Matronics Email Lists Forum Index Matronics Email Lists
Web Forum Interface to the Matronics Email Lists
 
 Get Email Distribution Too!Get Email Distribution Too!    FAQFAQ   SearchSearch   MemberlistMemberlist   UsergroupsUsergroups   RegisterRegister 
 ProfileProfile   Log in to check your private messagesLog in to check your private messages   Log inLog in 

Toggle Switches with Fast-On Tabs
Goto page 1, 2  Next
 
Post new topic   Reply to topic    Matronics Email Lists Forum Index -> AeroElectric-List
View previous topic :: View next topic  
Author Message
nuckolls.bob(at)cox.net
Guest





PostPosted: Sat Sep 13, 2008 6:51 am    Post subject: Toggle Switches with Fast-On Tabs Reply with quote

Let's lay out all the simple ideas behind the design
fabrication and operation of a toggle switch fitted with
fast-on tabs for the purpose of discovering a failure mode
and deducing a remedy. I'll refer the serious students to
the quick-n-dirty sketch at:

http://aeroelectric.com/Pictures/Switches/Toggle_Switch_with_Fast-On_Tabs.jpg

This cross-section will allow us to trace the path of
current flow through the switch as follows:

Electrons come in via Wire(B) and pass to the fast-on
terminal through wire grip(1) and then on to the fast-on
tab(C) through a high-pressure metal-to-metal
terminal/tab interface(2). Current must then pass
through a high-pressure, metal-to-metal joint(3) to
the contact(D). A low-pressure, metal-to-metal
contact/contact interface(4) carries current to
the teeter-totter(F) via another high-pressure,
metal-to-metal joint(5).

Current flows through the teeter-totter to a
low-pressure, metal-to-metal sliding joint(6)
at the top of the saddle(G) and then down to
a high-pressure, metal-to-metal joint at the
saddle to rivet interface(7), through the plastic
housing(A) to another high-pressure, metal-to-metal
staked joint(Cool and thence on to the fast-on-tab.

From the fast-on-tab, we find another high-pressure,
metal-to-metal joint at the terminal/tab interface(9)
and finally, another high-pressure, metal-to-metal
joint at the terminal's wire grip(10).

So if you count them up, there are TEN, conductor-
to-conductor joints that carry current through this
switch installation when the switch is closed.

By inspection we can deduce that the weakest links
in this conductor chain are at the low-pressure,
metal-to-metal, NON GAS TIGHT joints at (4) and (6).
Indeed, the first switch failure we considered gave
us physical evidence of a failure at (6) that produced
a slowly progressing failure of the switch. This
study was described in detail at:

http://www.aeroelectric.com/articles/Anatomy_of_a_Switch_Failure/Anatomy_of_a_Switch_Failure.html

Now we are pondering a demonstrated case of repeated
failures over a period of years in one aircraft. Here
are some of the hard data points:

(a) All of the switches involved are Carlingswitch
toggles with fast-on tabs. These switches are
an exceedingly mature design that dates back
at least 50 years. IF the root cause of failure
lies with the switches, then it's most likely
a failure of process and not of design.

(b) All switches showed signs of heating on terminals
that are also on "loose rivets" at (3) or (Cool.
The fast-on terminals also showed signs of
over-heating in the form of discolored insulators
over the wire-grips.

(c) While the majority of switch failures were used
in circuits that carry substantial amounts of
current (strobe and landing lights) the first
failure reported was in a master switch that
carries 1A of contactor current and field
current of perhaps 4A max with an in-flight
average current on the order of 1A.

(d) A photo offered at:

http://aeroelectric.com/Pictures/Switches/VL_Switch_Failure_2.jpg

shows distinct signs of over-heating at the
terminal's insulator but no overt signs of
overheating in the metal parts under the terminal.

I posited the hypothesis a few days ago that IF
the source of heating came from within the switch
and IF temperatures rose high enough to discolor
the terminal's insulation, then temperatures on
the metal parts under the terminal would be high
enough to discolor their surfaces as well. For
example, in the photo at:

http://www.aeroelectric.com/articles/Anatomy_of_a_Switch_Failure/b.jpg

We see an overheated and loose rivet. We also see
signs of discoloration due to accelerated corrosion
of the fast-on tab adjacent to the rivet head.
These were the overt signs visible from OUTSIDE a
switch that was in serious trouble from heating
effects INSIDE . . . the fast-on-terminal was not
hot enough to distort the shape or color of the
terminal's wire grip.

