ground / Lightning

W

w_tom

Jan 1, 1970
0
I can attest to vhf/uhf content in lightning strikes. I worked for a
communications outfit. We owned and maintained a number of comm sites
with towers and antennas. One strike on an antenna destroyed the LDF rf
cable all the way to the polyphaser at the bottom of the tower.

Eric notes damage only up to the earthed Polyphaser protector.
Polyphaser is legendary among professionals who install effective
protection. Polyphaser is blunt about what provides protection - why
their products are so effective. Polyphaser protectors are earthed.
Polyphaser application notes repeatedly discuss what their products
must connect to; what provides protection: earth ground:
http://www.polyphaser.com/technical_notes.aspx
 
M

Mike Tomlinson

Jan 1, 1970
0
[snip w_'s usual lies and bald statements with no citations or proof to
back them up and his boilerplate messianic statement of religious
belief]
Same technique used by Rush Limbaugh to prove Saddam
had WMDs.

ROTFL!! You've really lost it this time, w_twat.
I hereby invoke Godwin's law.
 
[snip w_'s usual lies and bald statements with no citations or proof to
back them up and his boilerplate messianic statement of religious
belief]
Same technique used by Rush Limbaugh to prove Saddam
had WMDs.

ROTFL!!  You've really lost it this time, w_twat.  
I hereby invoke Godwin's law.

And as usual, W_'s statement taken at face value is wrong and/or
misleading. A simple check of history shows Saddam did in fact have
WMDs for years, because they were used in war and against his own
people. The UN weapons inspectors had spent a decade of hide and seek
locating and destroying most of them. Just prior to the start of
the Iraq war, not only did US intelligence believe he still had some
of them and was trying to reconstruct the weapons programs, but so did
British, Israeli and Russian intelligence.
 
   This will address some of your questions only in summary.  Details
are provided in other posts.

  First, much of this stuff was learned by earliest 20th century
hams.  They would disconnect their antenna, put the lead inside a
mason jar, and still suffer radio damage. Even mason jars could not
stop or block lightning.

I'd love to see a reference for this. In that time frame, lightning
was already fairly well understood. I find it hard to believe any ham
would try to use a mason jar in this way. Sounds more like some urban
legend to me.



But then the antenna was earthed, then damage
stopped.  It's just like Franklin's lightning rod (air terminal).
Protection has always been about diverting "it to ground, where it can
do no harm".  Disconnecting did not provide sufficient protection.
That wire had to be earthed.

  Protection for the TV, computer, and all other appliances is same.
Computers contain some of the most robust protection.  Computer grade
UPSes can output electricity so dirty (when in battery backup mode) as
to even harm some small electric motors.  But computers are so robust
as to make even that 'dirty' electricity irrelevant.  Do not assume
computers have less internal protection.  Intel ATX standards require
computers to be more robust than what is standard for other
appliances.

And guess what component is used as part of that robust protection?
MOVs, which W_ denies are used in electronics/appliances. Once again,
I'll ask the same question W_ refuses to answer. How is it that MOVs
or any other component can offer protection when used in a PC power
supply, but are useless in a plug-in surge protector? According to
W_, surge protection is impossible unless there is a direct and short
connection to earth ground. Does the PC power supply come with a
built-in earth ground?
 
| I wonder if "ring mains" (an extra wire from the last outlet to make
| a loop back to the fusebox) are legal in the US. Seems like a nice way
| to improve voltage regulation with a little extra wire, and if the ring
| wire only breaks in one place, all the outlets keep working.

It is not legal in the US. It is also considered technically unsafe.

Lots of things are "technically unsafe" :) Safety is often used as excuse
for people-control...
The safest case would be wiring both ends of the ring into the same breaker
rated for the current capacity of the wire as if used in a regular branch
circuit.

Sounds good to me.
... If the wire became loose at one point in the ring, it would still be
a potential hot spot

Maybe not too hot, if the rest of the wire is intact.
... a neutral would have to be wired in from both ends of the ring, and
each be wired in a separate hole (not doubled up) in the neutral bus bar.

The "separate hole problem" has lots of solutions.
... The issue of voltage stability is addressed by keeping branch circuits
short. It is my understanding that UK ring circuits tend to be longer and
run all around the portion of a house (often an entire floor).

Sounds more cost-effective to me. Why don't more people use large PEX pipe
"ring mains" with Ts, vs home runs with tiny pipe and expensive manifolds?

