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8AWG Wire to Fast-On Connection

 
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LarryRosen



Joined: 16 Jan 2006
Posts: 415
Location: Medford, NJ

PostPosted: Sun Jan 14, 2007 6:36 pm    Post subject: 8AWG Wire to Fast-On Connection Reply with quote

In order to keep the voltage drop down on a long 14 volt 30 amp run I
want to use 8 AWG wire. The final device has a male Fast-On terminal.
The only terminals I can find for 8 AWG wire are ring terminals, how do
I transition to a Fast-On?

Larry
RV-10


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PostPosted: Sun Jan 14, 2007 10:24 pm    Post subject: 8AWG Wire to Fast-On Connection Reply with quote

At 09:28 PM 1/14/2007 -0500, you wrote:

Quote:


In order to keep the voltage drop down on a long 14 volt 30 amp run I want
to use 8 AWG wire. The final device has a male Fast-On terminal.
The only terminals I can find for 8 AWG wire are ring terminals, how do I
transition to a Fast-On?

Splice a 6" 10AWG stub on the end of the 8AWG wire
so that you can crimp a standard yellow (10-12AWG)
PIDG on the end.

30A is pushing a Fast-On pretty hard. What's your
application?

Bob . . .
---------------------------------------------------------
< What is so wonderful about scientific truth...is that >
< the authority which determines whether there can be >
< debate or not does not reside in some fraternity of >
< scientists; nor is it divine. The authority rests >
< with experiment. >
< --Lawrence M. Krauss >
---------------------------------------------------------


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LarryRosen



Joined: 16 Jan 2006
Posts: 415
Location: Medford, NJ

PostPosted: Tue Jan 16, 2007 7:32 pm    Post subject: 8AWG Wire to Fast-On Connection Reply with quote

Bob,
The Fast-On connection is to a mosfet switch solid state relay sold by
perihelion design <http://www.periheliondesign.com/powerlinkjr.htm>
rated for 35 amps continuous. But your statement "30A is pushing a
Fast-On pretty hard" got me thinking, which generated more questions, so
now I need some guidance.

I am using the a Z-13/20 architecture that is modified for a battery in
the tail cone (RV-10) The solid state relay is for the endurance bus
feed. The circuit goes from the battery to a 30 amp ANL limiter to the
relay and then to the endurance bus, the run is 17 feet. The continuous
e-bus load is just under 10 amps, but the maximum possible load is 30
amps (no diversity at all, everything running at once, flaps, auto pilot
servos, com transmit, etc). The drivers for the high load are pitot
heat and landing light. [I know it could be debated whether or not these
deserve to be on the e-bus, but IMHO this design is to allow me to fly
safely in IMC and land]

So, if my calculations are correct for a 14 volt system:
a] 10 amps (at) 17 feet 10AWG has a voltage drop of 0.17 volts
b] 10 amps (at) 17 feet 8 AWG has a voltage drop of 0.11 volts
c] 30 amps (at) 17 feet 10 AWG has a voltage drop of 0.51 volts
d] 30 amps (at) 17 feet 8 AWG has a voltage drop of 0.32 volts

This is only the voltage drop to the e-bus fuse block and does not
account for the voltage drop to the final device.

So, I believe I am justified in using a 30 amp fuse, but am I being way
to conservative in using 8 AWG wire to account for a very unlikely full
max load?

Larry
RV-10 N205EN (reserved)

Robert L. Nuckolls, III wrote:
Quote:

<nuckollsr(at)cox.net>

At 09:28 PM 1/14/2007 -0500, you wrote:

>
> <LarryRosen(at)comcast.net>
>
> In order to keep the voltage drop down on a long 14 volt 30 amp run I
> want to use 8 AWG wire. The final device has a male Fast-On terminal.
> The only terminals I can find for 8 AWG wire are ring terminals, how
> do I transition to a Fast-On?

Splice a 6" 10AWG stub on the end of the 8AWG wire
so that you can crimp a standard yellow (10-12AWG)
PIDG on the end.

30A is pushing a Fast-On pretty hard. What's your
application?

Bob . . .



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PostPosted: Wed Jan 17, 2007 7:08 am    Post subject: 8AWG Wire to Fast-On Connection Reply with quote

At 10:30 PM 1/16/2007 -0500, you wrote:

Quote:


Bob,
The Fast-On connection is to a mosfet switch solid state relay sold by
perihelion design <http://www.periheliondesign.com/powerlinkjr.htm> rated
for 35 amps continuous. But your statement "30A is pushing a Fast-On
pretty hard" got me thinking, which generated more questions, so now I
need some guidance.

