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Coil Suppression Techniques

 
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john_rv10(at)yahoo.com
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PostPosted: Wed May 21, 2008 1:24 pm    Post subject: Coil Suppression Techniques Reply with quote

Eric,

Thank you for this contribution.

I am planning to use a relay to switch power to my avionics/endurance busses. Normal loads at switch on/turn off would be in the order of 10 amps at 12 volts. What relay would you recommend and would you draw a simple diagram for a non electrical person showing how and where to wire the P6KE18CA bidirectional zener?

Thanks once again,
John

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Max Johansson



Joined: 09 Jan 2006
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Location: Helsinki, Finland

PostPosted: Thu May 22, 2008 12:38 am    Post subject: Coil Suppression Techniques Reply with quote

Eric
This seems to be a well studied subject and after studying your results the method of parallelling a relay or contactor with an opposite direction diode seems to be the quick and dirty but still quite adequate method for the homebuilder.
Now a very practical question:
Is a 0.1 dollar 1N4001...4004 or similar diode strong enough to handle the collapsing energy of any relay or contactor used in a homebuilt ?
best regards
Max
(just now wiring my 701 starter circuit)
[quote][b]


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jetboy



Joined: 22 Jul 2006
Posts: 233

PostPosted: Thu May 22, 2008 2:41 am    Post subject: Re: Coil Suppression Techniques Reply with quote

Max,
1N5404 thru -8 series should do well with much more margin. I fitted one to the master solenoid on a Cessna150 once because the A&P in their collective wisdom neglected that small part as depicted it the Cessna parts book when replacing the old solenoid and damaged my master switch.

My CH701 has a diode installed as required by the ACS ignition/start switch instructions and I think this one may have come with the switch.

Ralph


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PostPosted: Thu May 22, 2008 5:18 am    Post subject: Coil Suppression Techniques Reply with quote

At 11:27 AM 5/22/2008 +0300, you wrote:

Quote:
Eric

This seems to be a well studied subject and after studying your results
the method of parallelling a relay or contactor with an opposite direction
diode seems to be the quick and dirty but still quite adequate method for
the homebuilder.

Now a very practical question:

Is a 0.1 dollar 1N4001...4004 or similar diode strong enough to handle the
collapsing energy of any relay or contactor used in a homebuilt

Yes. Electrically the 1A diode is fine for about everything
on the airplane. Recall that in the realm of reactive devices
that store energy, the discharge begins at the same magnitude
as the charging source. If you charge a capacitor to 100 volts, you
get a reaction that starts at 100v and goes down from there
when you discharge it.

If you charge and inductor up to 1A, then when you release
it from the charging source, the delivered reaction starts
a 1A and goes down from there. Diodes have a steady state
capability which is exemplified in their ratings . . . I.e,
the 1N4001 is a 1A device. However, they also have transient
ratings at much higher currents. For example, consulting the
1N400x data sheet at:

http://aeroelectric.com/Mfgr_Data/Semiconductors/1N4001.pdf

we read about an 8.3 mS non repetitive peak forward surge
current rating of 30A. By "non-repeating", they don't
mean "one time ever" but "just don't do this often." So as
a transient current clamp on a manually operated contactor
found in our airplanes the 1N400x series devices are
electrically fine.

However, I have often suggested that the larger siblings
to the 1N400x (1N540x) devices have some mechanical
advantages. They're still small but MUCH more robust
than the little fellers. I selected these parts as
power steering and coil suppressors of choice for the
line of contactors I used to sell (which B&C still
does). See:

http://www.aeroelectric.com/Pictures/Contactors/s701-1l.jpg

http://www.aeroelectric.com/Pictures/Contactors/s701-2.jpg

The red PIDG terminal gets a good connection on
the larger wires for these devices and the wires
are robust enough to support the diode body under
vibration levels typical of installations for
these contactors.

