10KVA Tesla Coil and other messages

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Msg#: 1846 Date: 10-05-93 12:54

From: Richard Quick

To: David Tiefenbrunn

Subj: 10KVA Tesla Coil

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I get some good results, not many people can hold a candle to it.

Need to move into a warehouse with some headroom and more power.

A dedicated substation would be nice... RQ

DT> Where are you running this thing now, out of curiosity?

DT> Don't the neighbors complain about the RFI?

DT> Do you have any pictures or .GIF files of this unit in

DT> action?

I run either in the garage for low power tests, or set up outside

in the back driveway for the real high powered stuff. I have had

no RFI complaints, but have had complaints about the noise: the

spark gaps sound much like an unmuffled chainsaw run flat out,

wide open. I made peace, and am allowed to fire up until 10 P.M.

with a days notice. But no more 2-3 A.M. testing...

> I have used forced air cooling (ozone city) with good results

> up to about 5 KVA. RQ

DT> Have you tried cooling the air before it is blown into the

DT> spark gap? You could run the air (I'm assumeing that your

DT> using an air compressor) through a coil of copper tubing in

DT> your ice bath. The best part is when the air expands as it

DT> is blown into the gap, it will cool further. (basic physics

DT> of gasses type stuff)

I cool using forced air from a 220V industrial shop vac motor in

my old set of gaps, the new gaps are quenched by air blast from a

3.5 HP air compressor. The problem is the CFM of air flow

required is so large that I don't think pre-cooling is pratical.

It would require another design modification. The expanding air

alone works pretty well. The real advantage to high speed forced

air is that it not only cools, but it physically disrupts the

high voltage arc, assisting the rotary in making the break.

Your idea for a forced air cooled rotary gap was excellent. The

only problem I see is in engineering the units to specs close

enough to get excellent performance and safety. My rotors are

dynamically balanced to 5000 RPM, and break rates need to be 450

BPS or better for good operation. In designing a rotating break I

try to keep the mass as low as possible on the rim: when they

come apart they resemble an explosion, with lots of hot shrapnel

and plenty of arcs and sparks!

> The research goes into several directions...Anybody know how

> to get lightning to excite a gas laser tube? RQ

This was misunderstood by severl people. Specifically what I was

wondering about was the possibility of using the oscillator

output (which is similar to lightning) to excite a monopolar (one

wire input) gas laser tube.

DT> Do you know what the mix is in a standard NeHe laser tube?

No. I am not an expert on lasers. But I am more than willing to

learn. I am open to input from anybody with experiance.

RQ> ... And if all else fails... Put another megavolt through

RQ> it.

DT> With your equipment, it sounds like you actually could...

Absolutely, positively. Though I can't figure out how to make a

RF voltmeter that would not be utterly consumed by the output of

my machines. My guess is between 3 - 5 million volts output with

the setup we have been discussing.

As for proof. Yes, I can supply proof. I have some still photos

taken at about 3600 watts which are very impressive. But as my

work progressed I switched over to recording the experiments on

video tape so I can analysize the tests in the safety and comfort

of my living room. If anybody writes me I will happily provide

a two hour video tape in exchange for: One blank (high quality)

VHS tape, a postage pre-paid return mailer, $10.00 to pay for my

time and effort in seeing that you get a high quality, two hour,

recording of my work. Note this offer is not made on my behalf to

make any money, and I am not resposible for anybody's safety

should they decide to replicate any of the experiments I perform.

I will send a glossy print for $1.00 and a SASE.

Richard T. Quick II, 10028 Manchester Rd., Suite 253, Glendale,

Missouri, 63122, USA

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Msg#: 1971 Date:10-09-93 16:29

From: Richard Quick

To: Guy Daugherty

Subj: 10KVA Tesla Coil

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GD> I'd say if they're working that well for you, they're hardly

GD> junk. Is there, uh, any point to this stuff, or just

GD> blasting electrons across the ether?

Yes, there is a purpose. Actually more than a few.

High power particle accelerators is one. The typical linear

accelerator of the 30's and 40's were RF powered. They abandoned

the coils as they were not sufficently frequency stable, and the

output was damped as opposed to continous wave. But, a book was

published last year: NICKOLA TESLA ON HIS WORK WITH ALTERNATING

CURRENTS AND THEIR APPLICATION TO WIRELESS TELEGRAPHY, TELEPHONY,

AND TRANSMISSION OF POWER. Leland Anderson, Sun Publishing,

available through 21st Century Books, P.O. Box 2001,

Breckenridge, CO. 80424.

This work is the result of research into the files of several law

firms dating back to around 1915. Tesla was called to give

depositions for three days to prepare for patent trials against

the Marconi Company. Tesla clearly documented priority in

frequency stablized continous wave signal production and radio

signal transmission (and reception) on multiplexed circuits as

early as 1891. All of Marconi's patents pertaining to radio were

overturned by the U.S. Supreme Court in 1942 or 1943. The key to

this is that Tesla's work in this area was extremely advanced,

and most of it has yet to be applied to high powered accelerator

work. His systems of continous wave RF current production with

very high potentials is easily adapted to small, high powered,

linear particle accelerators. The peak powers of his Colorado

Spings machine (built, tested, and documented in 1899) exceeds

all but the largest accelerators in existance today. By the way,

the Tesla system is continous, and the modern systems are pulsed.

The misunderstanding is damped vs. undamped wave production. The

machine is capable of both, though the famous photos were taken

when the machine was set up to produce damped (disruptive) waves.

I don't think anybody really understood what Tesla was doing,

certainly he never clearly explained it until I read the work

above.

