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brianpublic2(at)starband.
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 Posted: Wed Sep 20, 2006 5:08 am Post subject: Z-19 based block diagrams |
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I am working on the wiring for my Eggenfellner Subaru based RV-7A. I had
made up a wiring diagram, but then it was suggested that I redo it and
simplify it. The original is a modified version of Z-19, with a couple more
circuits off each engine bus, and the substitution of Schottky power diodes
for the bridge diodes.
See the 2 block diagrams here:
http://brian76.mystarband.net/avionicsSep06.htm#sep15
The first one is the one I was going to go with, and the second one is a
proposed redesign. As the picture caption states, I already have the 4PDT
locking switches, but I haven't bought the Schottky diodes yet.
The second one looks simpler, but is it perhaps too simple? In the first
one, I can manually control which busses are "ON" with the 2 4PDT switches.
Normally, they'd both be on. In case of loss of the single alternator, the
voltage will drop and the aux contactor will open (in either diagram). Once
the 2 batteries are not tied together through the aux contactor, they will
have different voltages depending on load. I can run the engine off one
battery it until it gets too low, then switch to using the other battery
(while looking for a place to land, of course).
With the second diagram, there is just one engine bus, instead of two, and
each battery feeds the bus through the 2 Schottky diodes. But what if the
batteries are at different voltages? How does the Schottky react in a case
like that? Does the engine bus simply "see" the higher of the 2 voltages
passing through the 2 schottky diodes?
Any feedback or advice on these specific questions or on any general
observations about either block diagram will be greatly appreciated.
Thanks,
brian
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nuckollsr(at)cox.net
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| Posted: Wed Sep 20, 2006 7:11 am Post subject: Z-19 based block diagrams |
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At 09:00 AM 9/20/2006 -0400, you wrote:
| Quote: |
<brianpublic2(at)starband.net>
I am working on the wiring for my Eggenfellner Subaru based RV-7A. I had
made up a wiring diagram, but then it was suggested that I redo it and
simplify it. The original is a modified version of Z-19, with a couple more
circuits off each engine bus, and the substitution of Schottky power diodes
for the bridge diodes.
See the 2 block diagrams here:
http://brian76.mystarband.net/avionicsSep06.htm#sep15
The first one is the one I was going to go with, and the second one is a
proposed redesign. As the picture caption states, I already have the 4PDT
locking switches, but I haven't bought the Schottky diodes yet.
The second one looks simpler, but is it perhaps too simple? In the first
one, I can manually control which busses are "ON" with the 2 4PDT switches.
Normally, they'd both be on. In case of loss of the single alternator, the
voltage will drop and the aux contactor will open (in either diagram). Once
the 2 batteries are not tied together through the aux contactor, they will
have different voltages depending on load. I can run the engine off one
battery it until it gets too low, then switch to using the other battery
(while looking for a place to land, of course).
|
Why would your battery "get too low"? I presume you subscribe to
the notion that careful load analysis, preventative maintenance of
the batteries and operational testing is the best way to PREDICT and
then MAINTAIN system performance to your DESIGN GOALS.
| Quote: | With the second diagram, there is just one engine bus, instead of two, and
each battery feeds the bus through the 2 Schottky diodes. But what if the
batteries are at different voltages? How does the Schottky react in a case
like that? Does the engine bus simply "see" the higher of the 2 voltages
passing through the 2 schottky diodes?
Any feedback or advice on these specific questions or on any general
observations about either block diagram will be greatly appreciated.
|
Failure Mode Effects Analysis (FMEA) is a process whereby you
step through all discernable failures including poor design
goals but NOT failure for due diligence in maintenance. Figure
out a Plan-B for any failure of a component that might ruin
your day and re-design the system for failure to meet design
goals.
First, I what way did you find Z-19 deficient? An admonishment
to "make it simpler" is insufficient. You need to set design
goals, operating limits for duration, then craft to those goals
using only the parts necessary to comply. "Simplicity" becomes
an automatic feature of the finished system because you didn't
put a part in that wasn't necessary to the task.