Now, the loose rivet phenomenon is easily explained
by a degradation of structural integrity of the
switch's plastic housing(A). Further, since the
failed switches have obviously been running hot,
it follows that the plastic has lost structural
integrity due to heating . . . what is NOT obvious
is whether the initial heat-source came from INSIDE
or OUTSIDE the switch.

(e) We know that hundreds of thousands of switches using
this design and process are flying on aircraft. IF
there is a problem with the switches, then the BIG
puzzle to be solved is why we find a suite of failures
spanning years of switch production batches and many
flight hours of the subject aircraft. The astute
investigator is obligated to consider all features
of the current path study cited above and either
confirm or discard each of the TEN metal-to-metal
connections as candidates for root cause of
the failures.

Okay, this dissertation illustrates our of understanding
at the time of this writing.

It's not only useful but necessary to discount or
confirm the integrity of wire grip joints on the terminals
ESPECIALLY in light of localized heating observed
on the wire-grips of the terminals. This line of
investigation is further encouraged by analysis
of the probability of such concentration of switch
failures having root cause in design or construction of
the switches. This consideration alone is strong suggestion of
an ALTERNATIVE EFFECT COMMON TO ALL THE FAILURES.

On a related topic it has been suggested in the
pages of this forum that Fast-On terminals have
no "Gas Tight" qualities. For clarity let us agree
on the meaning of gas tight. In the dissertation above
I've used the terms high-pressure and metal-to-metal
to describe the interface between two conductors.
By high pressure, I'm speaking of conditions severe
enough to deform metal, i.e. upset its surface or
shape. Keep in mind that this kind of activity
implies pressures in the tens of thousands of pounds
per square inch. In the context of gripping the
strands of wire in the crimp of a terminal, the
term "gas tight" is very descriptive of the
design goal.

Consider the sketched cross-section of a fast-on
joint which I've posted at:

http://aeroelectric.com/Pictures/Terminals/Fast-On_Physics.jpg

We speak to this drawing during the weekend seminars
and point out that most individuals look at a Fast-On
terminal and incorrectly deduce that the spring
forces at the ends of the grips(A) provide an
enduring connection to the tab(B) at the flat interface
between terminal and tab at (2).

Consider that when you push the Fast-On terminal onto
a tab and pull it off, an examination of the area under
the tips of the grips at (1) will show bright lines
or scratches in the tab metal surface. Tiny? yes.
Pressure? Pushing the terminal onto the tab plows
furrows in the surface of the tab i.e. exerts pressures
in the tens of thousands of PSI. The pressures on the
back side of the interface at (2) are a tiny fraction
of those found on the front side.

Therefore, I suggest that not only are the interfaces
at (1) gas-tight (due to the intimate contact of terminal
and tab) the interface at (2) is not gas tight. While
(2) may contribute significantly to joint conductivity
when shiny and new, it's contribution ten years hence is
a small fraction of the total.

Bob . . .


- The Matronics AeroElectric-List Email Forum -
 

Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:

http://www.matronics.com/Navigator?AeroElectric-List
Back to top
rv-9a-online(at)telus.net
Guest





PostPosted: Sat Sep 13, 2008 10:03 am    Post subject: Toggle Switches with Fast-On Tabs Reply with quote

Hi Bob: One more variable: The serious switch failures (the one you
analyzed, plus my two) have all been in strobe circuits. We've had some
debate about this in the past, but perhaps the analysis of the I-V
characteristics of Whelen strobe supply would be in order. I'm curious if
there is a combination of elements problem here with switches, terminals and
load.

When my master switch failed (loose rivets), it manifested itself with
alternator overvoltage alarms. The voltage regulator was boosting
alternator output to compensate for a voltage drop in the master switch.
Normally, you'd suspect a regulator, but it was the switch. The ultimate
boilerplate fix was to use the new switch to control a relay that connected
the alternator output to the regulator directly (through appropriate
fuselink).

I'm wondering if a similar band-aid fix for the strobe supply is in order.
Perhaps use the switch to control a good automotive relay for this circuit.

I don't have a setup for testing a strobe supply myself. Perhaps Whelen has
some insight.