Radio Shack offers both sizes of diode:

http://aeroelectric.com/Pictures/Misc/RS_Diodes.jpg

Since a prohibition against Radio Shack parts has
been suggested, I'll share an observation that there
were times in the history of many suppliers of consumer/
experimenter parts where their offerings included
industrial surplus parts of unknown but not necessarily
evil pedigree. This includes a now premier supplier
of goods (Digikey) who started out as a mail
order supplier of industrial surplus that advertised
in ham radio and experimenter electronics magazines.

RS still handles experimenter's assortments of components
that are reminiscent of "grab bags" offered in years
gone by . . .

http://tinyurl.com/5jhbu6

http://tinyurl.com/42jn9v

. . . but these days, when you are responsible for
managing inventory in thousands of stores, millions
of catalogs, and a really big website, you don't
spend time scrounging the back alleys of industrial
trash cans looking for "floor sweepings".

These components are so cheap that it simply doesn't
pay to spend the time to salvage and then inventory
less than factory-fresh components.

The times they are a changing.

As a final note, this thread is not intended to
discourage anyone from using more sophisticated
transient control techniques if that process rings
their chimes. Information provided here is offered
as a prophylactic against decision making based
on poorly interpreted data, marketing hype, or sage
advice from those who would disseminate but will not
or cannot also teach.

Bob . . .


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Eric M. Jones



Joined: 10 Jan 2006
Posts: 565
Location: Massachusetts

PostPosted: Thu May 22, 2008 10:11 am    Post subject: Re: Coil Suppression Techniques Reply with quote

Quote:
Eric
This seems to be a well studied subject and after studying your results the method of parallelling a relay or contactor with an opposite direction diode seems to be the quick and dirty but still quite adequate method for the homebuilder. Now a very practical question: Is a 0.1 dollar 1N4001...4004 or similar diode strong enough to handle the collapsing energy of any relay or contactor used in a homebuilt ?
best regards
Max


The coil's collapsing magnetic field when the contactor is de-energized induces a high current that travels in the same direction as the original holding current, but is of much greater magnitude. This is why the relay contacts chatter and arc on opening, can re-close (and even weld closed). This is bad for everything electrical, especially contacts.

The bidirectional zeners are very cheap, and well worth it. The kit I sell will do your whole airplane, or go to Digikey if you want to save a few bucks and buy a dozen P6KE18CA.

The question you imply, "Would it do for the homebuilder?"....My answer is NO, Bob's is YES. Take your pick.

But Tyco, Potter and Brumfield, Kilovac, Gigavac, Zettler,

Here's what Gigavac says: COIL SUPRESSION

"....coil suppression techniques such as single diode, resistor capacitor combination, resistor, or varistor noticeably slow down the release time of the relay and can effect the life of the relay or the use of the relay in the application. In carry-only applications, the release time may not be important so these less expensive coil suppression techniques can be used. However, if the release/reset time is important, or if the contacts are to interrupt a load, do not use these techniques and use the recommended zener-zener or diode-zener combination." (underlining mine) Gigavac makes the GX-11 which is a great battery and starter contactor for your airplane, they also make really big high-current, high-voltage stuff.

Diodes were 1960's technology. There's a better way now.


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PostPosted: Thu May 22, 2008 11:06 am    Post subject: Coil Suppression Techniques Reply with quote

On Thu, 22 May 2008 11:11:37 -0700
"Eric M. Jones" <emjones(at)charter.net> wrote:
Quote:

The coil's collapsing magnetic field when the contactor is de-energized induces a high current that travels in the same direction as the original holding current, but is of much greater magnitude. This is why the relay contacts chatter and arc on opening, can re-close (and even weld closed). This is bad for everything electrical, especially contacts.

The bidirectional zeners are very cheap, and well worth it. The kit I sell will do your whole airplane, or go to Digikey if you want to save a few bucks and buy a dozen P6KE18CA.

The question you imply, "Would it do for the homebuilder?"....My answer is NO, Bob's is YES. Take your pick.

