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nuckolls.bob(at)aeroelect Guest
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Posted: Tue Sep 22, 2020 6:06 pm Post subject: Z13-8 modification and LSE ignition wiring |
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Quote: | My reasoning is that should the battery fail somehow, the battery can be isolated and the SD8 could run the E buss, it could also be used to charge the battery with the alternate feed relay closed and the main battery relay open/alt off. I plan on incorporating the self energizing circuit for the SD8 (is this required with the newer SD8 system?). |
In 45 years of herding electrons on aircraft
I cannot recall a single instance of an FMEA
analysis that considered in flight 'battery failure'.
Now there ARE airplanes fitted with battery over
temperature warning systems that activate
when a REGULATOR or some other system fault
abuses an otherwise good battery.
The battery is generally regarded as the most
reliable source of energy on the airplane because
it is sized and maintained to meet endurance
design goals that far exceed it's ability to
crank an engine.
So, if (1) your engine started for this particular
flight and (2) it recently demonstrated capacity
conforming to design goals, then what is the
likelihood of it suddenly going TU in the next
3 or 4 hours of flight?
Further, if it's assumed to offer such risks,
then what are the data supporting what
failure mode? Field history? Observed limitations
in fabrication? Limited manufacturer's
warranty? Personal experience? The point being
if there is a real, risk . . . then
would it not be prudent to select another
battery?
Finally, suppose the battery does succumb to
some failure while your cruising along. How
would that failure manifest in the cockpit. What
indication would you observe that points
only to the battery causing you to initiate a
plan developed to mitigate that condition?
Bob . . .
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nuckolls.bob(at)aeroelect Guest
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Posted: Wed Sep 23, 2020 12:09 pm Post subject: Z13-8 modification and LSE ignition wiring |
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Quote: |
I am aware of the need to be able to shut off power near the source but cannot think of a reliable way to do this with ignitions connected to a battery buss, surely don’t want to use a relay (for reliability) and the switches will be about 4’ of wire away from the battery on the firewall, as to using diodes “instead” of switches, one switch is certainly required to be able to shut off the ignition so I was thinking of using one single pole on/off/on switch to be able to select either power source, this allows power source selection without adding another switch to the circuit. I see the benefit of diodes but they would also be added to the switch in the circuit so would allow auto-switching but not increase reliability...what am I missing?
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How big are the battery bus fuses? Taking the
system 'max cold' at the source is a crash
safety issue. The regs allow TC aircraft to
carry always hot feeders protected at no
more than 5A. Given that fuses are MANY
times faster than breakers, I'd comfortably
extend that feeder size to 7A.
Anything protected at that level or below
may enjoy long, un-switched feeders.
Why the 'auto switching'? The engine will
run on one ignition quite nicely. What
are the probabilities for dual failures
of single power paths? Assuming you've
detected an unacceptable probability,
then do you have steps in the pre-flight
check list to insure that all contingency
paths are functioning? In such cases,
it's better to design out the failure
condition than to add automatic features
that contribute their own burdens to
work load.
Bob . . .
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nuckolls.bob(at)aeroelect Guest
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Posted: Wed Sep 23, 2020 12:18 pm Post subject: Z13-8 modification and LSE ignition wiring |
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Quote: |
To protect the wire itself, I like using fusible links. For light consumers like the ignitions, a few inches of 22ga wire at the battery bus (sleeved with a fiberglass jacket) soldered to 18ga wire feeding the switch/ignition will protect the always-hot section of wire from catastrophic faults. |
but doesn't satisfy the crash safety condition
Fusible links are generally limited to use in
areas protected by battery master but included
to isolate hard-faulted feeders from the remainder
of normally functioning distribution.
The battery bus should (1) drive fuse or breaker
protected feeders at 7A or smaller -OR- if protection
is larger, then a relay at the bus to manage that
feeder's crash safety recommendations.
Bob . . .
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nuckolls.bob(at)aeroelect Guest
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Posted: Wed Sep 23, 2020 5:39 pm Post subject: Z13-8 modification and LSE ignition wiring |
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From the Lightspeed installation manual. I was working toward improving on the factory recommendation in this document. While a fusible link won't be as fast as a fuse, it seems better than a 5 or 6 foot long always hot wire to the CB.