Vern

[quote] --


- The Matronics AeroElectric-List Email Forum -
 

Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:

http://www.matronics.com/Navigator?AeroElectric-List
Back to top
nuckolls.bob(at)cox.net
Guest





PostPosted: Sat Sep 13, 2008 10:33 am    Post subject: Toggle Switches with Fast-On Tabs Reply with quote

At 10:58 AM 9/13/2008 -0700, you wrote:
Quote:

<rv-9a-online(at)telus.net>

Hi Bob: One more variable: The serious switch failures (the one you
analyzed, plus my two) have all been in strobe circuits. We've had some
debate about this in the past, but perhaps the analysis of the I-V
characteristics of Whelen strobe supply would be in order. I'm curious if
there is a combination of elements problem here with switches, terminals and
load.

When my master switch failed (loose rivets), it manifested itself with
alternator overvoltage alarms. The voltage regulator was boosting
alternator output to compensate for a voltage drop in the master switch.
Normally, you'd suspect a regulator, but it was the switch. The ultimate
boilerplate fix was to use the new switch to control a relay that connected
the alternator output to the regulator directly (through appropriate
fuselink).

Yes, that drops the current through the switch to some
value on the order of 100 milliamps on the alternator side
while leaving the contactor load of about 1A on the battery
side. This raise some big red flags suggesting that ratings
abuse is not root cause of the failures you've suffered.
Quote:
I'm wondering if a similar band-aid fix for the strobe supply is in order.
Perhaps use the switch to control a good automotive relay for this circuit.

I don't have a setup for testing a strobe supply myself. Perhaps Whelen has
some insight.

Assuming that root cause turns out to be some form of
ratings abuse, then yes . . . the fix is get back within
the bounds of ratings.

This could include things like buffer relays . . .

http://www.aeroelectric.com/PPS/Adobe_Architecture_Pdfs/Z32K.pdf

http://www.aeroelectric.com/PPS/Adobe_Architecture_Pdfs/Z22-23K.pdf

. . . or other adjustment to architecture.

But it's not clear to me that we're dealing with a ratings
issue. You've had failures in the master switch . . . this is
probably the most lightly loaded device on your switch panel!
If we are looking at a ratings issue, I think it will be a
first in my career of chasing the sources of smoke in airplanes.

Bob . . .


- The Matronics AeroElectric-List Email Forum -
 

Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:

http://www.matronics.com/Navigator?AeroElectric-List
Back to top
Dan Reeves



Joined: 10 Jan 2006
Posts: 16

PostPosted: Sat Sep 13, 2008 11:20 am    Post subject: Toggle Switches with Fast-On Tabs Reply with quote

Perhaps this was already discussed but is it possible that you have a short through the panel itself somewhere? Kind of like if you lost your engine ground strap and hit the starter, the current finds a ground through throttle cables, etc and fries whatever is in it's path. Maybe a cigarette lighter style recepticle shorting through the panel and through the switch housings mounted to the panel. I wonder if something is vibrating and maybe loosly or intermittantly laying across the fast-on tabs. Any chance of a parking brake cable or something like that making contact with something electrical when it's set or released. Maybe all irrelevant,,,but just thoughts that came to mind while reading through the recent posts and not hearing of others experiencing similar switch failures.


--- On Sat, 9/13/08, Vernon Little <rv-9a-online(at)telus.net> wrote:

[quote]From: Vernon Little <rv-9a-online(at)telus.net>
Subject: RE: Toggle Switches with Fast-On Tabs
To: aeroelectric-list(at)matronics.com
Date: Saturday, September 13, 2008, 1:58 PM

[quote]--> AeroElectric-List message posted by: "Vernon Little" <rv-9a-online(at)telus.net> Hi Bob: One more variable: The serious switch failures (the one you analyzed, plus my two) have all been in strobe circuits. We've had some debate about this in the past, but perhaps the analysis of the I-V characteristics of Whelen strobe supply would be in order. I'm curious if there is a combination of elements problem here with switches, terminals and load. When my master switch failed (loose rivets), it manifested itself with alternator overvoltage alarms. The voltage regulator was boosting alternator output to compensate for a voltage drop in the master switch. Normally, you'd suspect a regulator, but it was the switch. The ultimate boilerplate fix was to use the new switch to control a relay that connected the alternator output to the regulator directly (through appropriate fuselink). I'm wondering if a similar band-aid fix for the strobe supply is in order. Perhaps use the switch to control a good automotive relay for this circuit. I don't have a setup for testing a strobe supply myself. Perhaps Whelen has some insight. Vern > --


- The Matronics AeroElectric-List Email Forum -
 

Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:

http://www.matronics.com/Navigator?AeroElectric-List
Back to top
View user's profile Send private message
rv-9a-online(at)telus.net
Guest





PostPosted: Sat Sep 13, 2008 1:14 pm    Post subject: Toggle Switches with Fast-On Tabs Reply with quote

Hi Dan. Not likely. I checked for for shorts. What I measured was a 2 volt drop across the switch when operating (terminal to terminal). About 12.5V in, 10.5V out. This does not mean I don't have a wiring problem downstream somewhere, but there is no evidence of it, the breaker is intact and the strobes operate. It also means that the switch is dissipation about 14 Watts. No wonder it's hot.