In addition to this, a moderately sized machine should be capable

of doing research into power transmission through earth resonate

ground currents at frequencies under 30 khz (see document above).

Later Tesla realized the particle accelerator potential of the

machine and designed a power head for a particle beam weapon

using the magnifier circuit as the signal generator. Lasers were

not invented yet when Tesla died, but I believe a low impedance

coil system can supply enormous peak powers to gas laser tubes.

The Maser is a derivitive of this line of investgation, though

the frequencies of operation are much higher than can be supplied

from a coil system, the idea is exactly the same. Use a tuned gas

laser tube as a cavity resonator excited by the RF output of the

coil system.

Then there is ball lightning research...

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Msg#: 125 Date: 10-09-93 22:35

From: Dave Halliday

To: Richard Quick

Subj: 10KVA Tesla Coil

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>a two hour video tape in exchange for: One blank (high quality)

>VHS tape, a postage pre-paid return mailer, $10.00 to pay for my

>time and effort in seeing that you get a high quality, two hour,

>recording of my work. Note this offer is not made on my behalf to

>make any money, and I am not resposible for anybody's safety

>should they decide to replicate any of the experiments I perform.

>I will send a glossy print for $1.00 and a SASE.

RQ>Richard T. Quick II, 10028 Manchester Rd., Suite 253, Glendale,

>Missouri, 63122, USA

Two comments:

1) - What IS your monthly electrical bill

2) - The $10 is in the mail Monday

have been a wee fan of Tesla for a looong time - talking with some

people now about maybe building a BIG one out in Seattle - have done a

few small ones

b QMPro 1.51 b 10... 9... 8... 7... 6... (Bo Derek getting older).

-!- WM v3.10/92-0434

! Origin: Advanced Software Concepts-WC3.90P-15.8,301-794-6496

(1:109/546)

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Msg#: 2001 Date:10-10-93 16:33

From: Richard Quick

To: David Bearrow

Subj: 10KVA Tesla Coil

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DB> How did you go about winding your coil? What are the specs?

DB> And how much did it cost?

The first step in winding a coil is to select a coil form. The

coil form should be a low loss material (we are talking RF

losses) like polyethylene, polystyrene, or polypropylene: but the

most common material is PVC plastic drain pipe (thinnest wall is

best) which is high loss. I used a section of PVC thin wall flume

duct.

Ratios of coil height to width are important. Small coils work

best with aspect ratios (height to width) around 5:1 - 4:1,

larger coils (over 8" diam.) have aspect ratios around 3:1. Now

we are talking about the actual winding length here, so allow an

extra inch or so of coil form on each end. Determine the length

required and cut the ends square.

The form must be sanded smooth of surface imperfections, dried

thoroughly, and if PVC is used, it must be sealed. A good sealer

is polyurethane, another is two part epoxy paint. By sealing the

surface of the PVC before you wind on wire you can negate the

excessive losses in PVC plastic coil forms. If necessary the coil

form may be sanded after the sealer had dried.

The coil should be wound with good quality magnet wire. I use

double Formvar enamel coated magnet wire. Magnet wire gives you

maximum inductance. A coil should have over 900 turns, but not

too much over 1000 turns. There is a little leeway here. Select a

gauge of wire which will allow the aspect ratio and number of

turns to fall within this range.

I plug the ends of the coil form and run a dowel through a center

hole so that it will spin. I set up the wire spool on one end of

a pair of sawhorses, and the coil form on the other end. I wind

the wire on by hand, making sure the windings are tight, smooth,

and even. I use a dab of hot glue or tape to hold the first turns

in place, and make sure to leave a tail of wire at either end.

Once the coil is wound, it is sealed to prevent corona leakage

and breakdown. I use the same sealers mentioned above. Coats of

sealer are applied until there are no ridges and valleys in the

wire. In other words the coats must build up until the wire is

completely imbedded in sealer.

The wound, sealed, coil is capped at both ends with plexiglas

plates glued down with epoxy. I cut circles out of plexi sheet

that is about the same thickness as the coil form. I rough up the

surface around the edges to give the epoxy a bite. One small hole

may be drilled into the bottom end plate to allow the air

pressure to equalize, but under no circumstances should any other

holes be drilled. The wire is never allowed inside the form.

I have numerous coils, my largest coil has specs as follows:

10.5" O.D. thin wall PVC flume duct, the coil form is 34" high.

The coil is wound with #21 magnet wire, 1024 turns, actual

winding length is 32", aspect ratio 3.05:1. The coil is sealed

with eight coats of polyurethane on top of the wire and five

coats under the wire so that the wire is not in contact with the

PVC but is suspended in sealer.

Coils take time more than anything to construct. I suppose the

material cost for my 10" coil is around $60.00. Smaller coils are

cheaper of course. What can be expensive is putting together the

rest of the oscillator components. Things like HV pulse

capacitors, xfrmrs, and power controllers like variacs. Beginners

can usually start with a few old neon sign xfrmrs, make some caps

(homemade salt water caps are very cheap) or buy some used, and

fire a small coil for under $150.00 from start to finish.

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Msg#: 2098 Date: 10-12-93 18:29

From: Bud Davis

To: Richard Quick

Subj: Re: 10kva Tesla Coil

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>In a message of <Oct 09 20:51>, Richard Quick (1:100/4) writes:

> A twenty-two megawat continuious fire gas laser...

BD> I just picked up this thread a week ago, your recent postings

BD> are saved to a file...This is very interesting!