So, if Z-19 was attractive as a basis for the beginnings of
you deliberations, what feature(s) fail to meet your design
goals. Your first diagram appears to be Z-19 with a second
fuel pump added. Perhaps all you need beyond Z-19 is a single
switch that powers the aux pump (probably never used) from the
engine battery bus.
Bob . . .
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retasker(at)optonline.net
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| Posted: Wed Sep 20, 2006 7:12 am Post subject: Z-19 based block diagrams |
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Brian, your second design is almost exactly what I am doing (as you know
I am also using the Egg Subaru). It allows control over both system
buses and makes sure that there is always power to the engine bus. Yes,
the engine bus will always "see" and draw power from whichever battery
voltage is higher (less the Schottky drop). I did add one "last resort"
switch between the main battery and the engine bus. While the Schottky
diodes I am using are as bulletproof as you can get (175A continuous
rating), I decided to set it up so I can connect directly to the main
battery just in case.
I agree that your first design is too complicated.
All that said, I am not yet flying.
Dick Tasker
Brian Meyette wrote:
| Quote: |
I am working on the wiring for my Eggenfellner Subaru based RV-7A. I had
made up a wiring diagram, but then it was suggested that I redo it and
simplify it. The original is a modified version of Z-19, with a couple more
circuits off each engine bus, and the substitution of Schottky power diodes
for the bridge diodes.
See the 2 block diagrams here:
http://brian76.mystarband.net/avionicsSep06.htm#sep15
The first one is the one I was going to go with, and the second one is a
proposed redesign. As the picture caption states, I already have the 4PDT
locking switches, but I haven't bought the Schottky diodes yet.
The second one looks simpler, but is it perhaps too simple? In the first
one, I can manually control which busses are "ON" with the 2 4PDT switches.
Normally, they'd both be on. In case of loss of the single alternator, the
voltage will drop and the aux contactor will open (in either diagram). Once
the 2 batteries are not tied together through the aux contactor, they will
have different voltages depending on load. I can run the engine off one
battery it until it gets too low, then switch to using the other battery
(while looking for a place to land, of course).
With the second diagram, there is just one engine bus, instead of two, and
each battery feeds the bus through the 2 Schottky diodes. But what if the
batteries are at different voltages? How does the Schottky react in a case
like that? Does the engine bus simply "see" the higher of the 2 voltages
passing through the 2 schottky diodes?
Any feedback or advice on these specific questions or on any general
observations about either block diagram will be greatly appreciated.
Thanks,
brian
|
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klehman(at)albedo.net
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| Posted: Wed Sep 20, 2006 7:49 am Post subject: Z-19 based block diagrams |
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Hello Brian
I'm not really a proponent of running all the engine supplies through a
diode. Redundancy is good but reducing the reliability of the primary
system is a tradefoff worthy of careful consideration. I used a slightly
different scheme that runs each fuel pump off a different battery with
no diodes. If both pumps are running then no further action is required
regardless of pump failure, diode failure, fuse blowing, etc. I have the
option of running both pumps simultaneously at any time such as when
landing or taking off. My first action in the event of an engine problem
is to make sure all switches in my engine control row of switches are
on. That insures both pumps are on. If I had only one ecm, I'd really
REALLY like the fuel pumps wired such that there is no way that a
problem with one pump or its wiring could take out the ecm. For example,
could a short take out a diode (or two?) before a fuse blows? Diodes
have a tendancy to blow faster than fuses in my experience although
perhaps you are planning very large diodes.
I must admit to not understanding why you'd need 4 pole switches in your
first proposal. I can see the attraction of diodes for the ecm supply in
your second proposal but I'd probably consider only routing the aux
supply through a diode. Granted a short on the main system that did not
isolate itself by blowing fuses could then disable your aux supply but
I'm having trouble imagining that as a significant risk.