Vern
[quote]
--


- The Matronics AeroElectric-List Email Forum -
 

Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:

http://www.matronics.com/Navigator?AeroElectric-List
Back to top
jpx(at)Qenesis.com
Guest





PostPosted: Thu Sep 18, 2008 10:09 am    Post subject: Toggle Switches with Fast-On Tabs Reply with quote

Any chance that unsupported wires are vibrating in flight and helping
to loosen the rivets, which then heat up from poor contact ?

Jeff Page
Dream Aircraft Tundra #10

Quote:
From: "Vernon Little" <rv-9a-online(at)telus.net>
The most recent information I have from the new case documented in the
previous message is that yes, indeed, the switch rivets are loose. It
looks like a common contributing factor.


- The Matronics AeroElectric-List Email Forum -
 

Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:

http://www.matronics.com/Navigator?AeroElectric-List
Back to top
rv-9a-online(at)telus.net
Guest





PostPosted: Thu Sep 18, 2008 10:55 am    Post subject: Toggle Switches with Fast-On Tabs Reply with quote

Hi Jeff. This came up previously, and the answer is that they are all
supported properly. It appears that the underlying cause may be a
combination of high inrush currents and "economy" switches that start the
thermal runaway cycle: switch heating causes rivets to loosen; loose rivets
cause more switch heating.

With the exception of one switch, all of the problems have been in the
strobe and landing/taxi light circuits in multiple aircraft.

I'm hoping for more results from the list members who are checking their
switches for damage or overheating using the finger test.

Thanks, Vern

[quote] --


- The Matronics AeroElectric-List Email Forum -
 

Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:

http://www.matronics.com/Navigator?AeroElectric-List
Back to top
fvalarm(at)rapidnet.net
Guest





PostPosted: Thu Sep 18, 2008 12:06 pm    Post subject: Toggle Switches with Fast-On Tabs Reply with quote

Vern,

I understand that your switches were "properly" supported. Just wondering
if the wire "support" needs to be more substantial than usual if there are
large gauge wires involved, such as would be expected for landing light
circuits? My thinking is that the larger the wire, the more momentum it has
when vibrating due to it's mass.

Secondly, maybe I've missed something here, but concerning the "loose"
rivets. It is thought that the rivets are loose because of overheating, or
vibration (with a heavy wire attached), or poor manufacturing process or
what?

Bevan


--


- The Matronics AeroElectric-List Email Forum -
 

Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:

http://www.matronics.com/Navigator?AeroElectric-List
Back to top
klehman(at)albedo.net
Guest





PostPosted: Thu Sep 18, 2008 12:12 pm    Post subject: Toggle Switches with Fast-On Tabs Reply with quote

All my Carlings seem fine and run cold. 2+ years, 220 hours, AMP PIDG
connectors, Aeroflash strobes, 35 watt wigwag lights.
Ken

snip
Quote:
I'm hoping for more results from the list members who are checking their
switches for damage or overheating using the finger test.

Thanks, Vern



- The Matronics AeroElectric-List Email Forum -
 

Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:

http://www.matronics.com/Navigator?AeroElectric-List
Back to top
rv-9a-online(at)telus.net
Guest





PostPosted: Thu Sep 18, 2008 12:59 pm    Post subject: Toggle Switches with Fast-On Tabs Reply with quote

Good datapoint, thanks.

Vern

[quote] --


- The Matronics AeroElectric-List Email Forum -
 

Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:

http://www.matronics.com/Navigator?AeroElectric-List
Back to top
rv-9a-online(at)telus.net
Guest





PostPosted: Thu Sep 18, 2008 12:59 pm    Post subject: Toggle Switches with Fast-On Tabs Reply with quote

Hey Bevan. Based on the evidence, the Strobe switch is failing in multiple
aircraft, and the Wig-Wag/Ldg/Taxi lights have a couple of failures. No
evidence in these aircraft of other switches with problems. This tends to
rule out an installation problem. The loose rivets are a both a cause and
an effect. Some of the Carling switches have somewhat loose rivets when
new. After the switch is fried, they are looser and the terminals are
discolored.