MF> 22 MW is your input, with typical gas laser efficiency you'd

MF> be lucky to squeek a (one) measly MegaWatt out. Just enough

MF> to cut through armor at a few inches per second, or mabey a

MF> foot of steel. Don't know about lunar soil. Some gasses

MF> don't scale well to high powers, CO2 would probably be

MF> the best candidate.

>I kind of thought CO2 was the way to go, but I was not sure. I

>have not had much experience with high powered gas lasers,

>though I did build a ruby rod laser in high school powered by a

>xenon flash tube. I can't find the rod anywhere now...

BD>CO2 is a good choice for high power. I'm not sure which

BD>transition level for CO2 is used for lasing but I could find

BD>out.

>I have a feeling that with a properly designed system though,

>the efficiencies could get considerably greater. My assumption

>is based on some experiments which show that RF excites gases

>much more easily than high voltage, high currents, or both.

>Telsa went on and on about the advantages of using RF when

>energizing gasses.

BD> A Soviet researcher named Kapitza developed RF devices with

BD> plasma temperatures high enough to fuse hydrogen! They used a

BD> cylindrical resonant chamber driven by a room full of tuned

BD> circuits, the high temperature was observed in a corona

BD> discharge along the axis...I guess it went on the back burner

BD> along with the tokomak.

BD> Hmm...stick a CO2 filled tube in a properly sized RF

BD> resonator... a few mirrors, heat sinks...

BD> I wish I had your original post. :-(

BD> ! Origin: Wendell Woodworking BBS(508)544-2402 (1:321/154)

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Msg#: 2097 Date:10-13-93 00:46

From: Richard Quick

To: David Bearrow

Subj: 10KVA Tesla Coil

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>> The coil should be wound with good quality magnet wire. I use

>> double Formvar enamel coated magnet wire. Magnet wire gives

>> you maximum inductance. A coil should have over 900 turns,

>> but not too much over 1000 turns. There is a little leeway

>> here. Select a gauge of wire which will allow the aspect

>> ratio and number of turns to fall within this range.

DB> Did you calculate this so that the capacitive reactance

DB> equals the inductive reactance? I understood thats what was

DB> so interesting about Tesla's coils.

No. The balancing act that you are referring to occurs in the

primary tank circuit. High voltage pulse discharging capacitance

(capacitive reactance) is made to balance off the heavy primary

coil (inductive reactance). The primary coil is made to very low

resistance; like HEAVY cable, strap, or soft copper water pipe.

The inductive reactance is "canceled" by the capacitive

reactance, and a very low resistance "tank" is formed where heavy

currents can oscillate with low loss. In order to excite the tank

circuit, high voltage feed lines are brought in to charge the

capacitors. Voltage rise in the capacitors (as they charge)

breaks down the main system spark gap, and bang, the tank fires.

Currents of hundreds of amps, with voltages in the thousands of

volts, ring through the Tesla Tank Circuit.

The energy delivered can easily reach peak powers in the megawat

range. Since the main system spark gap fires hundreds of times

per second, these high peak powers are, for most practical

purposes, continuous. This primary circuit energy is transmited

through inductive coupling to the Tesla Secondary.

The secondary coil that I described in the quoted post is NOT a

balanced coil. On the contrary, this coil is pushing the extreme

of several design limits in the quest for more efficient power

processing. The secondary coil, wound as I instructed, results in

a very high inductance coil; but it has a significant internal

capacitance and resistance due to the closeness of the windings,

the length of the wire, and the number of turns.

The high inductance makes the secondary effective. The higher the

inductance, the more energy can be absorbed from the primary tank

circuit.

Resistance and internal capacitance limit the Tesla secondary for

obvious reasons. Current, especially RF current, reacts poorly to

resistance, which gets worse in small diameter wire. Internal

Capacitance in a coil also reduces throughput, as the capacitance

in the turns of wire slow the current peak.

Designing a potent Tesla secondary balances the maximum

inductance (a positive factor) against the resistance and

internal capacitance (negitive factors). It takes into account

the need for "critical coupling" between the primary and

secondary (for good energy transfer), resistance of the wire,

internal capacitance between turns, and the breakdown voltages of

the construction. The design given is well researched and proven.

> BUT THE COIL IS UNBALANCED!!! YOU SAID SO ABOVE!!!

Yes, it is VERY unbalanced. Yes, the Tesla circuit depends on

balance for maximum efficiency. The high inductance of the

secondary is balanced by the addition of a large (even huge) top

capacitance. Donut shaped dischargers, called toroids, are used

as a large capacitive air terminal. This air terminal capacitance

"unloads" the secondary, and allows for current flow through the

high inductance coil. The secondary coil, as I instructed, will

not function well without an effective discharger; a capacitive

reactance to balance it. Without it the coil will not survive

much input energy and will self destruct. We have just pushed the

limits with modern plastics in 1/4 wave Tesla oscillators.

Back to the primary; the circuit is tuned. By changing the

location of the tank circuit "tap" connection to the primary, the

frequency of the circuit is altered. The more turns, the lower

the frequency. The secondary coil acts like an antenna. This wire

when excited by the primary, vibrates electrically, and produces

a quarter wave signal. The frequency is primarily a function of

wire length and the capacity of the discharger. The primary and

secondary are both adjusted to operate at the same frequency. So

there is a lot of balancing going on.

By the way, I make my toroids out of 4-6" ridged flexible black

polyproplyene drain pipe. I make a circle and mount some

cardboard or thin masonite in the center, then cover the thing

with aluminum plumbers tape, and foil glued with adhesive spray.

