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Thanks for bringing that up Bill, meant to do that yesterday but
forgot.
I did not have the capacitor in my 2nd gen 13B
installation (I don't think the 2nd gen car had one) but this is a good
thing to have for several reasons. I do have one installed on my
Renesis engine. I am changing all the installation guides to include
this part.
Tracy
----- Original Message -----
Sent: Monday, October 16, 2006 1:34
PM
Subject: [FlyRotary] Re: Coil / EC2
Wiring
Thanks Tracy. One more question: I'm using
the wiring harness from the Renesis. The harness for the coils has the
power wires going to pin C tied together and grounded through a capacitor
which is marked 250/0.47. I plan to use the same set-up and presume the
capacitor is used to catch spikes as the coils are turned on and off. Do
you recommend using this or not?
Thanks again. Will wait to hear from
you.
Bill
----- Original Message -----
Sent: Monday, October 16, 2006 10:06
AM
Subject: [FlyRotary] Re: Coil / EC2
Wiring
Keep in mind that there are entire books written on the subject of
aircraft wiring so this will not be an exhaustive answer and there are
always situations which I won't think of until something goes wrong (like
Al's situation with the remote EM2 display and the EC2 PCM wiring).
The only shielded wire in my system is the alternator cable to
the battery (mainly for radio noise suppression) so extensive use of
shielded wires is usually not required. I did use a twisted pair for
the crank angle sensor on the Renesis.
Here is the general guideline on the EC2 wire routing outlined in
the EC2 installation guide that I should go back and expand on, clarify,
etc.
Route the low level control lines (PCM, crank
sensor, coil control lines, etc) separately from any high current switching
lines (coil power, coil ground, injector power & drive lines,
etc).
That's it. As stated above, there will always be possible
exceptions like Al's situation but 99% of the time this general rule will
work fine.
Tracy (back to getting the 20B setup to run for the Rotary
fly-in)
----- Original Message -----
Sent: Sunday, October 15, 2006 8:35
AM
Subject: [FlyRotary] Coil
Wiring
Tracy,
I have both my harneses (EC &EM-2) soldered
up and ready to be routed.
I would like to do this once and
correctly...:>)
I have two firewall penetrations, one on the
pilot side going to the
injectors with the injector control wires
bundled together. I had
planned to bring the injector power wires
thru this same penetration
bundled together, but not bundled with the
control wires. If I need to
do any twisted pairs, exactly which
pairs should be twisted together??
How far apart should the two bundles
be?
The other firewall penetration is on the copilot side. I
currently have
the balance of the EC-2 wires bundled together and going
thru this
penetration. I also have all the EM-2 wires bundled and
going thru this
same penetration. This includes therrocouple and
temperature sensor
wires. Sounds like I need to separate some
wires. If so which wires
need to be separated and
how? Do I need more penetrations? Exactly
which wires need
to be twisted together and or shielded?? How far apart
should the
bundles be and if they are together (penetrations) how far
can they be
allowed to be close?
Thanks,
Bill
Bradburry
Mark; Tracy;
I'd like to
explore this further. Mark S wrote:
After reading Bob
Darrah's post last week where he noticed a big
improvement after
separating the leads to his coils I gave it a try on
my 20B. It
made a big difference, but was most noticeable in the lower
rpm
range. I was only able to separate the wires down near the
coils,
and then only by a small amount, but it made a substantial
improvement.
My question for Tracy is, can I leave the grounds and +14v
wires bundled
together and only separate the trigger leads, or do I
need to separate
all the wires? Also, if I were to use 3
individual shielded wires and
ground the shields, could I then bundle
the trigger leads together with
the rest of the coil
wires?
On a side note, after separating the coil leads, it
took a much leaner
mixture to get it to run smooth. Before, the
best it would idle was
about 1200rpm, now it will idle nicely at 900
rpm, not that I want to do
that, but it shows that the improvement
isn't all in my head.
Clarify for me which leads you
separated; the control leads from pins 3,
20, and 21 (C-pins) from each
other? I find that below about 1400-1500
rpm the engine begins
the occasional miss, and gets progressively
rougher as rpm
decreases. I've been thinking that it seemed more
ignition
related then mixture related.
I have the C-pin leads and
the B-pins ground bundled together from the
box to the firewall
penetration (a few feet). These bundles are separate
for each set of
coils (lead, trail). From the firewall to coils (a few
more feet)
the power lead (pin-D) joins the bundle. The A-pins are all
grounded at
the coil mount.
Tracy wrote:
1. How long is
the wiring harness between EC2 and coils?
About 6 ft for the
trailing and 10 ft for the leading.
2. How is the
power ground to the coils (A terminals) routed?
(hopefully not in the
same harness, if so, there is your problem).
3. Same question
as 2. on the power terminals.
Does this say that the power lead
(D-pins) should not be bundled with
the C or B pin leads? If so,
is this just as true if the lead and
trailing bundles are
separate.
4. I would be surprised if this turned out to be
the problem but if
coupling between the control lines themselves (C
pins) turns out to be
the problem, use either twisted pairs or
shielded wires to drive the B
& C lines to each coil. I would
lean toward twisted pairs.
I ran a common B-pin ground for each
set; bundled with the C-pin leads
but not twisted. Twisted pairs
would mean adding more wires - or would
twisting 3 control leads with
one ground to as well?
5. Are there any other lines
routed along with the coil harness
(injector drives, etc)?
The
coil bundles run with the injector drive bundles from the near
the
firewall to the top of the engine, maybe 4 ft or so; and run with
other
wires for a foot or so. One objective is to minimize
firewall
penetrations, another is to maintain separation between sets
of
injectors and sets of coils for true redundancy, and another is
to
separate noisy wires from quiet wires; so further separating isn't
a
simple
matter.
Al
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