h a l f b a k e r yThis would work fine, except in terms of success.
add, search, annotate, link, view, overview, recent, by name, random
news, help, about, links, report a problem
browse anonymously,
or get an account
and write.
register,
|
|
|
Please log in.
Before you can vote, you need to register.
Please log in or create an account.
|
In large volume networking systems it can be very difficult to track a cable through a mass of other identical cables to find the other end.
I propose that a strip of electro luminecent plastic(like indiglow) be molded into the cable sheath at time of manufacture. A small clip on device with pins
designed to pierce the sheath at designated points where the strip power feeds separate slightly provides power to the strip. This lights up the strip for the entire length of the cable. Such a system would allow the cable to be provided in rolls and cut to length on site with attachment points at 1 or 2 foot intervals.
Hackaday: Glowing patch cables
http://hackaday.com...owing-patch-cables/ "He states that this would allow easy identification of specific cables in the mess." [Spacecoyote, Mar 28 2009]
[link]
|
|
I have a feeling I've seen cables that can light up light that, though I can't for the life of me remember where. |
|
|
Electroluminescent cables do indeed exist. |
|
|
Consider a standard Cat5e UTP cable with RJ45's on the ends. If the cable sheath had striated EL components, the RJ45 could be adapted to make contact at the cable grip point. |
|
|
This is a really good idea, and would look soooooooo cool in a darkened server room ...... |
|
|
Yes, but what about equally standard
PL56's with either STD69's or TLA's on
each end? In this case, the EL components
won't get the power they need from the
SUV return line, and the whole system will
crash like a DC9 in an SS-Cat5. |
|
|
My thought on that Maxwell is that there would be areas located and standard intervals of say 1 foot where contact points are molded into the sheath on either side of the tracer. The power tool would simply strap around the cable,line up with the tracer and prick to contact the terminals. Come to think of it, you would not even need to have designated points, just have a 3 stranded tracer, the center being EL the to outer being the contact terminals, the tool just lines up and the connection is made bight tightening the tool up snuggly on the line, the points do not penetrate in to the inner core just the sheath. |
|
|
Are you getting power from the network cable? If so, there'd be a pulse of light as data is sent, which I think would look impressive. |
|
|
If the cables go to a router or some other single point, you could have a separate power source daisy-chained at that end, so they all light up. Design it to have brighter lights without draining power from the router, and still flash in sync with network activity. |
|
|
"In the news today, the World Wide Web has been crashed once again when a network engineer in Toledo, OH experienced a seizure from all the flashing cables. We now go live to the scene...." |
|
|
How about using a dye ?nano spheres? in the cable
casing that has a phosphorescence at a specific a
frequency. A special torch/laser that puts out
different frequencies would be needed. No
power, no interference. Different boxes of cable
would have to be used in the initial wiring or the
dye would need to be sprayed/wiped on. |
|
|
On second thoughts, all of these methods replace
the cable. |
|
|
How about a local shake/vibration placed on the
wire casing that can be tested for but doesn't
interfere. |
|
| |