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Msg#: 2135 Date:10-14-93 10:57

From: Richard Quick

To: Bud Davis

Subj: Re: 10kva Tesla Coil

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BD> CO2 is a good choice for high power. I'm not sure which

BD> transition level for CO2 is used for lasing but I could find

BD> out.

RQ> Please check into it and let us know what turns up.

>I have a feeling that with a properly designed system though,

>the efficiencies could get considerably greater. My assumption

>is based on some experiments which show that RF excites gases

>much more easily than high voltage, high currents, or both.

>Telsa went on and on about the advantages of using RF when

>energizing gasses.

BD> A Soviet researcher named Kapitza developed RF devices with

BD> plasma temperatures high enough to fuse hydrogen! They used

BD> a cylindrical resonant chamber driven by a room full of

BD> tuned circuits, the high temperature was observed in a

BD> corona discharge along the axis...I guess it went on the

BD> back burner along with the tokomak.

I really feel that there is a lot of uncovered work in areas such

as this. The publication I refered to last week (A transcription

of a legal deposistion Tesla gave in 1916, over a period of three

days) is only a year in print. Using some of the ideas that Tesla

presented in this deposistion in work such this has not been

done.

BD> Hmm...stick a CO2 filled tube in a properly sized RF

BD> resonator... a few mirrors, heat sinks...

Yup, very close to my thoughts. Tesla states that low pressure

gas, being highly conductive to RF, can be used as the actual

resonator. So take a properly sized resonator, fill it with CO2,

a few mirrors, heat sinks...

The actual resonator can be the laser tube, and losses can really

be cut down. This is exactally how a MASER works, but needs to be

scaled up for low frequency work. I have been wondering about the

addition of a short coil to the resonate chamber to bring the

frequency down, thereby keeping the size of the resonate chamber

under control.

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Msg#: 2138 Date:10-14-93 16:53

From: Richard Quick

To: Bud Davis

Subj: 10KVA Tesla Coil

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P.S.

I would also be very interested in the source material for the

information you relayed on the Russian RF work. Experiments of

this nature (using RF inputs to excite tuned resonators) is

exactly along the line that my future work will be heading.

I don't know how much of this thread you were able to pick up in

a week (I have seen a lot of posts indicating new boards getting

this echo in the past week) but I am currently running and

improving very high powered equipment. Experiments of this nature

are not at all beyond my means. I have all of the power

controller circuits, the capacitors, and the HV xfrmrs. I am

developing a new liquid cooled, air blast gap to run in series

with my rotary, and I have plenty of coils, both primaries and

secondaries.

I have constructed and fired small Tesla Magnifiers in the 2.5

KVA power range, and feel (like Tesla did) that the magnifier

circuit is a clear and away breakthrough in RF power processing

efficiency. A properly designed and constructed Tesla Magnifier

system easily achieves 70% efficiency, and can be brought up to

over 90% efficient in larger systems. They will produce and

process damped and undamped (continuous wave) signals depending

on the setup and power supply. The currents and voltages this

circuit will handle are nothing short of mind boggling.

The Magnifier is designed specifically to drive a 1/4 wave

resonator, whether it be helical (coil), coaxial, or cavity,

makes no difference. I doubt that the Russian was using a large

magnifier to drive the resonator in the experiment you mentioned.

James & Kenneth Corum (PhDs) did not publish the mathematical

treatise of the Tesla Magnifier until just a few years ago, and

until the treatise was published, nobody was able to get the free

resonator to function properly as part of the lumped, tuned

circuit. These problems have been worked on and resolved by very

few people since. I can count myself as one of the half dozen or

so who have publicly documented success.

My best guess is that the Russian was using a large tube powered

RF signal generator to drive a coaxial resonator. I think that if

the experiment were redesigned, it could be done much cheaper, at

much higher powers and efficiencies, with a Tesla Magnifier

driver circuit. Tesla went on and on about this stuff too, nobody

listened then, and few listen today; hell, people ask me all the

time why I chase such "impracticalities". They don't understand

that Tesla was so far ahead of his time that we still haven't

caught up! My guess is that we stand today where Tesla stood in

1898, as far as RF power processing efficiencies are concerned.

But photos or data from the Russian experiment would be

invaluable for any work in this direction. What did he use for a

transmission line? How did he introduce the signal into the

resonator? From having done a little work with helical resonators

to produce large voltages at very high currents, I realize

technique is half the battle. Any additional information on this

work would be appreciated.

As for what you missed, well it can't be as much as what is most

likely still to come. Stay tuned!!! And feel free to ask about

anything you don't understand.

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Msg#: 1981 Date: 10-16-93 18:39

From: Richard Quick

To: Ron Beam

Subj: 10KVA Tesla Coil

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>On Oct 10 16:33 93, Richard Quick of 1:100/4 wrote:

>Coils take time more than anything to construct. I suppose

>the material cost for my 10" coil is around $60.00. Smaller

>coils are cheaper of course. What can be expensive is

>putting together the rest of the oscillator components.

>Things like HV pulse capacitors, xfrmrs, and power

>controllers like variacs. Beginners can usually start with a

>few old neon sign xfrmrs, make some caps (homemade salt

>water caps are very cheap) or buy some used, and fire a

>small coil for under $150.00 from start to finish. RQ

>Richard, do you know what frequency (if not 60Hz) and voltage

>should be used for a coil such as you mentioned?