Nick
 
  Using trader's reasoning, all appliances contain MOVs.  Therefore
plug-in protectors need not be purchased AND all appliances never
suffer surge damage. Conclusions directly from trader's post.

LOL. You're a real riot. YOU are the one that in previous and
similar long threads has stated that manufacturers of appliances and
electronic equipment put surge protection in them and that it works,
and used that as an argument as to why a plug-in surge protector is
useless.

I never stated that all appliances contain MOVs. I only stated that
they frequently or commonly do. You, on the other hand, denied that
MOVs are used in that kind of application. At which point, I
provided you references to a couple of articles in Appliance Magazine
that discuss how MOV are in fact commonly used in those applications:
A poster just told you his microwave has them. Another told you the
phone system sitting in front of him has them.

So, once again, stop lying about what I stated and answer the simple
question:

How is it that MOVs can work as surge protection inside the appliance,
but not in a plug-in surge protector? Where is that essential direct
earth ground? Does that microwave come with a built-in earth
ground? If not, then just like the plug-in surge protector, there is
no direct earth ground, so how can the MOV be helping protect the
microwave?

And it would help if you just answer that question, not start with a
long rant.
 
| Now - is this all germane to household protection? You say not and I agree
| with you- because household equipment can ride through - at worst- doubling
| of the clamped voltage for a very short time even though the clamped voltage
| is relatively small compared to the peak of the incoming surge. --

What if the surge is an extreme case (e.g. direct strike very near) and itis
arriving at protection devices in common mode (same polarity on all three
wires).  Bud's assertion _seems_ to be that no surge could ever be of the
type with substantial energy at high frequencies.  My belief is that they
can, and will at times.  Lightning strokes have that energy, or else you
would not receive them on UHF.  If the stroke is strong _and_ close (e.g..
less line inductance between the point of strike and where it is being
considered), then more of that UHF energy will arrive.

I have seen damage patterns in electronics that strongly suggests that there
were specific paths involved based on minor levels of reactance in the circuit.
A resistor would be melted along one path, but not so along another which had
a small inductor (3 turns in air) in the way.  And this device (a VCR) was on
a surge protector along with a TV that was unharmed.

If Bud is just arguing about the _typical_ (median?) surge level, then maybe
we are arguing apples and oranges.  I certainly don't intent to protect against
50% of surges.  My target is better than 99%.  I want to feel comfortable
sleeping through a severe thunderstorm while my computers and media center
remain plugged in.

I do agree that things can survive at the clamping voltage.  But there has to
be a clamping situation.  It's too easy for a surge to come in as a common
mode surge where the voltage difference across the MOVs would be (nearly) zero.
Then all we have is a propogating wavefront.  And if it is strong and/orclose
then we have very fast rise times.  And it passes by the MOVs "laterally".

There's probably a big difference of opinion about just how much protection is
worth it.  But one thing I do see in at least part of this thread is that Bud
focuses on quoting things other people say, and does very little to express
things in his own words.  That suggests he reads but does not fully understand.
And that means I can't ask questions of what is said in the thread.  Since Bud
can't (or won't) defend what he's saying in his own words based on his own
knowledge, it's not really a two way street.  His "experts" are not involved
in the debate; they can neither defend their position nor be questioned about
it to get more details.


I find Bud's use of actual references interesting and think they add
to his credibility. Trying to suggest that someone using references
such as the IEEE to support their position detracts from their
credibility is preposterous. And trying to impugn him in this fashion
only detracts from your credibility.
 
B

bud--

Jan 1, 1970
0
Mike said:
You're quite correct. It's a practice that the GPO (forerunner to
British Telecom) abandoned in the 1960s, showing how up to date w_'s
"knowledge" is.

Phone wires were clamped to ground before the 1960s?
 
B

bud--

Jan 1, 1970
0
VWWall said:
I had a microwave oven that had a MOV across the 120V line ahead of the
power switch. The other side of the 120/240 20A circuit supplied a
refrigerator. The loss of the neutral applied a good part of the 240V
across the MOV when the refrigerator attempted to start.

The MOV didn't last long! It would probably have been OK on the load
side of the switch.

Using a MOV to protect against loss of neutral (in the article) is
rather futile. Sustained overvoltage will rapidly kill them. Although if
the protected load was across the MOV and a fuse was ahead of both
protection may work. Would be interesting why the MOV was ahead of the
switch.
I know that refrigerators should be alone on a "home run" circuit, and
neutrals shouldn't be connected with wire nuts, but that wasn't how it was!