But Tyco, Potter and Brumfield, Kilovac, Gigavac, Zettler,

Here's what Gigavac says: COIL SUPRESSION

"....coil suppression techniques such as single diode, resistor capacitor combination, resistor, or varistor noticeably slow down the release time of the relay and can effect the life of the relay or the use of the relay in the application. In carry-only applications, the release time may not be important so these less expensive coil suppression techniques can be used. However, if the release/reset time is important, or if the contacts are to interrupt a load, do not use these techniques and use the recommended zener-zener or diode-zener combination." (underlining mine) Gigavac makes the GX-11 which is a great battery and starter contactor for your airplane, they also make really big high-current, high-voltage stuff.

Diodes were 1960's technology. There's a better way now.

--------
Eric M. Jones
www.PerihelionDesign.com
113 Brentwood Drive
Southbridge, MA 01550
(508) 764-2072
emjones(at)charter.net


I think we need to revisit the physics here. The collapsing field

induces a high VOLTAGE which is the opposite polarity of the applied
voltage. The faster the current decreases, the higher the voltage
spike. The suppression diode gives the current a place to go allowing
it to decay more slowly, producing a lower voltage, reducing the
arcing on the switch controlling the relay. The current will never
exceed the original current flowing in the coil.

Use of the suppression diode delays opening the relay because the
current continues to flow for a longer time. The important point is
that the suppression diode protects the switch controlling the relay.
The effects on the relay contact arcing are secondary.

Bob W.
--
N93BD - Rotary Powered BD-4 - http://www.bob-white.com
3.8 Hours Total Time and holding
Cables for your rotary installation - http://roblinstores.com/cables/


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PostPosted: Thu May 22, 2008 11:42 am    Post subject: Coil Suppression Techniques Reply with quote

Thanks Bob et al,

This is all very academic and provides excellent reading. Unfortunately
I won't soon be a fellow in the IEEE and I have an airplane to build.

Given the list of manufacturer's provided is there one who makes a
quality relay with built in zener or combo protection for which I won't
need to break out the heath kit?

I want to use the relay to load my essential bus (alternate feed) as in
Z-19. My expect load will be 25 amps. This is in keeping with the max
load for the heat sink'd diode coming from the main bus.

Glenn
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Eric M. Jones



Joined: 10 Jan 2006
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Location: Massachusetts

PostPosted: Thu May 22, 2008 11:51 am    Post subject: Re: Coil Suppression Techniques Reply with quote

Quote:
induces a high VOLTAGE which is the opposite polarity of the applied voltage. The faster the current decreases, the higher the voltage
spike. The suppression diode gives the current a place to go allowing
it to decay more slowly, producing a lower voltage, reducing the
arcing on the switch controlling the relay. The current will never
exceed the original current flowing in the coil.

Use of the suppression diode delays opening the relay because the
current continues to flow for a longer time. The important point is
that the suppression diode protects the switch controlling the relay.
The effects on the relay contact arcing are secondary. Bob W.
--
N93BD - Rotary Powered BD-4 - http://www.bob-white.com
3.8 Hours Total Time and holding
Cables for your rotary installation - http://roblinstores.com/cables/


If it were only so, what a nice world it would be! Please read:

http://relays.tycoelectronics.com/appnotes/app_pdfs/13c3311.pdf


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113 Brentwood Drive
Southbridge, MA 01550
(508) 764-2072
emjones(at)charter.net
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PostPosted: Thu May 22, 2008 12:32 pm    Post subject: Coil Suppression Techniques Reply with quote

On Thu, 22 May 2008 12:51:56 -0700
"Eric M. Jones" <emjones(at)charter.net> wrote:

Quote:



> induces a high VOLTAGE which is the opposite polarity of the applied voltage. The faster the current decreases, the higher the voltage
> spike. The suppression diode gives the current a place to go allowing
> it to decay more slowly, producing a lower voltage, reducing the
> arcing on the switch controlling the relay. The current will never
> exceed the original current flowing in the coil.
>
> Use of the suppression diode delays opening the relay because the
> current continues to flow for a longer time. The important point is
> that the suppression diode protects the switch controlling the relay.
> The effects on the relay contact arcing are secondary. Bob W.
> --
> N93BD - Rotary Powered BD-4 - http://www.bob-white.com
> 3.8 Hours Total Time and holding
> Cables for your rotary installation - http://roblinstores.com/cables/
>


If it were only so, what a nice world it would be! Please read:

http://relays.tycoelectronics.com/appnotes/app_pdfs/13c3311.pdf

--------
Eric M. Jones
www.PerihelionDesign.com
113 Brentwood Drive
Southbridge, MA 01550
(508) 764-2072
emjones(at)charter.net


OK, I've read it. What's your point?

Quote:
"When an electromechanical relay is de-energized rapidly by a mechanical
switch or semiconductor, the collapsing magnetic field produces a
substantial voltage transient in its effort to disperse the stored
energy and oppose the sudden change of current flow."

Note that this high voltage is not connected to the relay contacts and
there is no mention of high currents being generated. It just doesn't
happen. The high voltage is impressed across the switch controlling
the relay. As Ralph (jetboy) recently posted, the A&P left off the
diode resulting in the master switch being destroyed in his C150.

All the problems with relay contact opening are associated with the
slower opening time.

Another quote:
"The optimum switching life (for normally-open contacts) is therefore
obtainew with a totally unsuppressed relay and statements of rated
electrical life are usually based on this premise."

In other words, for best contact life, don't use suppression. So why
do we use it? To protect the controlling switch!

Bob W.

--
N93BD - Rotary Powered BD-4 - http://www.bob-white.com
3.8 Hours Total Time and holding
Cables for your rotary installation - http://roblinstores.com/cables/


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PostPosted: Thu May 22, 2008 2:08 pm    Post subject: Coil Suppression Techniques Reply with quote

Bob,

Reading all these comments, two questions come to mind.

1. Have you done the tests below with a zener-zener or a diode-zener
combination to see how they compare with their IN 540x cousins?

2. Have you collected data on the effect on the switch controlling the relay
to compare the four conditions:-
No protection
IN540x protection
Zener-zerner protection
Diode-zener protection?

The data from question 1 will show us the effects on the relay under the
various conditions being discussed. The data from Q2 will show us the
effects on the switch controlling the relay under those same conditions. It
seems both lots of data are required to determine the best way to protect
the switch and at the same time protect the relay? - or am I missing
something in this debate?

Thanks once again,
John

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PostPosted: Thu May 22, 2008 7:36 pm    Post subject: Coil Suppression Techniques Reply with quote

At 08:03 AM 5/23/2008 +1000, you wrote:

Quote:


Bob,

Reading all these comments, two questions come to mind.

1. Have you done the tests below with a zener-zener or a diode-zener
combination to see how they compare with their IN 540x cousins?

Absolutely. The the worse case voltage spike occurs with zero
suppression (where all energies are dissipated in the arcing
across spreading switch contacts). The best scenario for arcing
control is the plain vanilla diode where arcing is minimal
because the negative going spike that would normally go -300 volts
plus is clamped off at ground thus limiting the voltage stress
across the switch contacts to 14 volts.
Quote:
2. Have you collected data on the effect on the switch controlling the relay
to compare the four conditions:-
No protection
IN540x protection
Zener-zerner protection
Diode-zener protection?

Sure. They all work within the limits of their physics.
Even a plain resistor adds significant value for arc
reduction . . . even if the least efficient of the lot.
A capacitor/resistor combination works too. Recall the
"condenser" across the points on an Kettering ignition
system distributor? There's a LOT of ways each offering
trade offs. But to date, I've discovered no simpler, easier
to implement technique than use of the plain-vanilla
diode.
Quote:
The data from question 1 will show us the effects on the relay under the
various conditions being discussed. The data from Q2 will show us the
effects on the switch controlling the relay under those same conditions. It
seems both lots of data are required to determine the best way to protect
the switch and at the same time protect the relay? - or am I missing
something in this debate?