Frequency and voltage entirely depend on the aims of the

designer/builder. Since none of these systems are purchased

(nearly every component handcrafted) they can be built to nearly

any specification desired (within reason). Frequency, input &

ouput voltages, current, and impedance are just some of the

variables. The idea with a Tesla coil system is to covert 60

cycle line current into RF with very high efficiencies. My 10"

secondary coil has a natural 1/4 wave resonate frequency of 132.5

KHZ. I use a power distribution transformer run backwards (put

240 in and get HV out) to step up my line voltage to ~20,000

volts. This input RMS voltage is converted into RF (say 132.5

KHZ) by the Tesla Tank Circuit. The high frequency conversion is

achieved as a property of capacitve discharge through a coil

(tuned oscillating circuit). The main system spark gap acts as a

high voltage switch which allows the capacitor to charge over a

period of time, then discharge nearly instantaneously. Because of

the pulse discharge, the RF generated in the tank circuit has

much greater peak power than the HV feed line from the step up

transformer. The grounded secondary coil receives the EMF from

the primary and converts the energy back into electricity (air

core RF transformer). Since the secondary coil has a much greater

number of windings the voltage is stepped up considerably.

> What does the coil do (or look like) when you turn it on?

A 1/4 wave Tesla coil generates very long RF sparks that resemble

natural lighting in many aspects. These sparks do not need to

strike a grounded object but can terminate in air.

>What can a person do with such a device once constructed? Does

>it have any practical purpose other than to amuse your friends?

I first began to build small 1/4 wave (spark generating) Tesla

coils for fun. I loved the light show, and so did my friends. As

I gained experiance in building coils I realized that most of the

"plans" were full of inaccuracies. I began to design my own

systems to increase efficiency. As my interest and experiance

grew, I discovered more advanced coil systems that Tesla designed

(the Tesla Magnifier) and began initial research into other

areas: particle acceleration, lasers, wireless power

transmission, and particle beams. I am planning on making a very

serious study in these areas in the next few years.

Dave Archer is a painter in California who uses a Tesla coil to

electrically spread paint. He places his canvas on a grounded

plate and directs the Tesla discharge over it. The resulting

paintings are regularly featured as space backgrounds and hanging

art on Star Trek TNG, Omni Magazine and several other publica-

tions, as well as private collections. Tesla coils were also used

in the time travel scenes in both Terminator movies, and are re-

emerging in the special effects industry because they photograph

well and the sparks are more realistic than computer generation

or animation.

Two years ago a man (I don't have his name handy) was issued a

patent for a thermo-couple using a Telsa discharge.

Tesla coils were used in the first induction heaters, and were

employed medically for the treatment of arthritis and other joint

and muscle problems. The same coil could be adjusted to generate

sufficient voltage to produce X-Rays, and as such a Tesla coil

was a standard medical instrument in Dr's offices in the early

1900s. Nearly all of the first high quality X-Rays were produced

with Tesla driven X-Ray tubes until the 1930's. The first self

cauterizing "electric scalpels" were electrified with a Tesla

coil.

A Tesla coil is in your monitor (flyback transformer). Tesla

coils were also an important part of the first radio

transmitters. My feeling is that the Tesla coil has a major place

in modern physics, but has not been fully evaluated.

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Msg#: 1983 Date:10-16-93 21:30

From: Richard Quick

To: All

Subj: 10KVA Tesla Coil

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This thread seems to be getting a lot of attention and responses.

I will try to give some basics here, and answer a few questions.

The modern 1/4 wave Tesla coil (sweet and simple, though there

are other configurations) is an oscillator driven, air core

resonate transformer.

The oscillating tank circuit drives the secondary coil. The tank

circuit consists of pulse discharging capacitors, air gap (break)

and the primary coil. In my previous post I said the setups are

very flexible, so I will focus on specs for the 10KVA coil.

The primary coil is wound from a single 100' length of 1/2" soft

copper water pipe placed on plexiglas stand off insulators. The

inside turn starts at 14" in diameter, and the turns wind

outward to form a flat pancake spiral, like the grooves on a

phonograph record. The outside turn is 36" diam.. There are a

total of 15 turns in this coil, spacing between turns is 1/4".

There are many ways to place the gap and capacitance in the tank

circuit. I like the "balanced" circuit Tesla developed in

Colorado Springs for his monster machine. In the balanced circuit

the capacitance is divided into two equal parts and placed on the

ends of the primary coil. The gap is placed across the HV feed

line feeding the caps.

I own two .1 mfd 45 kvac pulse discharging capacitors. These two

custom commercial units were purchased to supplement my 14

homemade polyethylene/aluminum flashing/mineral oil units rated

at .02 mfd 10 kvac pulse. With the 10 KVA coil I use these two

commercial "caps". In the balanced circuit the capacitance is run

in series with the primary, so the actual operating capacitance

is only .05 mfd..

I connect one cap to the inside turn terminal of the primary.

The second cap is connected to a movable "tap" lead which can

clip to any location on the heavy primary coil. By moving the tap

lead, the primary coil inductance is varied, and the tank circuit

frequency can be changed.

With one capacitor terminal connected to each end of the primary,

I still have two free capacitor terminals. Across these terminals

I place the gap, and the HV feed lines.

When HV 60 cycle current is fed to the capacitors they charge. As

the voltage rises, tension builds in the air gap. When the

tension is sufficient, the gap breaks down and the capacitors are

discharged rapidly. This spark gap acts as a high voltage switch.

When the gap is open, the capacitors charge. When the gap fires,

the caps are discharged in a pulse. Because of the voltage and

currents involved, the gaps on larger coils employ a rotary

break, almost exactly like a large car distributor at high speed.

This pulse discharging produces a large current (over 1000a@20kv

in my system) from a modest transformer output (.5 amp @ 20kv).

The pulse "rings" from capacitor plate, through the coil, to the

second capacitor plate; and back again.