If vibration is the problem, there are many other places in the aircraft
that would show overheating (wig-wag flasher, terminal block at wing root
and so on). None do.

I think the obvious problem is the switches are being stressed by overload,
and these stresses are leading to looser rivets and further overheating. I
have new/different switches now, but if I have a failure again, I'm
installing relays.

Vern

[quote] --


- The Matronics AeroElectric-List Email Forum -
 

Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:

http://www.matronics.com/Navigator?AeroElectric-List
Back to top
ftyoder(at)yoderbuilt.com
Guest





PostPosted: Thu Sep 18, 2008 3:59 pm    Post subject: Toggle Switches with Fast-On Tabs Reply with quote

Is their a manufacturing date or any number on the switches that would let
you identify a bad batch of switches? Sounds like some switches come with
loose rivets and some don't have loose rivets. Is that correct?

The manufacture should be able to tell you if loose rivets are.acceptable.

Tim

---


- The Matronics AeroElectric-List Email Forum -
 

Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:

http://www.matronics.com/Navigator?AeroElectric-List
Back to top
rv-9a-online(at)telus.net
Guest





PostPosted: Thu Sep 18, 2008 5:21 pm    Post subject: Toggle Switches with Fast-On Tabs Reply with quote

If you look back in the thread, I identified the date code of my switches,
and the one that Bob wrote his article on. No codes for the other failures
reported yet. We have not seen any correlation, plus one switch was made by
another vendor altogether.

I returned a failed Carling master switch for failure analysis to the
vendor, but never heard anything. It had loose rivets as well, but was not
a heavily loaded switch. Since I never heard anything, I've gone public on
this list to get some collective wisdom working on the problem.

I'm convinced that loose rivets are a big problem. I'm an electrical
engineer, not a mechanical engineer, but it's pretty obvious that the rivets
should not be loose.

Vern



[quote] --


- The Matronics AeroElectric-List Email Forum -
 

Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:

http://www.matronics.com/Navigator?AeroElectric-List
Back to top
mjpienaar(at)shaw.ca
Guest





PostPosted: Thu Sep 18, 2008 5:56 pm    Post subject: Toggle Switches with Fast-On Tabs Reply with quote

Hi All,

Could somebody please explain in simple language what "high inrush currents"
are.

Thanks

Mike

---


- The Matronics AeroElectric-List Email Forum -
 

Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:

http://www.matronics.com/Navigator?AeroElectric-List
Back to top
Dennis Glaeser



Joined: 10 Jan 2006
Posts: 53
Location: Rochester Hills, Michigan

PostPosted: Thu Sep 18, 2008 6:37 pm    Post subject: Toggle Switches with Fast-On Tabs Reply with quote

Quote:
Hi All,
Could somebody please explain in simple language what "high inrush
currents" are.

Quote:
Thanks
Mike

When resistive items are cold, they have less resistance. So when power is
first applied, the current draw is high - hence the name. As things warm
up, resistance grows and the current drops to it's steady state value.

Dennis Glaeser


- The Matronics AeroElectric-List Email Forum -
 

Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:

http://www.matronics.com/Navigator?AeroElectric-List
Back to top
View user's profile Send private message
simon(at)synchronousdesig
Guest





PostPosted: Thu Sep 18, 2008 6:43 pm    Post subject: Toggle Switches with Fast-On Tabs Reply with quote

Mike, a high inrush current is caused by a device that has an initial low
resistance. This resistance then increases as a function of time. I can
think of two simple devices that will do this to a switch

First is a capacitive load, or more accurately a capacitive-resistive load.
With this type of load, you are charging up a capacitor. If the capacitor
is not charged up initially, then the only thing limiting the current is the
resistor. If the resistance is small, it will result in a "high inrush
current." As the capacitor charges up, the current decreases toward zero.

Second is a non-linear resistance such as an incandescent lamp. Such a lamp
has a filament that is cold when it first passes current. When cold, the
filament has low resistance and thus allows a "high inrush current." As the
filament's temperature increases to produce light, its resistance increases,
and thus the current decreases.

There may be other simple examples and if so, anyone please feel free to
chime in. I hope this helps.

Mike, it just so happens that when a switch makes or breaks is the worst
possible time for a high current or voltage to be occurring, as it takes its
toll on the contacts due to arcing.

