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NANOG Digest, Vol 59, Issue 80
- Subject: NANOG Digest, Vol 59, Issue 80
- From: jakob.heitz at ericsson.com (Jakob Heitz)
- Date: Fri, 21 Dec 2012 21:19:49 +0000
- In-reply-to: <[email protected]>
- References: <[email protected]>
Voltage causes sparks, but...
Maybe you got the spark when you disconneted the wire.
In that case, you likely have a ground loop carrying
current and a long wire.
When you disconnect the wire, the current wants
to keep flowing due to loop inductance.
This causes the voltage spike and hence the spark.
> Date: Fri, 21 Dec 2012 14:14:29 -0600
> From: "Naslund, Steve" <SNaslund at medline.com>
> To: "George Herbert" <george.herbert at gmail.com>, "Matthew Kaufman"
> <matthew at matthew.at> Cc: nanog at nanog.org
> Subject: RE: Fiber only in DataCenters?
> <2A76E400AC84B845AAC35AA19F8E7A5D0DB3E9E1 at MUNEXBE1.medline.com>
> Content-Type: text/plain; charset="us-ascii"
> It takes a lot of voltage to cause an arcing spark. I would suspect
> static buildup along the way and bad grounding. Even a big facility
> with a good ground should not have enough voltage differential between
> grounding points to cause sparks. Having the right size rack
> grounding should give you a very low resistance to ground from any
> point. The most common problem I have seen in large facilities is
> multiple grounds
> that are not tied together or cables that are grounded at multiple
> points causing a loop current. It is critical that everything have a
> single ground, that includes racks, electrical distribution,
> cable tray,
> etc. Most Cat X cables are unshielded and do not have a ground
> conductor so you must have equipment at the same potential at
> both ends
> or you will get loop current for sure.
> As far as voltage in Cat X cables, the real factor is the current
> carrying capacity of a particular wire gage. It does not really matter
> whether it is Cat 6 or a coat hanger, current capacity is a
> function of
> cable cross section and what material it is made of. Copper has a
> specific resistance as do all other metals. A copper cable needs to
> have enough cross section to dissipate the heat generated by its
> resistance. A less conductive material requires more cross section to
> dissipate the increased heat. At extremely high voltages
> things become
> more complex because of the skin affect that causes the power to move
> through the outer parts of the cable more than the inner parts. These
> levels are not a factor in communications cables.
> The main factor for fiber over copper in data centers is all
> about cost.
> Most servers include copper connections and fiber costs
> something extra.
> For switches, the cost of the optics is significant. Fiber does help
> prevent damage due to surges or electrical faults but if these are a
> problem in your datacenter you have bigger fish to fry.
> Steven Naslund