The frequency of the "ring" (oscillation) depends on the size of

the cap, and the inductance (# of turns) in the coil. Since my

capacitance is fixed, the coil size (inductance) is varied by

moving the tap to a different location. In this fashion the spark

gap oscillator is tuned. The parameters of this particular system

allows frequencies from ~200 - 57 KHZ.

Now the secondary coil (specs in previous post) has a natural

frequency of 132.5 KHZ. I load the secondary coil with top

capacitance, most commonly a toroid shaped conductive terminal.

This lowers the natural frequency of the sec. coil. My best

results were obtained using a 40" diam. X 4" thick toroid

discharger, lowering the frequency of the coil from 132.5 kHz to

79 kHz.

The secondary coil with discharger is placed upright in the

center of the primary coil. The secondary coil base wire is

ground to a heavy, dedicated, RF ground. The air terminal is of

course the other connection.

By tuning the frequency of the primary tank circuit to match the

frequency of the secondary coil, energy is transferred from

primary coil to secondary coil thorough mutual induction. This is

much like a common transformer, but at these frequencies an iron

core is wasteful.

... If all else fails... Put another megavolt through it.

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Msg#: 1984 Date:10-16-93 21:54

From: Richard Quick

To: All

Subj: 10KVA Tesla Coil

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10KVA Tesla Coil cont.

In essence the primary coil is an inductive RF transmitter, and

the grounded secondary coil is an inductive RF receiver.

The secondary coil receives the energy from the primary and

become electrically excited. The coil develops a 1/4 standing

wave of the system frequency, hence "1/4 wave" Tesla coil, or

"1/4 wave helical resonator" are descriptive terms. What that

means is that the potential at the base of the coil (ground) is

"zero". The voltage rises up the coil until you reach maximum

potential at the top. This is essential to producing good spark.

If you look at a sine wave of one complete oscillation you will

see half of the wave above the "X" axis, and half of the wave

below the "X" axis. The point where the sine wave crosses the "X"

axis is ground potential or "zero" voltage.

On the "Y" axis you will find the peaks of the sine wave located

at the 1/4 points of the wave length. These "Y" axis peaks are

the locations of the maximum voltage. The "X" axis crossings

("zero" volts) are the locations of maximum current in the wave.

So to come back to lay terms, the base of the excited Tesla

secondary is at ground potential, but there is a lot of RF

current flow. For the coil to operate, this current must be

removed, hence a heavy RF ground is required.

The top of the coil is the high voltage end, where the 1/4 wave

voltage peak is located. Since the voltage is RF, and the

discharge terminal is air insulated, the voltage simply breaks

down the air. Large sparks and streamers and corona leave the

discharger in a display unequalled by anything else in my

experience.

The high voltage can be trapped in the system by adding

discharger capacitance until the spark will not break out. Energy

is constantly fed into the coil from the primary, and the only

escape is through radiation or the ground wire. Radiation alone

simply cannot remove the energy in the coil, so massive currents

are forced into the ground. This forms the basis of Tesla's

system for wireless power transmission.

Experiments confirming his ideas can be performed with small

coils. I took a single 6" Tesla secondary, no primary or tank

circuit, just a coil and a discharger; and walked over a quarter

mile, to a nearby creek. I grounded the coil by placing 10' of

aluminum flashing in the creek water. Back in my basement, an

assistant fired a Tesla coil that operated at the same frequency

as my "free" coil in the creek. The system being fired was loaded

with discharger, so spark could not break out.

Down in the creek I was able to light bulbs from the top of the

grounded coil, despite the 1/4 mile distance (and don't forget a

creek bank and a rebar wall) between my location and the power

supply. This coil was not receiving radiated signal, it was

resonating on base fed ground current.

Coils can be forced to operate at frequencies other than the

natural 1/4 wave by top loading "extra" coils or other resonators

on the end of the system. Tesla used this more complex "Magnifier

Coil" circuit in the Colorado Springs machine. In the Magnifier,

the secondary coil is forced to resonate at 1/8th, 1/16th,

1/32nd, or any other harmonic of the system frequency. A

transmission line is used to take CURRENT from the secondary to a

RESONATOR located away from the primary/secondary driver system.

The resonator may be helical (coil), coaxial, or cavity. In this

way the Tesla system may be used as an efficient driver for

experiments in other areas of physics. I have wondered about the

possible use of a tuned cavity resonate laser tube, or linear

particle accelerator. Another guy told me about a Russian using

coaxial resonators for fusion.

Tesla built a system for the worldwide transmission of electrical

power by top loading the "extra" coil (a base fed 1/4 wave

helical resonator) so spark would not break out. This forced the

tremendous energy to ground. He tuned the system so that the

ground current was also earth resonate. This was a double ended

resonator system of very high efficiency. The earth acted as a

cavity resonator on the base (for the ground current) the extra

coil was a helical resonator a with radiating discharger in the

air. He stated the system was to be used as a multiplexed

wireless transmitter from both the ground and air terminals (he

had tuning and harmonic coils in the ground path).

... If all else fails... Put another megavolt through it.

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Msg#: 2110 Date:10-20-93 00:18

From: Richard Quick

To: All

Subj: 10KVA Tesla Coil

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OK, back on topic.

I just dug up a catalog for some more source material. This one

is the Tesla Book Company, P.O. Box 121873, Chula Vista, CA.

91912. They have a 1-800-398-2056 information, catalog, and

ordering service. They carry a book "VACUUM TUBE TESLA COILS",

and I believe that this is the same book that I am going to be

referring to. The Book I am looking at, VACUUM TUBE TESLA COILS,

is written by James & Kenneth Corum. You may also contact Corum &

Associates, Inc. at 8551 State Route 534, Windsor, OH. 44099. I

have met the Corums, they are for real.

