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mcculleyja(at)starpower.n
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 Posted: Thu Apr 13, 2006 6:58 pm Post subject: SD-8 PM Alternator |
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Bob N,et al,
There has been periodic discussion on this list in the past about the
SD-8(& maybe other permanent magnet alternators)not being capable of
coming on line if the battery or other power source to the buss fails or
is not otherwise available to activate the SD-8.
I have experimented with a simple idea that solves this situation and
want to share the info to solicit comments on the suitability or any
downside features anyone may offer.
The circuit consists of tapping into the SD-8 regulator output and
feeding that through a diode to the positive side of an electrolytic
capacitor, grounding the negative lead of the capacitor and connecting a
spring loaded,normally-open push-button switch across the diode.
After engine start-up and during the subsequent pre-flight system check
of the SD-8, it charges the capacitor and the diode prevents loss of
this charge thereafter even if the SD-8 is not left switched on. If
total loss of electrical power to the buss occurs during flight, the
SD-8 will come on line by momentarily activating the push button switch
while also closing the SD-8 switch to the buss.
Through both ground and flight testing, I found no situation where
it failed to work. An unexpected finding is that the SD-8 will activate
with as low as 1.0 volt charge on the capacitor! Another bonus is that
the capacitor leakage rate is so low that from an initial charge of only
12.5 volts, it requires 2 hours short of 3 full days to leak down to
10.5 volts! (average of 0.0286 volts per hour). Of course, this rate is
progressively less as the charge voltage drops further, so if someone
left the Master on and killed the battery and then wanted to prop the
engine many days later(more than 2 weeks!)the SD-8 could then be brought
on line!! BTW,I'm using a 56kmf,16V(20Vsurge)capacitor from Digi-Key,
P/N P6878-ND, at less than $8. Less capacity should also work
adequately,but the already small size, weight and cost doesn't
contribute enough to cause concern.
What puzzles me is how the SD-8 and its regulator can respond to a
voltage as low as 1.0. Can someone explain this?
Jim McCulley
Tailwind
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nuckollsr(at)cox.net
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| Posted: Tue Apr 18, 2006 5:49 am Post subject: SD-8 PM Alternator |
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At 10:50 PM 4/13/2006 -0400, you wrote:
| Quote: |
<mcculleyja(at)starpower.net>
Bob N,et al,
There has been periodic discussion on this list in the past about the
SD-8(& maybe other permanent magnet alternators)not being capable of
coming on line if the battery or other power source to the buss fails or
is not otherwise available to activate the SD-8.
|
<snip>
You've done a nice piece of work here sir and I want you to
know that my silence thus far is for want of all the materials
I'm looking for (and time) to give you the reply it deserves.
I'm running one foot in the bucket and the other in a fire
right now . . . but I did find the schematic for a PM alternator
that I'd misplaced. More on this soon . . .
Bob . . .
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nuckollsr(at)cox.net
Guest
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| Posted: Sat Apr 22, 2006 4:56 am Post subject: SD-8 PM Alternator |
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|
At 10:50 PM 4/13/2006 -0400, you wrote:
| Quote: |
<mcculleyja(at)starpower.net>
Bob N,et al,
There has been periodic discussion on this list in the past about the
SD-8(& maybe other permanent magnet alternators)not being capable of
coming on line if the battery or other power source to the buss fails or
is not otherwise available to activate the SD-8.
I have experimented with a simple idea that solves this situation and
want to share the info to solicit comments on the suitability or any
downside features anyone may offer.
The circuit consists of tapping into the SD-8 regulator output and
feeding that through a diode to the positive side of an electrolytic
capacitor, grounding the negative lead of the capacitor and connecting a
spring loaded,normally-open push-button switch across the diode.
After engine start-up and during the subsequent pre-flight system check
of the SD-8, it charges the capacitor and the diode prevents loss of
this charge thereafter even if the SD-8 is not left switched on. If
total loss of electrical power to the buss occurs during flight, the
SD-8 will come on line by momentarily activating the push button switch
while also closing the SD-8 switch to the buss.