I am using the a Z-13/20 architecture that is modified for a battery in
the tail cone (RV-10) The solid state relay is for the endurance bus
feed. The circuit goes from the battery to a 30 amp ANL limiter to the
relay and then to the endurance bus, the run is 17 feet. The continuous
e-bus load is just under 10 amps, but the maximum possible load is 30 amps
(no diversity at all, everything running at once, flaps, auto pilot
servos, com transmit, etc). The drivers for the high load are pitot heat
and landing light. [I know it could be debated whether or not these
deserve to be on the e-bus, but IMHO this design is to allow me to fly
safely in IMC and land]

I'll suggest that nobody should plan to depend on a battery-feed
e-bus to extract themselves from an IMC environment. In
retrospect, I'm not too happy with the 13/20 configuration,
it's pretty messy. I'm beginning to think that Z-12 is the
best way to incorporate the SD-20 . . . this is how it's
done on thousands of TC aircraft that used to fly routinely
in IMC with NO second alternator and NO e-bus.

Given that you have two engine driven power sources, I'll
recommend that you pare the E-bus down to the minimum endurance loads
suggested in chapter 17. Likelihood of EVER needing to
recover from dual alternator failure using the e-bus all the
way to the ground is exceedingly low and to PLAN for it
is making your system get a bit messy.

If you're down to battery only, then the original e-bus
philosophy is critical to graceful recovery. You can always
close master contactors during approach to landing
for recovery. If you're looking at servicing a 30 amp
load under these conditions, then adding one or two
contactors at 1A each is insignificant.
Quote:
So, if my calculations are correct for a 14 volt system:
a] 10 amps (at) 17 feet 10AWG has a voltage drop of 0.17 volts
b] 10 amps (at) 17 feet 8 AWG has a voltage drop of 0.11 volts
c] 30 amps (at) 17 feet 10 AWG has a voltage drop of 0.51 volts
d] 30 amps (at) 17 feet 8 AWG has a voltage drop of 0.32 volts

This is only the voltage drop to the e-bus fuse block and does not account
for the voltage drop to the final device.

So, I believe I am justified in using a 30 amp fuse, but am I being way to
conservative in using 8 AWG wire to account for a very unlikely full max load?

Let's re-think this a bit and see if we can take
some weight and operating complexity out of your proposed
design. This is an excellent case where MORE is NOT BETTER.

Bob . . .


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Eric M. Jones



Joined: 10 Jan 2006
Posts: 565
Location: Massachusetts

PostPosted: Wed Jan 17, 2007 7:12 am    Post subject: Re: 8AWG Wire to Fast-On Connection Reply with quote

Larry,

Pushing hardware gets everybody into trouble. Please recalculate this based on my Super-4-CCA. Also, have you looked at the ground return? Pushing 30A makes me concerned with ground return currents through the control cables or structural parts...an insidious killer.

As for the Fastons. I puzzled over this for years. Connectors are sold for 10 AWG wires but no larger, and that firmly sets the amp limit. Splicing larger wires to the connectors concerns me and I advise against it.

Email me offline and we can discuss some options.

(I will still send a sample of Super-2 and Super-4-CCA to interested parties...see my website).


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PostPosted: Wed Jan 17, 2007 8:37 am    Post subject: 8AWG Wire to Fast-On Connection Reply with quote

At 07:12 AM 1/17/2007 -0800, you wrote:

Quote:


Larry,

Pushing hardware gets everybody into trouble. Please recalculate this
based on my Super-4-CCA. Also, have you looked at the ground return?
Pushing 30A makes me concerned with ground return currents through the
control cables or structural parts...an insidious killer.

Hmmmm . . . I'm not aware of any well considered
design situation where local grounding was discouraged
for the protection of control cables or structural
parts. We ground things ALL OVER the airframes on
everything from A36 to Hawker 850 and with return
currents that run a lot more than 30A.

I've heard a variety of stories but none were supported
by any critical review of hard data. Until we're
offered good data supported by simple-ideas, I'll
suggest that the eroded cables, loose rivets and
pitted skins are the result of some stresses OTHER
than ground return currents.

For example, a few years ago we identified a case where
drive-end bearings on starter generators were being
eroded by small voltage drops in structure (tens of
millivolts) but at hundreds of amps. This was supported
by good data, repeatable experiments and obvious
mitigation of a recurring problem by electrically
insulating one end of the quill shaft. It would have
been much BETTER to re-arrange some wiring but the
cost of modifying hundreds of airplanes was reduced by
building a special drop-in replacement for the
starter-generator.