I looked at all these variations and quite frankly they
performed well. I thought I had the traces on
my hard drive but I don't find them. If I get time tomorrow,
I'll go plot them again.

I've not included them in my offerings of data because
they are all middle-ground for performance between NO
suppression and the ULTIMATE suppression of a plain-vanilla
diode.

With one exception. At one time I personally embraced low
voltage MOV's as viable contact preservation devices
but discarded them after I went to the bench to check
performance when a reader told me of his own experiments
where visible arcing was not attenuated by any observable
amount with MOVs. I was properly embarrassed and dutiful
in correcting the gaff. It's one of those things that
happens when understanding based on data sheets does
not mesh with real world experiences.

The debate here is not whether the alternative systems
do their job. The debate is whether there is return
on investment for acquiring "specialized"
components sold not upon hard data and repeatable
experiment. The only support is a kind of "new and
improved" marketing hype based on poorly extrapolated
conclusions in a "celebrity" document. In this case,
engineers that published under the Tyco trade name.

It appears Eric is unwilling to be a teacher based on
his personal understanding of the physics supported
by a willingness to explain it. I am saddened by
this. I'll go get the data on the alternative techniques
tomorrow.

Bob . . .


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PostPosted: Fri May 23, 2008 2:09 am    Post subject: Coil Suppression Techniques Reply with quote

Bob,

You are a LEGEND.

Thanks again,
John

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PostPosted: Fri May 23, 2008 6:23 am    Post subject: Re: Coil Suppression Techniques Reply with quote

Quote:
induces a high VOLTAGE which is the opposite polarity of the applied voltage. The faster the current decreases, the higher the voltage
spike. The suppression diode gives the current a place to go allowing
it to decay more slowly, producing a lower voltage, reducing the
arcing on the switch controlling the relay. The current will never
exceed the original current flowing in the coil.

Use of the suppression diode delays opening the relay because the
current continues to flow for a longer time. The important point is
that the suppression diode protects the switch controlling the relay.
The effects on the relay contact arcing are secondary.

Bob W.


Actually, Eric is in bed with the cold/flu. And Paul M. keeps calling me up to rant about politics.....Jeeeze.

Let's clear the air regarding coil suppression.

When the relay is closed (and as I said this is targeted mainly at contactor relays), the relay coil has a large amount of energy stored in its inductor. When the relay coil switch is opened, the field collapses and a problematic high voltage is produced (the voltage depends on the several construction variables). I think we agree to this point.

Now, it might seem that the current produced by the collapsing field is opposite its normal direction. This is not so. The coil current is in the same direction, but the relay coil has changed from being the Load to being the Generator. If you look at the diode direction, you will see that a current in the opposite direction could not flow at all, and the diode would serve no purpose.

I agree with Bob W. that the coil suppressor protects the switch and anything else that provides power to the relay. It also provides other beneficial effect. However, not having a coil suppressor is not an option.

Indeed, the best way to preserve the contactor's own power contacts is to have NO coil suppressor and just rip them apart as fast and as far as possible as possible. But everything else would suffer.

The common (and historic) coil suppression technique that minimized damage to other components like the on/off switch was to shunt the coil with a reversed bias diode (a diode arranged so that it does not normally conduct current). Now when the coil's magnetic field collapses, it induces a
current that is shorted by the diode. The current flows through the coil and stops in a very short time, lowering the voltage by lengthening the field collapse time.

This longer field collapse time is deleterious to the power contacts, and (by Tyco P&B's information) can actually cause momentary re-closure which manifests as chatter, bouncing, etc. I assume this depends on the load, and the particulars of the contactor.

