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<font size=3>Allan:<br><br>
At the point of the short circuit, the amperage will exceed the rating of
a 100 amp feeder. If the main panel had no extra breaker spaces, it
could still be subject to a short circuit if, for example, a wrench is
dropped into it.<br><br>
I should add that I am not an electrical engineer nor am I trying to
justify the codes that apply. I am just trying to explain how I
see the codes are applied. It is necessary to understand this
to avoid incorrect system design and fruitless discussions with building
officials.<br><br>
William<br><br>
<br><br>
At 07:22 AM 8/2/2009, you wrote:<br>
</font><blockquote type=cite class=cite cite><font face="Times New Roman, Times" size=3>William,<br>
Wow – you’re a master at whipping up drawings!<br>
<br>
OK, I get the concept, and it’s just as I described. The scenarios in
drawings one and two are OK as long as both busbars are rated 150A
(commercial) or 125A (residential. <br>
<br>
You then show that the reason for the upsized feeders is to handle a
short. But wait! Even if the short could produce 140A, as you have
indicated, the conductors will still not carry more than the 100A that
they’re rated to carry. One would carry 100A from one panel and 40A from
the other, Nowhere would that conductor carry 140A, and the mate to it
would carry at most 60A. Increasing conductor size wouldn’t change
anything in that (or any) scenario. So why would you have to increase
conductor size?<br>
<br>
Thanks, Allan <br>
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<font face="tahoma" size=2><b>From:</b>
re-wrenches-bounces@lists.re-wrenches.org [<a href="mailto:re-wrenches-bounces@lists.re-wrenches.org" eudora="autourl">mailto:re-wrenches-bounces@lists.re-wrenches.org</a>] <b>On Behalf Of </b>William Miller<br>
<b>Sent:</b> Saturday, August 01, 2009 11:13 PM<br>
<b>To:</b> RE-wrenches<br>
<b>Subject:</b> Re: [RE-wrenches] down-sizing main breaker<br>
</font><font face="Times New Roman, Times" size=3> <br>
Allan:<br><br>
I whipped up three drawings that indicate three overload scenarios possible with incorrectly sized distribution equipment. They are on our web site at: <a href="http://millersolar.com/case_studies/case_studies.html%A0" eudora="autourl">http://millersolar.com/case_studies/case_studies.html </a> Click on Point of connection. Click on any drawing to see a larger version.<br><br>
I hope this helps with understanding the concept.<br><br>
William Miller</font></blockquote></body>
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