My only complaint with some plug-in protectors is that the MOVs are
often much too small. I've also seen some with only a line-line MOV.

I would only buy one with fairly high ratings (which are readily
available).

UL, as far as I know, requires MOVs to be L-N, L-G, N-G. I thought that
was the standard since the start, which w_ said was 1985.
 
C

charles

Jan 1, 1970
0
Phone wires were clamped to ground before the 1960s?

not as such, but phones in rural areas often had an earth terminal on the
household terminal box.
 
B

bud--

Jan 1, 1970
0
| [email protected] wrote:
|> | [email protected] wrote:
|>
|> |> | w_' professional engineer source says 8 micoseconds with most of the
|> |> | spectrum under 100kHz.
|> |>
|> |> Even with 1 nanosecond rise time, most of the energy will be present in
|> |> the spectrum below 100 kHz. That means nothing when the surge is strong
|> |> enough to have energy above some frequency that is relevant to the whole
|> |> system involved that can do damage. That frequency might be 100 Mhz for
|> |> some thing, and 1 GHz for other things.
|> |
|> | Still missing - your source. Nanosecond risetime. 100MHz spectrum.
|>
|> Observation. Of course this is a concept you cannot understand.
|
| Observation proves flying saucers and magic.
|
| Without supporting sources it is Phil's Phantasy Physics.
| Where is a source that supports your belief in nanosecond risetimes and
| 100MHz spectrum?

There is no point in spending the effort to find some quotable source because
you wouldn't know what to do with it.

In other words - it is Phil’s Phantasy Physics, so no supporting link
exists.
 
B

bud--

Jan 1, 1970
0
Maybe you should review what you actually stated in the context of
current surge supression discussion:
"
"The MOVs will act like conductors when they are clamping. The surge
will
|> |> take both paths ... the path through the MOVs, and the path
going past the
|> |> MOVs. In general, about 50% will go each way. That can vary at
higher
|> |> frequencies. "

That sure sounds like 50% of the surge is going through the MOV and
the other 50% is going on past it to the protected equipment.

And that I would have to agree with Bud on, it's phantasy physics,
because if it were true, no type of surge protection would work,
because it would only be 50% effective.

He is using transmission line effects which Martzloff investigated and
said do not come into play unless the circuit is 200m long. Phil claims
high frequencies.

Still missing - a source that supports nanosecond risetimes and 100MHz
spectrum.
 
B

bud--

Jan 1, 1970
0
w_tom said:
Bud will only challenge the hanford link because he cannot challenge
those 'scary pictures'.

w_ only provides those ‘scary pictures’ because he has no valid
technical arguments.

Still missing - a link to any source that says UL listed plug-in
suppressors made after 1998 are a problem.
Another is a fire marshal describing
why plug-in protectors can create house fires.

The fire marshal said: "More modern surge suppressors are manufactured
with a Thermal Cut Out mounted near, or in contact with, the MOV that is
intended shut the unit down overheating occurs.[sic]"
And then Bud posts a half fact. UL1449 was created on 28 Aug 1985 -
not in 1998 as Bud claims.

It is really hard to understand how someone could be stupid enough to
not know the difference between a creation date and a revision date.

From w_'s hanford link:
"Underwriters Laboratories Standard UL 1449, 2nd Edition, Standard For
Safety For Transient Voltage Surge Suppressors, now requires thermal
protection in power strips. This protection is provided by a thermal
fuse located next to the MOV."

The fire marshal says the same thing (above)

If w_ had any knowledge of the field he would know UL 1449, 2nd Ed was
effective in 1998.
Bud refuses to post a
specification for one simple reason.

Posted often and ignored. Another of w_'s favorite lies.
In reply, this is
what Bud is really promoting - these 'scary pictures':
http://www.hanford.gov/rl/?page=556&parent=554

The lie repeated. But w_ is a fan of Josef Goebbels and thinks if you
repeat a lie often enough, people will believe it.


Still missing - a link to another lunatic that says plug-in suppressors
are NOT effective.