But this approach raises some red flags:
1) The diode must not be driven over-current.
2) The delay to opening must be minimized.
3) The suppression device should last longer than the contactor.
4) The ground bounce oscillations should be handled. (for inductive loads)

Now this is where Bob N. and I part company. Bob runs tests and depends on experience, I just read technical papers and study spec sheets. I claim one should dump the diode and use a newer approach. Bob N. claims the diode is good enough. I claim the major purveyors of contactors now use back-to-back zeners or bidirectionals. Bob N. can show lots of relays that use diodes.

There you go.


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(508) 764-2072
emjones(at)charter.net
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PostPosted: Fri May 23, 2008 7:36 am    Post subject: Coil Suppression Techniques Reply with quote

On Fri, 23 May 2008 07:23:10 -0700
"Eric M. Jones" <emjones(at)charter.net> wrote:

Quote:



> induces a high VOLTAGE which is the opposite polarity of the applied voltage. The faster the current decreases, the higher the voltage
> spike. The suppression diode gives the current a place to go allowing
> it to decay more slowly, producing a lower voltage, reducing the
> arcing on the switch controlling the relay. The current will never
> exceed the original current flowing in the coil.
>
> Use of the suppression diode delays opening the relay because the
> current continues to flow for a longer time. The important point is
> that the suppression diode protects the switch controlling the relay.
> The effects on the relay contact arcing are secondary.
>
> Bob W.


Actually, Eric is in bed with the cold/flu. And Paul M. keeps calling me up to rant about politics.....Jeeeze.

Let's clear the air regarding coil suppression.

When the relay is closed (and as I said this is targeted mainly at contactor relays), the relay coil has a large amount of energy stored in its inductor. When the relay coil switch is opened, the field collapses and a problematic high voltage is produced (the voltage depends on the several construction variables). I think we agree to this point.

**** Now, it might seem that the current produced by the collapsing field is opposite its normal direction. This is not so. The coil current is in the same direction, but the relay coil has changed from being the Load to being the Generator. If you look at the diode direction, you will see that a current in the opposite direction could not flow at all, and the diode would serve no purpose.

I agree with Bob W. that the coil suppressor protects the switch and anything else that provides power to the relay. It also provides other beneficial effect. However, not having a coil suppressor is not an option.

Indeed, the best way to preserve the contactor's own power contacts is to have NO coil suppressor and just rip them apart as fast and as far as possible as possible. But everything else would suffer.

The common (and historic) coil suppression technique that minimized damage to other components like the on/off switch was to shunt the coil with a reversed bias diode (a diode arranged so that it does not normally conduct current). Now when the coil's magnetic field collapses, it induces a
current that is shorted by the diode. The current flows through the coil and stops in a very short time, lowering the voltage by lengthening the field collapse time.

This longer field collapse time is deleterious to the power contacts, and (by Tyco P&B's information) can actually cause momentary re-closure which manifests as chatter, bouncing, etc. I assume this depends on the load, and the particulars of the contactor.

But this approach raises some red flags:
1) The diode must not be driven over-current.
2) The delay to opening must be minimized.
3) The suppression device should last longer than the contactor.
4) The ground bounce oscillations should be handled. (for inductive loads)

Now this is where Bob N. and I part company. Bob runs tests and depends on experience, I just read technical papers and study spec sheets. I claim one should dump the diode and use a newer approach. Bob N. claims the diode is good enough. I claim the major purveyors of contactors now use back-to-back zeners or bidirectionals. Bob N. can show lots of relays that use diodes.

There you go.

--------
Eric M. Jones
www.PerihelionDesign.com
113 Brentwood Drive
Southbridge, MA 01550
(508) 764-2072
emjones(at)charter.net



OK, that's better. You have stated the physics correctly.


The only minor point I might make is that the fourth paragraph is not
entirely accurate (marked **** above). I wouldn't expect the current
produced by the collapsing field to be in the opposite direction. What
I did say was that the voltage generated by the collapsing field was
of the opposite polarity to the originally applied voltage. If that
weren't true, the diode wouldn't provide any benefit.