I see some other publications worthy of note in this catalog:

TESLA COIL DESIGNER is a computer program written by my friend

Walt Noon, I use this program to determine ball park frequencies

and inductances in mathematical simulation before I wind any

coil. This software is menu driven and Walt has been very helpful

in working out the bugs and adding features with me. It works and

saves hours of designing time.

I see an entry here for Dr. Nickola Tesla's Diary 1899-1900. This

was the time Tesla spent in Colorado Springs working on his

monster oscillator, but this does not sound like the preferred

reference, THE COLORADO SPRINGS NOTES which includes most of the

printable photographs of the lab and the machine. However, the

original prints of this work (as I look at my copy) are from

NOLIT, in Belgrad, Yugoslavia, and are now expensive. 21st

Century Books has copies, P.O.Box 2001, 100 South Ridge St. #101,

Breckenridge, CO. 80424-2001, tel. 303-453-9293, but they want

$100.00 where I paid $45.00 a few years back. I will have to take

better care of mine...

Both of these companies sell "new age science", "zero point

energy" and "scalar wave" material; which in my opinion is

garbage and not worth the paper the printing is on.

Now the Corum book which I will talk about briefly, is a piece of

hard core electronics engineer stuff, but it is worth trying to

muck through for those who don't believe coil driven RF equipment

can have "practical" uses in physics and electronics. It contains

most of the important facts on "A Technical Analysis of the Extra

Coil as a Slow Wave Helical Resonator". This refers of course to

the function of the "extra" coil in Tesla's Colorado Springs

machine. But the book is much more. Tesla driven X-Ray machines,

tapped coaxial helical resonators, particle accelerators, cavity

resonators, etc.

The book has charts and diagrams even the most novice electronics

buff would understand sandwiched between pages of calculus needed

to design and construct the equipment. One page (XI-10) shows the

development of conducting electrical resonators from Lord Kelvin

through Tesla, to Schumann's verification of the earth as an

electrical cavity resonator in 1952.

Books of this quality are rare, and make excellent reading for

anybody interested in high energy electronics. It has an

excellent bibliography.

In searching for material to lead to coil powered high energy

devices I can say that this points to the right directions.

"The coaxial geometries do have the advantage of compactness and

portability. And, this may be of significance to those interested

in directed energy devices."

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Msg#: 2109 Date:10-20-93 21:35

From: Richard Quick

To: All

Subj: 10KVA Tesla Coil

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A couple of weeks ago someone posted me some "new to me"

information about Russian RF resonator work that resulted in a

machine capable of fusion. I asked for some additional

information on this subject, and as of yet I have not heard back.

However, I have done some delving of my own and came up with some

very interesting information about this guy (P.L. Kapitza). I

stumbled across the name doing some related research (yes this

thread is based in fact, and Tesla's work has practical apps)...

His name is Peter L. Kapitza, and he shared in a Nobel Prize

in 1978 with Americans Arno Penzias and Robert W. Wilson for his

work in magnetism and the behavior of matter at extremely low

temperatures. His work on RF resonators was apparently done much

earlier, as I find a reference to "High Powered Electronics" in a

Russian periodical, Uspekhi Fizicheskikl Nauk, Vol 78 (November

2, 1962, pp. 181-265). In the same bibliography I find another

"more unusual" reference by physicist Jerzy R. Konieczny "New

Weapon 'X'" in a Polish periodical, Wojskowy Przeglad Lotniczy,

(November 2, 1963, pp. 72-75) apparently referring to a particle

beam device...

A little more research back to Kapitza, turned up Tesla's name in

a quote!!! (See Margaret Cheney, TESLA, MAN OUT OF TIME, pp.284,

Dorset Press, 1981, available from Barnes & Noble, 126 Fifth Ave,

New York, NY 10011, tel 201-767-7079)

The quote is too long to reproduced here (it refers to high

powered particle beams), but it clearly shows Kapitza was very

much aware of Tesla's work in this country. Tesla was, by the

way, the first to investigate "magnetism and the behavior of

matter at extremely low temperatures" in the search of super-

conductivity for his coils. Kapitza credits him.

Tesla lost a laboratory in New York, to fire, at 2:30 A.M., March

13, 1895. The fire is believed to have been caused as a result of

liquid air leaking from his equipment. Tesla stated to the fire

officials at the time that the air liquidation equipment was the

only thing left running in his absence. He used the liquid air to

cool his coils for experiments in high efficiency magnetism...

Now I'm not saying this means anything... but I keep finding

these references dancing around the subject of particle beam

weapons, fusion, high energy lasers, and power transmission

without wires. These are modern references mind you, not Tesla's;

but the deeper I dig, the more I find Tesla's name.

I am also finding out more information on involvement of

"National Security" interests in these references. I mentioned

about James & Kenneth Corum having a paper taken from them after

a presentation by the FBI. In Cheney's book (pp. 310) we find

this... "the U.S. government has deemed the material important to

national security and has been at great pains to conceal it's

existence." She is referring to all of Tesla's advanced (and of

course unpublished) research and papers taken into U.S. custody

at the time of his death.

Now I am sick to death of hearing about Tesla conspiracy, ad

nauseam. But I ask this based on fact (check em yourself). If the

work Tesla did in these areas does not yield workable devices,

then why would there be a "national security" interest? Tesla

laid the ground work for people like Kapitza, Konieczny, and our

own SDI projects.

