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Dennis Johnson
Joined: 10 Jan 2006
Posts: 89
Location: N. Calif.
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 Posted: Sun Aug 17, 2008 8:45 am Post subject: Landing Light Pops Breaker |
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The April issue of EAA's Sport Aviation magazine had a "technical" column about an airplane that regularly popped the landing light circuit breaker. The author said he found several high resistance connections in the circuit and solved the problem by cleaning those connections and making them low resistance. The current issue, August, has an excellent letter to the editor that questions how a high resistance connection (presumably not at the circuit breaker's terminals) could cause a high amperage condition that would trip the breaker.
When I read the original article, I also didn't understand how a high resistance connection could increase the amperage in a landing light circuit and just figured that it was yet another example of bad advice in a Sport Aviation "technical" article. I enjoy the magazine, but I have found so much faulty technical information in it that I don't pay much attention to their technical articles.
However, the author's response to the question reiterated that a high resistance connection can increase the amperage enough to cause the circuit breaker to trip.
I'm a beginner on things like this, but I've studied Bob's book and this newsgroup since beginning my homebuilt project five years ago, and cannot understand how the author could be right. However, I've learned from this list that some components try to consume constant power and that reducing the voltage to them increases the current in order to keep the power constant. But I think a tungsten filament landing light is a simple resistor (although very temperature sensitive). I think if I put a resistor in series with a landing light, the amps would go down, not up, and the amount of light produced would decrease.
So what's the truth? And why?
Best,
Dennis
Lancair Legacy, 150 hours, did all my own wiring (also assembly, body-work, paint, instrument panel, etc)
[quote][b]
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Joemotis(at)aol.com
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| Posted: Sun Aug 17, 2008 10:12 am Post subject: Landing Light Pops Breaker |
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That's easy, how about if the landing light is turned on and is pulling maximum amps on a cold filament,
meanwhile that high resistance connection upstream is starting to get hot and arc and spark...Those values added together are greater than the circuit breakers rating..
Joe Motis
Do not archive
Looking for a car that's sporty, fun and fits in your budget? Read reviews on AOL Autos.
[quote][b]
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nuckolls.bob(at)cox.net
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| Posted: Sun Aug 17, 2008 4:20 pm Post subject: Landing Light Pops Breaker |
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At 09:38 AM 8/17/2008 -0700, you wrote:
| Quote: | The April issue of EAA's Sport Aviation magazine had a "technical" column
about an airplane that regularly popped the landing light circuit
breaker. The author said he found several high resistance connections in
the circuit and solved the problem by cleaning those connections and
making them low resistance. The current issue, August, has an excellent
letter to the editor that questions how a high resistance connection
(presumably not at the circuit breaker's terminals) could cause a high
amperage condition that would trip the breaker.
When I read the original article, I also didn't understand how a high
resistance connection could increase the amperage in a landing light
circuit and just figured that it was yet another example of bad advice in
a Sport Aviation "technical" article. I enjoy the magazine, but I have
found so much faulty technical information in it that I don't pay much
attention to their technical articles.
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Understand . . . and agree. I quit writing for S.A. some
years ago after an article I reviewed for Jack Cox wound up
getting published anyhow. See:
http://aeroelectric.com/articles/rules/review.html
S.A. used to be the flagship publication of EAA and
dedicated to the best we know how to do. Sadly, it
now seems to be a cash cow for advertising sales
and a venue where wanna-be's get published. When
you have a high-volume, directed-market technical
publication that won't even pay a rudimentary writer's
fee or seek peer review of articles . . . well . . .
what you see is what you get.
| Quote: |
However, the author's response to the question reiterated that a
high resistance connection can increase the amperage enough to
cause the circuit breaker to trip.
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Good for you! I don't know how many times I've seen
words in ostensibly authoritative works that suggest
"cleaning and re-tightening" junctions in order to
cure a variety of ills . . . including the opening of
breakers or fuses. See bottom of page 4 and top of
5 on . . .
http://www.aeroelectric.com/articles/richter/response_2.pdf
and upper left corner of page 2
http://www.aeroelectric.com/articles/Wired_for_Disaster.pdf
These words are written by folks who's esteem in
our society has been artificially elevated for
reasons other than their understanding of physics
and practical processes.
Unless a high resistance junction is showing signs
of impending failure due to heating . . . then its
effects are limited simply to increasing path resistance.
An increase in path resistance LOWERS overall power
consumed by devices on that pathway . . . but indeed
may concentrate power dissipation (heating) in a
localized area (joints, worn contacts) that precipitate
a failure at that location . . . but it certainly doesn't
cause breakers to open. Unless . . .
Here's a case where a switch failure DID first manifest
itself by opening a breaker . . . when it was TURNED
OFF. See:
http://www.aeroelectric.com/articles/Anatomy_of_a_Switch_Failure/Anatomy_of_a_Switch_Failure.html
Of course, this was a double failure . . . the switch
had not yet failed to conduct in the closed position
. . . but heating effects induced a second failure.
A distortion of the internal parts that ultimately
produced the short that tripped the breaker.
We've studied on these pages how an increased path
resistance contributes to instability of the voltage
regulator on alternators where field supply current
and bus voltage sense share the same pathway.
But aside from this demonstrable effect, I'm aware
of no other case where increased path resistance
due to real or imagined join degradation will cause
breakers or fuses to nuisance trip.
| Quote: | I'm a beginner on things like this, but I've studied Bob's book and this
newsgroup since beginning my homebuilt project five years ago, and cannot
understand how the author could be right. However, I've learned from this
list that some components try to consume constant power and that reducing
the voltage to them increases the current in order to keep the power
constant. But I think a tungsten filament landing light is a simple
resistor (although very temperature sensitive). I think if I put a
resistor in series with a landing light, the amps would go down, not up,
and the amount of light produced would decrease.
