Path: utzoo!utgpu!water!watmath!clyde!att!rutgers!gatech!ncar!ames!mailrus!purdue!decwrl!labrea!glacier!jbn From: jbn@glacier.STANFORD.EDU (John B. Nagle) Newsgroups: comp.sys.misc Subject: Re: Protecting computer equipment Message-ID: <17524@glacier.STANFORD.EDU> Date: 3 Jul 88 20:41:55 GMT References: <1188@gmu90x.UUCP> Reply-To: jbn@glacier.UUCP (John B. Nagle) Organization: Stanford University Lines: 31 Whenever someone discusses lightning protection and computers, they seem to conclude that full protection against a direct lightning strike on a power or phone line is hopeless. This is simply not so. Antenna towers are frequently struck by lightning; for some installations, it's a normal event, occuring hundreds of times a year. The problem can be solved. A serious lightning arrestor consists of several stages. The first is an air gap to ground, with big contacts spaced a short distance apart. Dime-sized silver contact faces are not uncommon. The connection to ground must be very heavy copper connected to a small farm of ground rods, which may also be tied to the ground of the electrical distribution system. The second stage is an inductor, to block the lightning surge and force it across the air gap to ground. This coil is typically just a few turns of copper busbar. In some cases, it's just a few loops of the normal power or coax cable. But tight turns of busbar inside a grounded metal can are better. The big energy having been dumped to ground, now we're ready for the usual "surge suppressor" electronics, the MOV devices and such. Heathkit used to sell a soup-can sized unit that contained stages 1 and 2 above, equipped with coax connectors on each end. But I don't know a good source for such things today. Try ham radio suppliers. This is exactly what is needed where an Ethernet cable enters a building. The ARRL Handbook, section 37-4, contains some useful information on lightning protection. John Nagle