Still missing – answers to embarrassing questions:
- Why do the only 2 examples of surge suppression in the IEEE guide use
plug-in suppressors?
- Why does the NIST guide says plug-in suppressors are "the easiest
solution"?
- Why do all but one of w's "responsible manufacturers" make plug-in
suppressors?
- Why does SquareD say in addition to their "whole house" suppressors
"electronic equipment may need additional protection" from plug-in
suppressors.
- Why aren't airplanes crashing daily when they get hit by lightning (or
do they drag an earthing chain)?

–-
bud--
 
B

bud--

Jan 1, 1970
0
| [email protected] wrote:
|>
|> | Now - is this all germane to household protection? You say not and I agree
|> | with you- because household equipment can ride through - at worst- doubling
|> | of the clamped voltage for a very short time even though the clamped voltage
|> | is relatively small compared to the peak of the incoming surge. --
|>
|> My belief is that they
|> can, and will at times.
|
| People believe in flying saucers.
| Where is a source that supports your belief?

My observations support my belief.

Observations support belief in astrology, reflexology, homeopathy,
dowsing, healing touch, Feng Shui, Sylvia Brown, ....
|> I do agree that things can survive at the clamping voltage. But there has to
|> be a clamping situation. It's too easy for a surge to come in as a common
|> mode surge where the voltage difference across the MOVs would be (nearly) zero.
|> Then all we have is a propogating wavefront. And if it is strong and/or close
|> then we have very fast rise times. And it passes by the MOVs "laterally".
|
| Where is a source that supports your belief in nanosecond risetimes and
| 100MHz spectrum?

Another poster followed up to my post you just followed up to that also has
experienced the same thing.

I am not interested in direct lightning strikes to my house. Protection
requires lightning rods.

I am interested in surge protection. That is surges coming in on utility
wires, direct induction, ground potential rise, ....

Martzloff says transmission line effects require 200m branch circuits.

You disagree with Martzloff (and have said "he flubbed the experiment")
but provide no sources that agree with your belief.
|> But one thing I do see in at least part of this thread is that Bud
|> focuses on quoting things other people say, and does very little to express
|> things in his own words.
|
| I focus on the real world. You focus on your beliefs.

You focus on citing and quoting things you do not understand well enough to
just talking about them in technical terms.

In other words, it is Phil’s Phantasy Physics.

Where is a source that supports your belief in nanosecond risetimes and
100MHz spectrum?
There should be plenty of sources.
 
I think the UL requires only that the MOVs don't start a fire when
exposed to conditions which cause their break-down.  They don't rate
their ability to function as "surge protectors".


UL evaluates surge suppressors for fire, electric shock and personal
injury hazards, and also measures and categorizes the devices for how
much voltage they can "clamp," thus preventing excess voltage from
passing through to electronic equipment. UL refers to this as a
"suppressed voltage rating," with ranges from 330V (volts) to 4000V.
Believe it or not, the lower the rating, the better the protection.

Whatever surge suppression protection you're looking for, make sure
the surge suppressor has been tested and Listed to the stringent
requirements of UL 1449, the Standard for Transient Voltage Surge
Suppressors.

http://www.ul.com/consumers/surge.html

http://ulstandardsinfonet.ul.com/tocs/tocs.asp?doc=s&fn=1449.toc
 
   That's it, _wacko_.  Use more misdirection.  It is YOU who claims
that broadcast facilities sustain no damage from lightning strikes.


   More _wacko_ lies, as expected.



  If you could read and comprehend you would know.  Sadly, you are too
ignorant to understand what you read.


   Liar.  You keep telling this lie, even though I posted links to two
telephone cards using them, as well as the datasheets form one of many
OEMs who make MOVs for Telecom service.  The stated capacitance is 480
pF  Tell us how that affects the bandwidth, when the line to the
building has a higher capacitance.


   gee, stop posting lies and insults, and learn the truth.


   Another blatant lie. I never mentioned anything to do with protection
in the UK, _wacko_.


   You didn't even look at that Epcos link, did you?  You can't admit
that you are the biggest idiot and liar on USENET.  It doesn't really
matter, everyone sees through your pathetic attempts to distort the
truth. When that doesn't work, you fall back on lies and omissions to
smear anyone you don't agree with.


   I did look.  What I found was large chunks of concrete blown away,
and pieces of burnt rebar from a direct strike.


   Now UFER is single point in a 10,000 Sq. Ft building?