LSE ignitions were installed on the N811HB
accident aircraft and decidedly not wired with
due diligence to competent FMEA or best practices.
Nor were they wired to LSE instructions.
Kluse and I worked on that case and discussed his
power source recommendations (then 10 years
old or more). He didn't disagree with recommendations
and reasoning explained in the 'Connection but
wasn't interested in refining his instructions.
He cited a long successful field history.
Klause is an accomplished performance guy and
has an impressive record of marketing success.
But he is not a systems integrator. We've been
hashing over the Z-figures here on the List
for almost 30 years. I suggest they've
evolved in ways that makes the system more
robust while striving for simplicity of pilot
workload, elegant FMEA outcomes and lowest
cost of ownership while meeting design
goals.
I'm the first to admonish, "When in doubt follow
the manufacturer's instructions." The flip side
of that coin is, "If you've done the homework,
modifications that go to a more elegant configuration
at equal or less risk, go for it."
Elegant, low risk craftsmanship is what we strive
for here.
Bob . . .
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Tailwind1
Joined: 05 Sep 2020 Posts: 7 Location: GREYBULL, WY
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Posted: Thu Sep 24, 2020 4:35 am Post subject: Re: Z13-8 modification and LSE ignition wiring |
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nuckolls.bob(at)aeroelect wrote: | Quote: |
To protect the wire itself, I like using fusible links. For light consumers like the ignitions, a few inches of 22ga wire at the battery bus (sleeved with a fiberglass jacket) soldered to 18ga wire feeding the switch/ignition will protect the always-hot section of wire from catastrophic faults. |
but doesn't satisfy the crash safety condition
Fusible links are generally limited to use in
areas protected by battery master but included
to isolate hard-faulted feeders from the remainder
of normally functioning distribution.
The battery bus should (1) drive fuse or breaker
protected feeders at 7A or smaller -OR- if protection
is larger, then a relay at the bus to manage that
feeder's crash safety recommendations.
Bob . . . |
Bob, am I understanding correctly from your above statement that fusible links are NOT a good alternative for a fuse block AT the battery bus in this case?
I was looking at the links to simplify and avoid the extra fuse block but are the links too slow for the crash safety aspect of this (say a 22AWG link and 18 AWG feeder wire with the 5A pullable breaker at the cockpit end as per the LSE recomendation)?. I will install a fuse block for the batt bus items if this is the recommended procedure.
Also, what are your thoughts on the LSE manual procedure of using the wire shield as a ground return versus a separate conductor? Seems to be possibly be less robust?
Thanks, Tim M
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_________________ Flying Sonerai II with A80 Continental. Wittman W10 Tailwind under construction, O360, dual LSE electronic ignition, airframe complete and covered, engine hung, cowl built. Working on electrical, instrumentation, and other details. |
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nuckolls.bob(at)aeroelect Guest
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Posted: Thu Sep 24, 2020 5:16 am Post subject: Z13-8 modification and LSE ignition wiring |
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Quote: |
Bob, am I understanding correctly from your above statement that fusible links are NOT a
good alternative for a fuse block AT the battery bus in this case? |
Correct
Quote: | I was looking at the links to simplify and avoid the extra fuse block but are the links
too slow for the crash safety aspect of this (say a 22AWG link and 18 AWG feeder
wire with the 5A pullable breaker at the cockpit end as per the LSE recomendation)?.
I will install a fuse block for the batt bus items if this is the recommended procedure.
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Installing those breakers in the cockpit
on extended feeders from the battery bus
has no foundation in physics or practice.
Feeder protection needs to be a close as
practical to the energy source that puts
the feeder at risk. The time constant for
operating that protection should be
consistent with protection of that feeder
from anticipated threats discovered in
the FMEA for protection of that feeder.
The crash safety issue is stacked on top
of feeder protection intended to limit the
electrical energy that raises risks of
post crash fire ignited by always hot
feeders.