Simon
Copyright C 2008
--


- The Matronics AeroElectric-List Email Forum -
 

Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:

http://www.matronics.com/Navigator?AeroElectric-List
Back to top
Joemotis(at)aol.com
Guest





PostPosted: Thu Sep 18, 2008 7:16 pm    Post subject: Toggle Switches with Fast-On Tabs Reply with quote

Does anyone with these switches in question also have a laser thermometer to shoot their switch bank with?
Might be interesting although not very scientific.
Most assuredly would find a hot one though.

Joe Motis Do not archive

Looking for simple solutions to your real-life financial challenges? Check out WalletPop for the latest news and information, tips and calculators.
[quote][b]


- The Matronics AeroElectric-List Email Forum -
 

Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:

http://www.matronics.com/Navigator?AeroElectric-List
Back to top
nuckolls.bob(at)cox.net
Guest





PostPosted: Fri Sep 19, 2008 5:38 am    Post subject: Toggle Switches with Fast-On Tabs Reply with quote

At 08:18 PM 9/18/2008 -0400, you wrote:
Quote:

<Tom(at)costanzaandassociates.com>

Vern,

Don't you think that if it was an application problem that we'd be hearing
from people on a few orders of magnitude more than we have? There must be
several hundred people using these switches in these circuits. No??

More like thousands. The sum total of years those switches were sold
first by AEC and then B&C is about 15.
------------------------------------

<ftyoder(at)yoderbuilt.com>

Is their a manufacturing date or any number on the switches that would let
you identify a bad batch of switches? Sounds like some switches come with
loose rivets and some don't have loose rivets. Is that correct?

The manufacture should be able to tell you if loose rivets are acceptable.

Loose rivets are not acceptable. If you refer to the sketch
at:

http://www.aeroelectric.com/Pictures/Switches/Toggle_Switch_with_Fast-On_Tabs.jpg

The hollow rivets at (3) and (Cool are what hold the switch internal
parts together -AND- provide a conductive path from part to part.
As soon as the rivet's retaining force goes down, resistance
goes up, heating goes up, and the device starts down the path
to failure.
---------------------------------------


I understand that your switches were "properly" supported. Just wondering
if the wire "support" needs to be more substantial than usual if there are
large gauge wires involved, such as would be expected for landing light
circuits? My thinking is that the larger the wire, the more momentum it has
when vibrating due to it's mass.

Secondly, maybe I've missed something here, but concerning the "loose"
rivets. It is thought that the rivets are loose because of overheating, or
vibration (with a heavy wire attached), or poor manufacturing process or
what?

Bevan, you may be on to something here . . . I'm embarrassed
to have overlooked it up to now . . .

Over the past week, I've received 5 corpses of dearly departed
switches. All had loose rivets on the current carrying tabs. The
OFF side tab was solidly retained by their rivets. Here's an
exemplar photo set:

These two pictures show the moving ON and OFF-side contacts.
Noticeably free of signs of electrical stress.

http://www.aeroelectric.com/Pictures/Switches/Carling_Failures/BRA_01.jpg

http://www.aeroelectric.com/Pictures/Switches/Carling_Failures/BRA_02.jpg

This picture shows the "saddle sores" that one would expect
in a switch where the teeter-totter shaft was properly undersized . . .

(Ref
http://www.aeroelectric.com/articles/Anatomy_of_a_Switch_Failure/Anatomy_of_a_Switch_Failure.html)

to sit in the saddle.

http://www.aeroelectric.com/Pictures/Switches/Carling_Failures/BRA_03.jpg
---------------

The spring-rate of the coil spring inside the toggle was checked
against a new switch and found to be the same within measurement
tolerances. It takes right at a pound of force to push the plastic
actuator post flush with the end of the hollow toggle shaft . . .

http://www.aeroelectric.com/Pictures/Switches/Carling_Failures/BRA_06.jpg

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

This switch has loose rivets at the ON-side tab (left) and
the center tab. OFF-side rivet was tight. Note signs of heating
induced corrosion on the left side rivet.

http://www.aeroelectric.com/Pictures/Switches/Carling_Failures/BRA_04.jpg

http://www.aeroelectric.com/Pictures/Switches/Carling_Failures/BRA_09.jpg

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

Here's a familiar picture . . .

http://www.aeroelectric.com/Pictures/Switches/Carling_Failures/BRA_08.JPG

We've seen this on-side vs. off-side bending of the teeter-
totter before. Notice the darker copper color on the right. This
was the ON-side contact that was running warmer but the OFF-side
was more severely deformed from flat.