As to the usefulness of a suppression technique more complex than a
diode, it seems to me that Bob N.'s test have shown that the effect on
the contactors used in OBAM aircraft is fairly minor. It's interesting
that the table shown in the PDF you referenced earlier shows the
relationship between various suppression techniques and drop out time
when the important factor is armature velocity. Did the engineers that
wrote this paper take any data on armature velocity? They don't say.
Did they test hundreds of relays to failure? The don't say. A tech
paper needs to be based on experience or it's of little value. Bob's
data shows a reduction in armature velocity. That is consistent with
statements in the PDF. Bob has characterized the reduction and
concluded that it's minor, based on his invaluable experience.

Bob W.

--
N93BD - Rotary Powered BD-4 - http://www.bob-white.com
3.8 Hours Total Time and holding
Cables for your rotary installation - http://roblinstores.com/cables/


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PostPosted: Fri May 23, 2008 11:45 am    Post subject: Coil Suppression Techniques Reply with quote

At 07:23 AM 5/23/2008 -0700, you wrote:

Quote:

> induces a high VOLTAGE which is the opposite polarity of the applied
voltage. The faster the current decreases, the higher the voltage
> spike. The suppression diode gives the current a place to go allowing
> it to decay more slowly, producing a lower voltage, reducing the
> arcing on the switch controlling the relay. The current will never
> exceed the original current flowing in the coil.
>
> Use of the suppression diode delays opening the relay because the
> current continues to flow for a longer time. The important point is
> that the suppression diode protects the switch controlling the relay.
> The effects on the relay contact arcing are secondary.
>
> Bob W.
Actually, Eric is in bed with the cold/flu. And Paul M. keeps calling me
up to rant about politics.....Jeeeze.

Let's clear the air regarding coil suppression.

When the relay is closed (and as I said this is targeted mainly at
contactor relays), the relay coil has a large amount of energy stored in
its inductor. When the relay coil switch is opened, the field collapses
and a problematic high voltage is produced (the voltage depends on the
several construction variables). I think we agree to this point.

yes except that "large" is not quantified. We're
talking a handful of millijoules.
Quote:
Now, it might seem that the current produced by the collapsing field is
opposite its normal direction. This is not so. The coil current is in the
same direction, but the relay coil has changed from being the Load to
being the Generator. If you look at the diode direction, you will see that
a current in the opposite direction could not flow at all, and the diode
would serve no purpose.

I agree with Bob W. that the coil suppressor protects the switch and
anything else that provides power to the relay. It also provides other
beneficial effect. However, not having a coil suppressor is not an option.

???? Tens of thousands of aircraft have flown out their
lifetimes (and millions of cars ditto) with no coil
collapse suppression on a variety of inductive loads.
Service life of the controlling devices was perhaps
less than what MIGHT be achieved but running without
it was and still is AN OPTION in numerous antique
vehicles including airplanes.
Quote:
Indeed, the best way to preserve the contactor's own power contacts is to
have NO coil suppressor and just rip them apart as fast and as far as
possible as possible. But everything else would suffer.

Agreed . . . but "everything else" and "suffering"
are non-identified and non-quantified.
Quote:
The common (and historic) coil suppression technique that minimized damage
to other components like the on/off switch was to shunt the coil with a
reversed bias diode (a diode arranged so that it does not normally conduct
current). Now when the coil's magnetic field collapses, it induces a
current that is shorted by the diode. The current flows through the coil
and stops in a very short time, lowering the voltage by lengthening the
field collapse time.

agreed
Quote:
This longer field collapse time is deleterious to the power contacts, and
(by Tyco P&B's information) can actually cause momentary re-closure which
manifests as chatter, bouncing, etc. I assume this depends on the load,
and the particulars of the contactor.