Hence the 5A limit (FARS) or my own suggestion
for 7A fuses which would limit fault energy
to much less than breakers.
Quote: | Also, what are your thoughts on the LSE manual procedure of using the
wire shield as a ground return versus a separate conductor? Seems
to be possibly be less robust? |
You are correct. I had some discussion with
Klause with respect to shields in his system.
I inquired as to any testing or analysis done
that called for shielding his wires as either
potential victims or antagonists.
He admitted to no such testing but thought
it wasn't hard to do and was good insurance.
Powering the hall sensors through twisted
pair shields is probably a good thing to
do. Shielding the power leads makes no sense.
Those paths are not (or at least should
never be) bad actors in the ship's electro-
magnetic compatibility study.
If ANYONE says that shielding power wires
into or out of his product is a necessary
thing, then they've admitted that their
design falls short of some fundamental
and easily achieved requirements of DO-160.
Shielding breaks electro-static coupling
which is very weak. No such risks exist on
DC power feeders.
Klause wasn't claiming that it was necessary,
only easy and a good thing to do.
The recommended DC power feeder to the LSE system is
a mish-mash of electrical joints that add
complexity and failure points without
adding EMC value. Asking for direct
connections to batteries is also without
foundation in physics or practice.
You will never see such a recommendation
in TC aircraft designs. I would ground the
ignition electronics via wire to the firewall
ground bus; feed DC power through contemporary,
FAST protection at the battery bus and then
through what ever switch is selected. Fuses
are fine . . . if a fuse pops, something is
broke and there is no value in fiddling
with them in flight. That breaker-on-the-
panel thing is simply not well thought out.
Bob . . .
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Tailwind1
Joined: 05 Sep 2020 Posts: 7 Location: GREYBULL, WY
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Posted: Thu Sep 24, 2020 7:06 pm Post subject: Re: Z13-8 modification and LSE ignition wiring |
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When asked , Klaus stated that his reasoning for the pullable breakers at the panel was that an overvoltage or lightening strike could open the breaker and it could be reset whereas a fuse could not, any thoughts on this?
Tim M
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_________________ Flying Sonerai II with A80 Continental. Wittman W10 Tailwind under construction, O360, dual LSE electronic ignition, airframe complete and covered, engine hung, cowl built. Working on electrical, instrumentation, and other details. |
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nuckolls.bob(at)aeroelect Guest
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Posted: Fri Sep 25, 2020 7:28 am Post subject: Z13-8 modification and LSE ignition wiring |
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At 10:13 AM 9/25/2020, you wrote:
Quote: | Well, for one thing I don't think fuses react to voltage. I think they react to current.
On Thu, Sep 24, 2020 at 7:17 PM Tailwind1 <timmikus38(at)gmail.com (timmikus38(at)gmail.com)> wrote:
--> AeroElectric-List message posted by: "Tailwind1" <timmikus38(at)gmail.com (timmikus38(at)gmail.com)>
When asked , Klaus stated that his reasoning for the pullable breakers at the panel was that an overvoltage or lightening strike could open the breaker and it could be reset whereas a fuse could not, any thoughts on this? |
When and if a lightning strike opens a
breaker . . . the airplane is toast.
Similarly, ov conditions do not open
breakers.
Bob . . .
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user9253
Joined: 28 Mar 2008 Posts: 1921 Location: Riley TWP Michigan
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Posted: Fri Sep 25, 2020 9:16 am Post subject: Re: Z13-8 modification and LSE ignition wiring |
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Overvoltage will not open a breaker either. Over current will, but wait until
safely on the ground before resetting any breaker.
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_________________ Joe Gores |
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Tailwind1
Joined: 05 Sep 2020 Posts: 7 Location: GREYBULL, WY
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Posted: Mon Sep 28, 2020 4:23 am Post subject: Re: Z13-8 modification and LSE ignition wiring |
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Thank you all for your replies to the questions.
T Mikus
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_________________ Flying Sonerai II with A80 Continental. Wittman W10 Tailwind under construction, O360, dual LSE electronic ignition, airframe complete and covered, engine hung, cowl built. Working on electrical, instrumentation, and other details. |
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