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

Here's a really cool picture . . .

http://www.aeroelectric.com/Pictures/Switches/Carling_Failures/BRA_05.jpg

This switch was obviously powered at the center terminal. The
teeter-totter was sufficiently distorted to cause teasing arc
marks on BOTH the on and off extremes. I say "teasing" because
this had to be going on for some time to make such strong marks
before the failure progressed to the point where it was popping
circuit protection.

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

This picture shows perfectly good On and Off-side contacts
in addition to the bright areas in the bottom of the
saddle pocket. The ON-side contact is on the right with
barely detectable signs of elevated temperature operation.

http://www.aeroelectric.com/Pictures/Switches/Carling_Failures/BRA_10.jpg
-----------------------------------

This picture is shows the teeter-totter as removed and before
the lubrication was wiped off.

http://www.aeroelectric.com/Pictures/Switches/Carling_Failures/BRA_11.jpg
----------------------------------

This picture shows the loose rivet at the ON-side tab
but the tab itself is not showing signs of strong
heating.

http://www.aeroelectric.com/Pictures/Switches/Carling_Failures/BRA_12.jpg

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

Here's the OFF-side tab. Tight rivet, bright clean
brass.

http://www.aeroelectric.com/Pictures/Switches/Carling_Failures/BRA_14.jpg

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

The common feature of all the carcasses I received was
distortion of the teeter-totter from flat to a bowed
condition of various degrees. The teeter-totter metal
had lost temper and bent with heating and operational
hammering being the predominant stresses.

Stationary and moving contacts of all failed switches
showed only slight if any visible effects of heating.

All switches had loose rivets at the connection tabs.
(note that my sketched cross-section has the center
rivet (Cool reversed. The head-formed-on-assembly is on
the inside of the switch, not the outside).

When dissecting a chain of failure events, one tries
to deduce the first event . . . it's not unlike looking
for the point of origin in a burned building. In this
case, we're attempting to deduce the weakest (hence
most likely to be overstressed) feature and then
see if the damage patterns radiate out from that
feature.

In the case of the analysis published earlier this
year, there were striking patterns laid down on the
teeter-totter pivot that could easily be interpreted
as a point of origin for chain of failures. However,
Bevan's question about mechanical stresses to the
tabs due to wire weight and bundling was an "eureka
moment" of sorts.

Consider the cross section sketch and photos of
the riveted tabs and know that the weakest mechanical
feature of these switches is the point where the hollow
rivets are formed over to achieve retention forces
that hold the parts together PLUS a gas-tight connection
between the rivet and it's companion pieces and parts.

While the failed switches were mostly concentrated
in the ship's higher current systems, we've seen
failures in the low current systems too (battery
master). Nonetheless, Vern has experienced a rash
of failures that spanned the full range of current
carrying tasks.

Consider the effects of a wire (heavier in the
landing light and strobe systems) hanging off the
back of the switch. Consider the effects of a wire
bundle that is supported by the switch terminals
with bundle-to-switch pigtails that are relatively
short. There's a strong moment arm from the end of
the tab that allows vibration of attached mass to
put tension on the rolled over edges of the
driven-head of the rivets.

This makes more sense as a proximate root cause of
the constellation of failures we've studied. Once
gas-tightness of the rivet head is compromised,
then corrosion goes up, resistance goes up, heating
goes up, corrosion accelerates, etc. etc.

I think I recall writing some words to the effect
that pigtails that come off the backs of switches
should have some substantial length before they
drop into a wire bundle. The goal is two-fold:
(1) service loop length to allow removal and
replacement of the switch without disturbing other
switches or the bundle and (2) a stress reliever
that prevents mass of the wire bundle from adding
to the vibrational stresses on the switch's tabs.
I think I suggested a 2" service loop that offered
free-slack in the leadwire between bundle and
switch terminal.

In the $high$ switches, the effects of mis-installation
are reduced by the manner in which wire attach terminals
are retained in the switch housing. See:

http://www.aeroelectric.com/Pictures/Switches/Toggle_Switch_with_Mold-Captured_Terminals.jpg

Vern, take a look at your installation for the purpose
of assessing probability that vibration in the
wire bundle mass is being conducted to the rivet
joints due to a short-coupled installation of the
attach wires.

If this new hypothesis proves plausible, then it
may well explain the rash of failures noted in
a product with an exceedingly rich history in
the marketplace. This has been nagging at me since
this thread began. Lots of mud was thrown against
the wall about AC vs. DC, failure to observe ratings,
high inrush due to nature of the loads, etc.