I've never seen a spreading contact re-reclose. Have
you some examples of where this has been observed?
Chatter, bouncing . . . yes ALL contacts in switches,
relays and contactors do not close and stay closed
on first contact. I've seen as few as 2 or 3 closures-
before-stable and as many as dozens. I counted over 25
bounces in one of traces I recently published Mercury
wetted relays and solid-state switches are some exceptions.
Quote:
But this approach raises some red flags:
1) The diode must not be driven over-current.

Sure . . . but even the most delicate of silicon
power rectifiers is not at risk for over-current
in situations common to our aircraft.

Quote:
2) The delay to opening must be minimized.

Why? There ARE the occasional condition where
TIMING is important. I've wrestled with "relay
races" in circuits where relay-logic combinations
were polluted because relay timing was not consistent
or carefully accommodated.

In every situation we're considering here, the
relay or contactor is manually operated by
crew . . . whether or not the contacts begin
to move 1 mS or 50 mS after the pilot hits
the switch is transparent to both the operator
and to system performance.

Quote:
3) The suppression device should last longer than the contactor.

??? Have you seen a contactor kill its own
collapse suppressor? I just measured the inductance
of an S701-1 contactor at 45 mH. LI^2/2 = (.045 x
.9 x .9)/2 = 18 millijoules. The 1N4001
is rated to take 30A (1v drop) for 8.3 mS for
250 millijoles. My favorite diode 1N5400
is good for 200A for 8.3 mS for a spike
catching capability of 1660 millijoules.
I can't imagine where we'd encounter an energy-
stress situation for coil suppression.
Quote:
4) The ground bounce oscillations should be handled. (for inductive loads)

Not sure how you're using "ground bounce". Inductance
across a ground system is an issue within devices
where very fast, tiny signals are handled. The
ground system in a vehicle is exceedingly variable,
difficult to control which is why we assume that
products installed in an airplane should be able to
withstand a variety of butt-ugly noises including
"ground bounce". A diode across a relay coil has no
significance to the generation or suppression of
ground bounce as I perceive the phrase. If you
have another perception, I'll need to understand
it before I can intelligently discuss it.
Quote:
Now this is where Bob N. and I part company. Bob runs tests and depends on
experience,

. . . repeatable experiments are the ingredients
that go into recipes for success.

Quote:
I just read technical papers and study spec sheets.

the printed word is an exceedingly important
communications tool for teachers with simple-ideas
to explain. At the same time, anyone can write down
ideas that are easily mis-interpreted or are just
plain wrong. One must always be wary of poorly
explained ideas promoted only with convincing words.
No teacher is insulted by honorable skepticism.

Quote:
I claim one should dump the diode and use a newer approach. Bob N.
claims the diode is good enough.

. . . for relays and contactors as WE use them
in OUR airplanes. I will happily use any alternative
technique that improves on performance, reliability
or cost of ownership. Here's an example of arc
suppression added across the contacts of my products
control relay:

http://aeroelectric.com/Pictures/Relays/Relay_with_Arc_Suppression_s.jpg

Here the concern was for the effects of an inductive
load on ME as the controlling device. I had no
control over configuration of load so I had to
cover the bases in the design of my product and
put suppression on not on my coil but my contacts!

Quote:
I claim the major purveyors of contactors now use back-to-back zeners or
bidirectionals. Bob N. can show lots of relays that use diodes.

I don't thing we have "parted company" if you're
agreeing that the diode is . . .

(1) the ultimate transient suppressor from a energy
management perspective, convenience and cost
of ownership and . . .

(2) causes an extended but insignificant
drop-out delay for the ways we use relays
and contactors and . . .

(3) offers an insignificant influence upon
service life for applications under discussion.

I'll go plot the performance characteristics
of 6-8 different ways to manage stored energy
in a contactor coil. I'll also discuss the
fact that selection of arc suppression techniques
depend on the whole suite of design considerations
that may go beyond starter/master switch and starter/
battery contactor service life.

Bob . . .


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