Through both ground and flight testing, I found no situation where
it failed to work. An unexpected finding is that the SD-8 will activate
with as low as 1.0 volt charge on the capacitor! Another bonus is that
the capacitor leakage rate is so low that from an initial charge of only
12.5 volts, it requires 2 hours short of 3 full days to leak down to
10.5 volts! (average of 0.0286 volts per hour). Of course, this rate is
progressively less as the charge voltage drops further, so if someone
left the Master on and killed the battery and then wanted to prop the
engine many days later(more than 2 weeks!)the SD-8 could then be brought
on line!! BTW,I'm using a 56kmf,16V(20Vsurge)capacitor from Digi-Key,
P/N P6878-ND, at less than $8. Less capacity should also work
adequately,but the already small size, weight and cost doesn't
contribute enough to cause concern.
What puzzles me is how the SD-8 and its regulator can respond to a
voltage as low as 1.0. Can someone explain this?
|
First, let me commend you for the time and effort to perceive
some design goals, craft and experiment and publish the results.
Your efforts and questions have prompted me to consider the
self-excitation deficiencies in SD-8 alternator regulators.
Someone sent me a schematic of a Kubota regulator some years
ago. This regulator includes a warning light function and I
believe is typical of most PM regulators including the Ducati
regulators supplied with Rotax engines. I've published the
schematic at:
http://www.aeroelectric.com/Pictures/Schematics/PM_Regulator/Kubota_Schematic.jpg
If one deletes the features associated with the warning circuit, you get
this:
http://www.aeroelectric.com/Pictures/Schematics/PM_Regulator/Kubota_v-reg.jpg
If you focus just on hte warning circuit, here's the details.
http://www.aeroelectric.com/Pictures/Schematics/PM_Regulator/Kubota_Alt-Warn.jpg
You'll note that the warning circuit turns out the light if
the alternator is generating voltage and is not disconnected
from the regulator. This is typical of MOST built-in 'idiot'
lights on alternator regulator systems (and generators) since
day-one. These lights are not definitive annunciations of alternator
performance. There are failure modes that do not light the
light. Hence my long standing recommendation for ACTIVE NOTIFICATION
OF LOW VOLTAGE independent of the alternator's built in features
as being the definitive annunciation for loss-of-alternator.
Your experiments have shown that the regulator will come alive
with a very low voltage available at the 'b-lead'. A study
of the schematic for the Kubota regulator leads one to
conclude that once you have just enough voltage to forward
bias some junctions (The b-e junction of Q3 through R3
and D6) there is a potential for triggering the SCRs and
having the system wake up. I suspect the B&C regulator
is similar.
The system you've crafted has demonstrated some utility
for overcoming the SD-8 regulator's inability to self-excite.
After some thought on the design goal, I thought of another
approach to suggest. Since you're set up for and
have the mind-set to conduct the necessary experiments,
please consider . . .
http://www.aeroelectric.com/Pictures/Schematics/PM_Regulator/Self_Excitation_Experiment.jpg
What we'd like to do is not let the b-lead voltage out
of the regulator be 100% dependent upon triggered SCRs in
the regulator. Suppose you added a couple of diodes
from the alternator winding along with a resistor to
ground to build a very inefficient keep-alive rectifier.
The two diodes parallel the SCRs but with a conduction
impedance too high for the system to deliver significant
power. We then need some small, fixed 'load' across the
output filter capacitor to prevent the unloaded alternator
voltage (as high as 40v) from charging the capacitor
to a level dangerous to the cap and system equipment
in case the alternator control relay is closed while the
capacitor is charged up.
I've shown a pair of 1K resistors. Use mechanically
hefty resistors . . . the 2W isn't need for electrical
reasons, just mechanical. Adjust the size of the series
resistor at the diodes to achieve a couple of volts or
more (but not greater than 14) across the capacitor
at max engine rpm with the alternator system OFF.
I suspect this resistor might be as high as 3 to 10K
and still make the system sleep with one eye open.
The pilot-operated push-button is not an unreasonable
solution too. At Cessna many moons ago, we crafted
two systems for the same purpose. One used an array
of d-cells, a diode and a push button to provide
the pilot with a means of kick-starting a stalled
alternator that did not have access to the ship's
battery. On the military versions of the 337, we
had tach generators (3-phase PM devices) that were
fitted with rectifiers and push-buttons to do the
same thing and eliminate the need for batteries.
Here, we have an opportunity to go a step further
and modify the regulator's performance such that
it never quite goes to sleep and eliminate the
need for pilot intervention to kick-start the
system. If you can assist in conduction of this
experiment, we can prove/disprove my hypothesis
and perhaps generate an article that will help
others slay this dragon too.
Bob . . .
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