   You are the one with an attitude.  Very little can be done to protect
from a direct strike. Some towers have had entire sections vaporized
from multiple strikes during a single storm, yet you continue to lie, by
stating it can't happen. No where did I claim that plug-in protection
was used.  This is another of your lies.  You ignored the fact that I
had never even seen most of the building, because I was just hired. I
was in the accounting office, right by the side door, and parking lot
where I filled out the application.

   Here is the part you snipped, because you can't tell your ignorant
lies, and leave it in:
___________________________________________________________________________­_

   Gee, _wacko_ you've never seen ANY modern business telephone
equipment?  Gas tubes are fragile and very expensive. The protection
isn't to save the privately owned telephones, it it to limit damage to
the building.  Even that mid '60s 1A2 system had every output of the
power supply fused to prevent a fire. Explain why an MOV's capacitance
is high enough to affect a phone line. Never mind.  I have a Nitsuko/NEC
DX2NA-32SYTEMEM KEY TELEPHONE SYSTEM in front of me, and every CO line
in it has a MOV across the line.  Once more, you're preaching lies and
using deceit to try to make others look bad.

<http://refurbishednitsuko.net/productInfo.aspx?productID=75978489-9ac....>
is the Central Office line card for four telephone lines. See the black
MOVs to the right of each pair of fuses?

<http://refurbishednitsuko.net/productInfo.aspx?productID=f5453e33-047....>
is the card for four standard 2500 type telephones, or equivalent
equipment. See the pairs of black MOVs over the blue connectors at the
bottom of the screen? They are all japanese, with no brand markings.

<http://www.epcos.com/web/generator/Web/Sections/Publications/PDF/SIOV...>
is the Epcos MOV databook, with datasheets for Telecom applications.
page 213 list the TELECOM MOV data.

   Every line into that studio building had a long distance call device
diverter in the line that had MOV across the phone line. Every one of
them survived the direct hit to the building and STL tower. That's more
than can be said of your ability to use reason, and learn new things.

   You need to get your head out of 1920 and learn modern electronics.
The one thing we learned today is that you don't know any more about
Telecom that you do lightning protection, or reading comprehension.
___________________________________________________________________________­_

--http://improve-usenet.org/index.html

Use any search engine other than Google till they stop polluting USENET
with porn and junk commercial SPAM

If you have broadband, your ISP may have a NNTP news server included in
your account:http://www.usenettools.net/ISP.htm


LOL Haven't you seen W_ in action before? This is one of his
standard rants repeated many times. According to W_ any damage from
lightning or surges MUST be do to HUMAN failure.
 
Just ask him about using a 3 1/2 digit VOM to check out those lousy ATX
power supplies thet everyone is fostering on us. ;-)

Or his statements about how lightning strikes exactly once every 8
years. He's got a whole repertoire of these beauties. I no longer see
his posts unless they are quoted in someone else's replies, as I
filter all posts in alt.home.repair that come from googlegroups. I
really don't miss him, as he just endlessly repeats the same garbage
that he's been spewing for a decade on usenet. He's a complete kook.
 
F

flyboy

Jan 1, 1970
0
How can one find this rating for a particular device?

Look for ul1449 330v or 400 for example, or surge voltage rating SVR
330v or Clamping Category 330v
"The unpredictable nature of surges makes it difficult to suppress them;
you never know when, how long or how powerful they will be. In some
cases, asurgemay have a higher energy level than the device can
handle. When this happens, thesurgesuppressor may be damaged and lose
its ability to provide protection against future surges."

MOV’s and surge protectors are like tires on your car, the more you
use them the shorter useful life, mistreat them, the shorter the
useful life, too small or light weight the shorter the useful life.
Ul 1449 certification take care of the too small or light weight.
Proper selection for problem locations is the key to protection.
I'm happy to see that UL agrees!  They don't seem to put any evaluation
of this parameter, unless the "suppressed voltage rating" includes the
Jules rating of the MOVs.

Don’t pay attention to joules on surge protectors, no standard to
measure, a better and recommended rating is “Peak Surge Current” the
higher the better.
 
R

Rich Grise

Jan 1, 1970
0
What kind of ground rods? I prefer steel core, copper clad ones:) I even
have the special heavy hammer>

I saw one in one of the "Popular this-n-that" mags, that used a piece of
copper pipe, with a hose fitting on the end. You point the pipe at the
ground, turn on the hose, and the water digs its hole for it. Then, you
can take the hose fitting off, cap the pipe, and have a pretty decent
ground stake.

Maybe it was one of the ham mags.

Cheers!
Rich
 
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