Regarding your diode question. It doesn't matter at all if the batteries
are different voltages. Whichever is higher will supply the loads. As
the voltage drops during discharge, the second battery will gradually
share the load. From then on the battery voltages will be approximately
equal. The key point is that the good battery will not transfer energy
into a discharged battery regardless of whether a diode is present.
Ken L.
Brian Meyette wrote:
| Quote: |
I am working on the wiring for my Eggenfellner Subaru based RV-7A. I had
made up a wiring diagram, but then it was suggested that I redo it and
simplify it. The original is a modified version of Z-19, with a couple more
circuits off each engine bus, and the substitution of Schottky power diodes
for the bridge diodes.
See the 2 block diagrams here:
http://brian76.mystarband.net/avionicsSep06.htm#sep15
The first one is the one I was going to go with, and the second one is a
proposed redesign. As the picture caption states, I already have the 4PDT
locking switches, but I haven't bought the Schottky diodes yet.
The second one looks simpler, but is it perhaps too simple? In the first
one, I can manually control which busses are "ON" with the 2 4PDT switches.
Normally, they'd both be on. In case of loss of the single alternator, the
voltage will drop and the aux contactor will open (in either diagram). Once
the 2 batteries are not tied together through the aux contactor, they will
have different voltages depending on load. I can run the engine off one
battery it until it gets too low, then switch to using the other battery
(while looking for a place to land, of course).
With the second diagram, there is just one engine bus, instead of two, and
each battery feeds the bus through the 2 Schottky diodes. But what if the
batteries are at different voltages? How does the Schottky react in a case
like that? Does the engine bus simply "see" the higher of the 2 voltages
passing through the 2 schottky diodes?
Any feedback or advice on these specific questions or on any general
observations about either block diagram will be greatly appreciated.
Thanks,
brian
--
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dennis.glaeser(at)eds.com
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| Posted: Wed Sep 20, 2006 10:35 am Post subject: Z-19 based block diagrams |
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Brian,
My E-Sube architecture is shown here:
http://www.wideopenwest.com/~glaesers/RV7A/RV7A_Electrical.htm
I've put my batteries behind the baggage bulkhead, so the physical
layout is different than the diagram shows, but the architecture is the
same.
I have a hot bus for each battery, instead of an engine bus, but
electrically pretty similar to your second diagram.
Dennis Glaeser
RV7A - finishing kit
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brianpublic2(at)starband.
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| Posted: Wed Sep 20, 2006 12:48 pm Post subject: Z-19 based block diagrams |
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About the battery voltage, I was referring to the case where the alternator
has died and I'm just trying to get to an airport on battery power.
I didn't find Z-19 deficient. Yes, my first diagram is Z-19 with another
pump added, 4PDT switches instead of 2PDT, and Schottky diodes replacing the
rectifier bridges. It was just suggested to me that I rethink it. I
didn't at first, but then I had an epiphany a month or so later, and came up
with the second block diagram.
In looking at the first diagram again, it does appear that, with the pumps
switched with dedicated locking SPST switches, I probably don't need the
4PDT for the pumps circuits, as that just puts 2 switches in series. So
that really leaves me with a SPST switch for each of; primary & secondary
fule pump and ECM.
So that leaves the question of "should I have 2 busses with diode bridges on
the output, or better to go with one engine bus with the diode bridge on the
input?"
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brianpublic2(at)starband.
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| Posted: Wed Sep 20, 2006 1:02 pm Post subject: Z-19 based block diagrams |
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A question for you, Dennis - where did you physically locate your Alt-B
current limiter and Hall Effect sensor? I am a bit concerned about running
that #8 Alt-B wire all the way back from the alternator, through the
firewall and subpanel to the switches panel before it gets a current limiter
or breaker. Is your current limiter mounted fwd or aft of the firewall?
Right now, I have more length of the Alt-B wire unprotected than protected,
and I don't like that. I suppose I could put a breaker or limiter in the
wire right after it comes off the alternator, then fasten the
breaker/limiter to the top of the intake manifold. How did you do it?
