For fellow hams that are thinking of making spark plug so called lightning
protectors...or static discharge units...I just homebrewed a set for my
600ohm feeders...cost of the small engine plugs were under 3 bucks for a
pair.
In my basement, I dug up a pair of auto battery terminal clamps which fit
the barrel of the plugs nicely. Even found a pair of large nuts to screw on
the bottom of the plugs for some protection.
I also found a pair of short barrel connectors..the type that are normally
used for joining condenser and rotary ceramic switch shafts together...they
fit the top of the plugs nicely. Will install it on the feeders in the am.
----- Original Message -----
From: "Bob McGraw - K4TAX" <RMcGraw@Blomand.net>
To: <tentec@contesting.com>
Sent: Monday, April 14, 2008 2:17 PM
Subject: Re: [TenTec] Ten Tec 238A settings?
> Forget about trying to protect from a direct lightning strike. That is
> not
> what I am saying or implying. Simply too much energy to dissipate. Won't
> happen. I've seen sections of Rohn 45G from a single tower and strike
> burned in to multiple pieces with the leg ends balled as a result of heat
> that actually melted the metal. Thus they burned and separated. The
> separations did not occur at the joints but in mid section. The tower
> came
> down. Also the original 500 ft self supporting tower at WSM-TV in
> Nashville took a hit of such intensity that one leg, being a 10" x 10"
> angel steel some 3/4" thick, bowed due to heat. Fortunately the tower
> didn't
> fall and was repaired. So the #10 or #12 or #14 wire that we use for
> antennas and feedlines will simply vaporize under these conditions. And
> this needs to take place OUTSIDE of your house.
>
> The idea with the spark plug is to use the "small engine" type plug not
> automotive plugs. There is a difference. Most small engine plugs do not
> have series resistors thus they are suitable for dissipating static
> electricity, the result of near-by lightning strikes or static buildup
> from
> wind or rain or snow. This can induce several thousand volts on the
> antenna
> which can be dissipated by the use of a spark gap made from a small engine
> spark plug.
>
> Of course commercial systems such as those by Polyphasor work great and
> are
> highly suggested. This assumes your budget will tolerate such and that
> they
> are correctly installed. With hard-line for feed line, add the cost of 2
> more connectors in addition to the Polyphasor. This then gets to be about
> $150 for lightning protection for each coax.
>
> For the "do it yourselfer" the spark plug approach works for balanced
> feedlines and can be done for under $10. If you wish to buy ready to
> install, these are available from The Wireman for $24.95.
> http://thewireman.com/ground.html#878
>
> 73
> Bob, K4TAX
>
>
>
>
>>>
>> An application hazard with spark plugs for the gap is that most plugs
>> sold today have series resistors, often 5 or 10K to minimize radio
>> interference from the running engine.
>>
>> Then the plug is made to handle a few amps. Maybe a 14 gauge but steel
>> conductor on the ground side of the gap. A direct lightning hit tends to
>> run a kiloamp to ten kiloamps. The plug won't stand that. For that
>> matter, wire antennas and feed lines tend to not survive direct hits,
>> especially feed lines.
>>
>> A little noticed rating for resistors is voltage. Not voltage based on
>> power dissipation, but voltage based on internal arc over. 1/2 watt
>> resistors are often rated at 250 volts. Unfortunately depending on
>> resistor construction and available energy that internal arc can either
>> short the resistor with a carbon path or blow it into two pieces.
>>
>> The benefit of resistive grounding is that static charge is dissipated
>> before the voltage rises to the arc over point of the spark gap
>> protection. And so receiving is quieter until there's nearby lightning.
>>
>> Polyphasors are expensive, but repeaters with Polyphasors on power and
>> antenna leads have run for decades without lightning damage. Polyphasors
>> have lower breakdown voltages than practical air gaps, but can handle
>> quite a bit of current. That lower breakdown voltage protects the
>> equipment much better than air gaps.
>>
>> I bring all my antennas to a patch panel with all the coaxes on type C
>> connectors. (Large bayonet). Its grounded outside. I unhook all
>> feedlines when there are storms in the neighborhood. The tower takes a
>> couple direct hits a year. And some of the equipment has been damaged
>> when I didn't maintain a large enough air gap between the outside
>> antenna wiring and the inside wiring.
>>
>> It is possible to develop good grounding and Polyphasor protection for
>> the radio station, part of which involves tying power, phone, and
>> antenna grounds together with a few feet of 12 or 18" wide copper strap
>> and running all coaxes and power wiring through Polyphasors.
>>
>> 73, Jerry, K0CQ
>>
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>
>
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