Quote:
As for the Fastons. I puzzled over this for years. Connectors are
sold for 10 AWG wires but no larger, and that firmly sets the amp limit.

My design philosophy for the use of Fastons has more
to do with longevity than for "ratings". Yes, one might
safely assume that 'cause AMP supplies a Faston to fit
a 10AWG wire, that the same Faston and it's mating
tab are capable of carrying the same current as the
wire.

But keep in mind that wire current "ratings" are based
on temperature rise . . . a 10AWG wire is not in danger
in a room temperature environment at 50 amps. Should we
out-of-hand assume that it's okay to load the 10AWG
Faston to 50A in the same environment?

Probably okay when new but consider the case of the
bouncing ammeters in many Cessna and Piper singles.
This is a case where multitudinous connections in
the voltage-sense/field-supply lead have increased
loop resistance by perhaps 100 milliohms. Not enough
voltage drop to case the system to fail . . . but enough
to upset the voltage regulator's servo loop stability.

This takes perhaps 20-30 years in the field. EXCEEDINGLY
difficult to diagnose if you don't understand the simple-
ideas behind system functionality.

This is why I de-rate the fuse blocks to 15A per slot
while the manufacturer rates them for 30A per slot.
Recall that heating effects are an I-squared effect.
Limiting the design loads on any one fuse by 50%
reduces heating stresses on the fuses connections by
75%. This is a element of an overall design philosophy
that has nothing to do with things you read in the
manufacturer's data sheets.

As I write these words, I'm in conversation with some
poor tech in Europe trying to fix a paralleling stability
problem on a 30 year old Hawker. This beast uses
MAGNETIC AMPLIFIERS in the generator control units.
The paralleling system has 30-50 joints in the loop . . .
ANY or ALL of which can be contributing to the malfunction.
The sad part is that we may find that LOTS of joints need
to be renewed to bring this airplane back to designed
performance. This is a case were the joints are carrying
perhaps less than 3A.

Just one of many examples of a situation where loading
decisions and architectures are fine-tuned NOT to
accommodate out-of-the-box ratings but to reduce
probability of disappointing performance 10-20 years from now.

The question that started this thread had to do with
running an 30A e-bus feeder through a Faston . . .
all the bells went off and red flags went up. Assume
this system checks out just fine for first flight
and then sits quietly waiting for the a some years
hence when its called upon to perform its intended
purpose. How much are we willing to bet that it's
going to take this 30A load for long enough to get
down? If you're betting your life on it, would
it not be more prudent to design this potential weakness
out from square one? This seems especially smart when
that one joint becomes single point of failure for
the e-bus alternate feed.
Quote:
Splicing larger wires to the connectors concerns me and I advise against it.

Keep in mind that the wire was up-sized to meet a voltage
drop requirement, not to increase max current in the
line. Splicing "too-big" wires in for the purpose
of mitigating voltage drop is a sound principal (See
chapter 8 in 'Connection) but maybe not practical after
we consider the big picture for system architecture and
the failure modes we're proposing to handle.

I'm about 80% convinced that Z-13/20 is going to come out
of Rev 12 in favor of recommending Z-12 as the most
practical way to incorporate the SD-20 into a light
aircraft.

Bob . . .


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LarryRosen



Joined: 16 Jan 2006
Posts: 415
Location: Medford, NJ

PostPosted: Wed Jan 17, 2007 9:55 am    Post subject: 8AWG Wire to Fast-On Connection Reply with quote

Thanks Bob and Eric for your guidance. I will need to rethink my load analysis once again.

Bob,
You said " I'm about 80% convinced that Z-13/20 is going to come out
of Rev 12 in favor of recommending Z-12 as the most
practical way to incorporate the SD-20 into a light
aircraft."

But, doesn't this defeat the elegance of the e-bus concept. The main alternator fails and with 3 switches (Aux Alternator on, e-bus feed on and master off) you would have an electrical design that would out last the fuel on board. With Z-12 you would have to manually shed the load.