My plan calls for a 60a breaker in the Alt-B line at the switches panel.
Is the current limiter better for some reason?
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Dennis Glaeser
Joined: 10 Jan 2006
Posts: 53
Location: Rochester Hills, Michigan
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| Posted: Wed Sep 20, 2006 3:09 pm Post subject: Z-19 based block diagrams |
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Well, I haven't done it yet - don't get my engine until December...
My plan is to put both the current limiter and Hall effect sensor in the
engine compartment. Since the alternator is on the firewall side of the
engine, I'll probably run the alternator B lead to a firewall mounted
current limiter, and then to the starter (of course, this may change once I
get the engine  The H sensor will probably be near the current limiter.
The only fat wire through the firewall is the starter wire (6AWG). I am
going to splice an 8AWG wire on the 6AWG wire between the firewall and the
IP subpanel and that will feed the primary bus.
Dennis
----------------------------------------------------------------------------
-----------------------
A question for you, Dennis - where did you physically locate your Alt-B
current limiter and Hall Effect sensor? I am a bit concerned about running
that #8 Alt-B wire all the way back from the alternator, through the
firewall and subpanel to the switches panel before it gets a current limiter
or breaker. Is your current limiter mounted fwd or aft of the firewall?
Right now, I have more length of the Alt-B wire unprotected than protected,
and I don't like that. I suppose I could put a breaker or limiter in the
wire right after it comes off the alternator, then fasten the
breaker/limiter to the top of the intake manifold. How did you do it?
My plan calls for a 60a breaker in the Alt-B line at the switches panel.
Is the current limiter better for some reason?
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nuckollsr(at)cox.net
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| Posted: Wed Sep 20, 2006 6:03 pm Post subject: Z-19 based block diagrams |
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At 04:41 PM 9/20/2006 -0400, you wrote:
| Quote: |
<brianpublic2(at)starband.net>
About the battery voltage, I was referring to the case where the alternator
has died and I'm just trying to get to an airport on battery power.
|
Okay. I think you'll find it useful to put bounds on "get to the airport".
Too many of our brethren view the situation you've hypothesized as
something that doesn't happen often (it doesn't) but is an emergency
when it does (doesn't have to be) but is almost never covered by a
Plan-B that is both calculated, designed and maintained so that the
event is handled solely as a maintenance issue and not something likely
to upset the wife and kids. They KNEW you were building death trap
when you started the project, let's not prove them right.
| Quote: | I didn't find Z-19 deficient. Yes, my first diagram is Z-19 with another
pump added, 4PDT switches instead of 2PDT, and Schottky diodes replacing the
rectifier bridges. It was just suggested to me that I rethink it. I
didn't at first, but then I had an epiphany a month or so later, and came up
with the second block diagram.
In looking at the first diagram again, it does appear that, with the pumps
switched with dedicated locking SPST switches, I probably don't need the
4PDT for the pumps circuits, as that just puts 2 switches in series. So
that really leaves me with a SPST switch for each of; primary & secondary
fule pump and ECM.
So that leaves the question of "should I have 2 busses with diode bridges on
the output, or better to go with one engine bus with the diode bridge on the
input?"
|
Diodes are more dependable than switches. The idea behind Z-19 as-drawn
was to provide a plan-b for failure of either switch. Going from 2-pole
to 4-pole devices is there wrong direction on the reliability curve.
If I understand your system, you have Z-19 as shown plus an extra pump.
If it were my airplane, I'd simply add a single-pole AUX PUMP switch
to power the rarely (if ever) needed pump. Run it from either battery bus.
You don't need a dual power path for this pump unless you're going for
Part 25 certification where probability and statistical studies are
required to analyze dual failures.
Now, how about pre-flight. Is it harmful to power up the AUX PUMP and
see that it develops pressure before you start the engine? If not,
pre-flight is easy.
This maintains the maximum separation of power paths for necessary
systems by having them come together at the diodes.
Bob . . .
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