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Correct. The resistance of the lamp will decrease as
it gets dimmer . . . but not in inverse proportion
to decrease in voltage . . . i.e. current draw
STILL goes down, total power consumed still goes
down, just not like it would if a simple resistive
load were involved.
| Quote: | So what's the truth? And why?
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You were pretty close to it when your skepticism
based on what you understood raised some flags . . .
and you asked questions. With respect to the original
article: if one assumes the author of the original
article was not lying, then SOMETHING he did caused
the problem to go away. He may have moved some
wiring that cleared an intermittent short . . . but
believed that cleaning the connections was what
really did it. We'll never know since the "crime scene"
was not properly processed and is now probably compromised
to a degree that true root cause is no longer discoverable.
But a goodly portion of 135,000 EAA members will join him
in his erroneous beliefs.
Bob . . .
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rv-9a-online(at)telus.net
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| Posted: Sun Aug 17, 2008 6:04 pm Post subject: Landing Light Pops Breaker |
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Bob, and others.
There are a class of devices that can cause increased current with increased
resistance in the power circuit.
Some devices use switching power supplies which are constant-power devices.
What this means is that if input voltage increases, the current drain
decreases and vice versa. This negative resistance effect can cause
instability, and designers need to take it into consideration.
The best example I have is that my strobe power circuit had a faultly
(resistive) switch which caused current in the circuit to increase, and
tripped the breaker. The strobe supply was attempting to make up for the
voltage drop in the switch by increasing it's drain current. The fix was to
replace the switch and the burned terminals. I had two switches fail in
similar manners in different within the first year of operation of my RV-9A.
One was returned to the vendor for failure analysis, but I never heard back.
I first experienced this type of problem when designing switch mode power
supplies for cyclotron equipment. Everything worked fine until battery
internal resistances increased, then voltage/current oscillations would
start. Cheap fix was to put a fixed load on the input of the power supply
and waste a lot of energy to stabilize the load. Not recommended for
aircraft!
Vern Little
--
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nuckolls.bob(at)cox.net
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| Posted: Sun Aug 17, 2008 6:42 pm Post subject: Landing Light Pops Breaker |
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At 07:02 PM 8/17/2008 -0700, you wrote:
| Quote: |
<rv-9a-online(at)telus.net>
Bob, and others.
There are a class of devices that can cause increased current with increased
resistance in the power circuit.
Some devices use switching power supplies which are constant-power devices.
What this means is that if input voltage increases, the current drain
decreases and vice versa. This negative resistance effect can cause
instability, and designers need to take it into consideration.
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Sure . . . but let's put this into perspective. These are
not unlike the oscillating voltage regulators we discussed
earlier. But let's consider a system designed to run on 14v
at 3A (42w input) and protected with a 5A breaker. If series
resistance of a switch or other joint dropped say 2 volts,
then the system would compensate and current would rise
to 42/12 = 3.5A
From the outside looking in, things would appear normal
but the high resistance location would now be dissipating
2 x 3.5 = 7 watts! This is probably 4 or 5 times more than
the power it took to slowly toast the switch in the failure
analysis I cited. The situation would not last long . . . and
still wouldn't pop the breaker.
Suppose we have a 28v 42w system that runs 1.5A. Hmmm . . .
I suppose we could protect that line with a 2A breaker
but those things are expensive . . . the 22AWG feeder
is still happy at 5A breaker. But yeah, let's say a
3A breaker. Now some high resistance condition that would
push the 3A breaker has to drop 14v at 3A or 42 watts
of dissipation! It's toasted in a hurry . . .
| Quote: | The best example I have is that my strobe power circuit had a faultly
(resistive) switch which caused current in the circuit to increase, and
tripped the breaker. The strobe supply was attempting to make up for the
voltage drop in the switch by increasing it's drain current. The fix was to
replace the switch and the burned terminals. I had two switches fail in
similar manners in different within the first year of operation of my RV-9A.
One was returned to the vendor for failure analysis, but I never heard back.
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I recall that you sent an S700-2-10 switch back to B&C
for loose terminals. In that case, voltage excursions caused
by the loose terminals were probably upsetting the regulation
stability so badly as to cause a true ov condition that tripped
the system and opened the breaker. Breaker popping was a
secondary effect and not caused directly by an increased load
by a constant power device.
Were you the one that sent me the strobe switch cited
in the failure analysis I posted?
http://www.aeroelectric.com/articles/Anatomy_of_a_Switch_Failure/Anatomy_of_a_Switch_Failure.html
Again, breaker popping was a secondary effect
of the overheating of the switch that deformed the contact
support teeter-totter. These switches are normally good
for 10A or more in the closed state . . . but this switch
obviously failed at the pivot bridge as indicated by
heating patterns . . . this was happening with no more
than 1/2 volt of drop internal to the switch. So if your
strobe needed 5A average at 14v it would need only 5.2
amps at the "reduced" voltage. Yet the 5A at 1/2 volt
was 2.5 watts of heating on the switch's innards. Not
enough to 'smoke' it but enough to heat the components
to eventual failure but it took a number of hours but didn't
cause smoke in the cockpit.
| Quote: | I first experienced this type of problem when designing switch mode power
supplies for cyclotron equipment. Everything worked fine until battery
internal resistances increased, then voltage/current oscillations would
start. Cheap fix was to put a fixed load on the input of the power supply
and waste a lot of energy to stabilize the load. Not recommended for
aircraft!
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That was a true negative resistance problem but those
generally happen under conditions that are far below those
needed to trip breakers that have any headroom at all.
Your perception of the behavior of constant-power systems
is accurate but increased resistance situations sufficient
to put a switch at risk are too small to be a likely
cause of breaker popping.
Bob . . .
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