Larry
-------------- Original message ----------------------
From: "Robert L. Nuckolls, III" <nuckollsr(at)cox.net>
Quote:

<nuckollsr(at)cox.net>

At 10:30 PM 1/16/2007 -0500, you wrote:

>
>
>Bob,
>The Fast-On connection is to a mosfet switch solid state relay sold by
>perihelion design <http://www.periheliondesign.com/powerlinkjr.htm> rated
>for 35 amps continuous. But your statement "30A is pushing a Fast-On
>pretty hard" got me thinking, which generated more questions, so now I
>need some guidance.
>
>I am using the a Z-13/20 architecture that is modified for a battery in
>the tail cone (RV-10) The solid state relay is for the endurance bus
>feed. The circuit goes from the battery to a 30 amp ANL limiter to the
>relay and then to the endurance bus, the run is 17 feet. The continuous
>e-bus load is just under 10 amps, but the maximum possible load is 30 amps
>(no diversity at all, everything running at once, flaps, auto pilot
>servos, com transmit, etc). The drivers for the high load are pitot heat
>and landing light. [I know it could be debated whether or not these
>deserve to be on the e-bus, but IMHO this design is to allow me to fly
>safely in IMC and land]

I'll suggest that nobody should plan to depend on a battery-feed
e-bus to extract themselves from an IMC environment. In
retrospect, I'm not too happy with the 13/20 configuration,
it's pretty messy. I'm beginning to think that Z-12 is the
best way to incorporate the SD-20 . . . this is how it's
done on thousands of TC aircraft that used to fly routinely
in IMC with NO second alternator and NO e-bus.

Given that you have two engine driven power sources, I'll
recommend that you pare the E-bus down to the minimum endurance loads
suggested in chapter 17. Likelihood of EVER needing to
recover from dual alternator failure using the e-bus all the
way to the ground is exceedingly low and to PLAN for it
is making your system get a bit messy.

If you're down to battery only, then the original e-bus
philosophy is critical to graceful recovery. You can always
close master contactors during approach to landing
for recovery. If you're looking at servicing a 30 amp
load under these conditions, then adding one or two
contactors at 1A each is insignificant.


>So, if my calculations are correct for a 14 volt system:
>a] 10 amps (at) 17 feet 10AWG has a voltage drop of 0.17 volts
>b] 10 amps (at) 17 feet 8 AWG has a voltage drop of 0.11 volts
>c] 30 amps (at) 17 feet 10 AWG has a voltage drop of 0.51 volts
>d] 30 amps (at) 17 feet 8 AWG has a voltage drop of 0.32 volts
>
>This is only the voltage drop to the e-bus fuse block and does not account
>for the voltage drop to the final device.
>
>So, I believe I am justified in using a 30 amp fuse, but am I being way to
>conservative in using 8 AWG wire to account for a very unlikely full max load?

Let's re-think this a bit and see if we can take
some weight and operating complexity out of your proposed
design. This is an excellent case where MORE is NOT BETTER.

Bob . . .







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PostPosted: Wed Jan 17, 2007 11:27 am    Post subject: 8AWG Wire to Fast-On Connection Reply with quote

At 05:53 PM 1/17/2007 +0000, you wrote:

Quote:


Thanks Bob and Eric for your guidance. I will need to rethink my load
analysis once again.

Bob,
You said " I'm about 80% convinced that Z-13/20 is going to come out
of Rev 12 in favor of recommending Z-12 as the most
practical way to incorporate the SD-20 into a light
aircraft."

But, doesn't this defeat the elegance of the e-bus concept. The main
alternator fails and with 3 switches (Aux Alternator on, e-bus feed on and
master off) you would have an electrical design that would out last the
fuel on board.

Absolutely . . .

Quote:
With Z-12 you would have to manually shed the load.

. . . and there are features in the SB-1 regulator that assists
the pilot in the load reduction task.

I'm going to catch a lot of flack when I pull the drawing. No doubt
many folks have installed it . . . and I'll have to explain that
there's nothing functionally BAD about Z-13/20. Nonetheless, after
working with builders over the time the drawing has been published,
I've determined that it doesn't conform to my personal standards
of "the best we know how to do." It's simply too complex.

Bob . . .


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ryan42



Joined: 06 Jul 2006
Posts: 14

PostPosted: Fri Mar 16, 2007 4:10 pm    Post subject: Re: 8AWG Wire to Fast-On Connection Reply with quote

Out of curiosity Bob, would you then mainly advocate z-14 for new designs with a 20A alternator. In the past it seems you have suggested z-14 over z-12 for people in the planning stages (correct me if I'm wrong). Maybe a z-14 that uses the second bus as a smaller main alt. out e-bus, not used for starting...smaller battery...

In what instance would you use z-12 over z-14 with a 20A alternator? Save a little $ and #?

-Ryan (In the pondering stage)


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