Yet we were still dealing with a legacy product
manufactured in the millions and used with
success in aircraft since the 60s. There
had to be a common thread that tied all of what
we observed together in a rational assemblage
of simple-ideas.

Current working hypothesis: Loss of gas-tight
integrity at the rolled head of the rivets anchors
a chain of failures that manifests itself with
signs of heating, distortion of the teeter-totter,
internal shorting of teeter-totter to the frame and
loss of continuity through the switch.

I think we may be getting closer . . .

Bob . . .


- The Matronics AeroElectric-List Email Forum -
 

Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:

http://www.matronics.com/Navigator?AeroElectric-List
Back to top
rv-9a-online(at)telus.net
Guest





PostPosted: Fri Sep 19, 2008 9:47 am    Post subject: Toggle Switches with Fast-On Tabs Reply with quote

Bob, thanks for your detailed response and analysis.

I'll take some photos of the wiring next week to see if I have overlooked a
potential source of vibration and unsupported wiring. I'll also see if I
get photos from my friend's panel showing the same.

It may be that vibration per se is not the issue, but in combination with
suspect rivets and large currents, we have the recipe for problems. I do
know that I've received new Carling switches with suspect rivets. One
suggestion that I got was to solder the tabs to the rivets, but I am worried
that may screw up the temper of the materials. Of note: we have at least
one non-Carling switch failure as well.

One thing that I didn't pay too much attention to was stress on the
terminals from the wires. Perhaps the terminals are putting torque or
bending preloads on the tabs that are stressing the tab/rivet joint. In
fact, additional post-installation tie-wraps in the bundles tend to pull
wires off of their natural alignment and cause these stresses.

When I'm crawling under the panel with my camera, I will check the wire
grooming.

My bias on this (looking at my photos and my friend's) is that wire grooming
is at most a secondary contributing factor. Given the wide variation in
wiring techniques in the OBAM community, if this was the cause, we'd have
serious trouble.

Maybe I'll blame it on mud-dauber wasps, that's popular!

V
[quote] --


- The Matronics AeroElectric-List Email Forum -
 

Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:

http://www.matronics.com/Navigator?AeroElectric-List
Back to top
rv-9a-online(at)telus.net
Guest





PostPosted: Wed Sep 24, 2008 8:37 am    Post subject: Toggle Switches with Fast-On Tabs Reply with quote

Update on my findings.

One question that I had was if vibration could be working the rivets loose
on the Carling switches. Given that I believe the rivets to be suspect to
begin with-- even new switches have loose rivets-- vibration may be a
trigger for a cascade of overheating problems.

I took a photo of my switches from under the panel, seen here:
http://www.vx-aviation.com/rv-9a/photos/Electrical/IMG_0988_1.JPG.

This photo shows the black sheathed wiring bundled which brings the airframe
circuits to the panel, and the 2-3 inch pigtails to the switches.

Based on my inspection, there may be a vibration coupling into the pigtails
from the main bundle. Even though the bundle is secured every 8 inches or
so, I was able to move it by hand in the vertical (pitch) dimension.

Given the uncertainties here, I will not add more tie-downs to this bundle
yet. I want to see if the switch replacement has done the trick. This may
take a year or so to complete the experiment. If it solves the problem, we
will know that the superior construction of the switches is a fix. If it
does not, I will add tie downs to the bundle and re-run the experiment.

The problem with doing both right now, is that we'll never know what the
root cause was. I'm willing to sacrifice a few switches in the greater
search for knowledge. At least this area is easy to get at!

Vern


- The Matronics AeroElectric-List Email Forum -
 

Use the List Feature Navigator to browse the many List utilities available such as the Email Subscriptions page, Archive Search & Download, 7-Day Browse, Chat, FAQ, Photoshare, and much more:

http://www.matronics.com/Navigator?AeroElectric-List
Back to top
Display posts from previous:   
Post new topic   Reply to topic    Matronics Email Lists Forum Index -> AeroElectric-List All times are GMT - 8 Hours
Goto page 1, 2  Next
Page 1 of 2

 
Jump to:  
You cannot post new topics in this forum
You cannot reply to topics in this forum
You cannot edit your posts in this forum
You cannot delete your posts in this forum
You cannot vote in polls in this forum
You cannot attach files in this forum
You can download files in this forum


Powered by phpBB © 2001, 2005 phpBB Group