Again, I will state that it is not illegal to build coils or

other resonators, lasers, particle accelerators, masers, rail

guns, etc. Though I sometimes feel that the government wants

everything but taxes made illegal.

I am still not able to locate any information in english on

Kapitza's RF resonator fusion machine. So whoever sent me the

post, please keep digging.

Now back to the topic...

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Msg#: 2133 Date: 10-21-93 17:41

From: Richard Quick

To: All

Subj: 10KVA Tesla Coil

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The Tesla Magnifier

What exactly is the Tesla Magnifier, and how does it differ from

the standard 1/4 wave Tesla Coil? This question has been asked

over and over in the past 93 years. I think I can give some

insight into this for a better understanding of the system. A lot

of the information I will present here (to the best of my knowl-

edge, feel free to prove me wrong) appears in text form for the

first time.

I have explained in some detail the set up and basic operation of

my 10KVA 1/4 wave system. To get a mental picture of how the

coils are physically positioned for firing in this 1/4 wave

system, imagine a 12" phonograph record, with a Quaker Oats

canister sitting upright on the center. The phonograph record

represents the wide flat primary coil, and the oats canister

represents the 1/4 wave secondary coil. The secondary coil would

be topped with a toroid shaped discharger.

These coils are "loosely coupled", "coupling" in coil systems

refers to the mutual inductance between primary and secondary.

The coupling is kept loose because these coils are capable of

such high energy transfers that the secondary is overdriven or

"split" if placed in too close proximity to the primary.

Splitting of the secondary is seen in coils that are over driven

or "over coupled". The excess energy absorbed in the secondary

coil causes a frequency split with the result that harmonic 1/4

wave voltage peaks appear in the secondary coil windings. These

harmonic peaks show up as sparks that break out from the

sides of the coil. If the coupling is not loosened, or input

powers reduced, the coil will be destroyed in short order.

This is a serious limiting factor in 1/4 wave Tesla systems.

"Critical" or perfect coupling limits the amount of energy that

can be processed through the system. Large toroid dischargers

assist in unloading the secondary, and allow for closer coupling,

but this is like treating the symptom, not effecting a cure.

The problem with the 1/4 wave coil system is that all of the

energy processed in the system remains trapped in the secondary

until it is removed by spark. As spark lengths and input powers

grow, so do coupling problems. Strain is also put on the tank

circuit. Energy can flow in both directions in the 1/4 wave

system, and secondary energies can unload not only in spark from

the discharge terminal, but can also flow back into the primary

tank circuit. This results in nightmarish problems "quenching"

the arc at the main system spark gaps. In theory no more than 50%

of the input energy can be converted into discharge off the

secondary air terminal, as both primary and secondary energies

equalize before a break can be effected at the main system spark

gap. Once the break (open, non-firing spark gap) is made, the

secondary energy is trapped, and must be radiated or discharged.

Tesla realized that critical coupling limited the efficiency of

the system, and came up with a unique solution. He added an

"extra" coil to the secondary. The extra coil is a normal 1/4

wave helical resonator, or Tesla secondary. The coil was placed

away from any inductive effects of the primary/secondary "driver"

coils, and was bottom fed by transmission line with the output of

the driver secondary. Tesla was able to determine certain

"harmonic" shifts in the system, but nobody else was able to

figure out what was happening for years and years.

What is happening is this. In order for the "extra" coil to

function properly it must be fed RF current that matches it's

natural 1/4 wave frequency. In order to provide a working system,

the output of the secondary driver coil in his three coil Mag-

nifier must be shifted away from it's normal 1/4 wave output.

The normal 1/4 wave output (high voltage peak) of the Tesla

secondary must be shifted to a lower harmonic in order for the

extra coil to receive current. If you base fed an extra coil with

1/4 wave voltage peaks, all you would get would be sparks from

the transmission line, and a fire at the base of an extra coil

(I've done it). Experiments, and review of Tesla work show that

the 1/8 wave harmonic is preferred. The extra coil will cause

some shifting of the driver coil output, but the system operates

best when THE DRIVER COIL IS WOUND WITH THE PROPER LENGTH OF WIRE

TO FACILITATE 1/8th WAVE OUTPUT.

This boosts efficiency in several ways. First, the energy in

1/8th wave output is about 20% greater than the energy of a 1/4

wave peak. The 1/8th wave location on the sine represents 70%

of the wave energy, as opposed to 50% of the energy at the 1/4

wave point; the 1/8 wave point being the product of both current

and voltage at this location on the sine. While this may seem a

little technical to the novice, a 20% gain is realized by

shifting the output to the lower, 1/8th wave harmonic.

The second increase in efficiency is due to the fact that the

secondary, or driver coil, is no longer responsible for the end

processing of the system energy. The majority of the resonate

rise, or VSWR, occurs in the uncoupled resonator located some

distance away, and fed by transmission line. The secondary is no

longer stressed by a high voltage point at the top of the coil,

and the current produced in the secondary is removed rapidly by

the transmission line to the end resonator (extra coil).

The third boost to efficiency is the ability to tighten the

coupling between the primary and secondary driver set. The coils

can be placed with much greater mutual inductance (tighter

coupling). Energy can then be forced into the driver in much

larger amounts without the problems of splitting and breakdown.

The coils can be arranged more like two nested buckets, with one

inside the other, as opposed to a phonograph record with an oats

canister on top.

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Msg#: 142 Date: 10-24-93 20:25

From: David Tiefenbrunn

To: Richard Quick

Subj: 10KVA Tesla Coil

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On 10-20-93 Richard Quick wrote to David Tiefenbrunn...

RQ> RQ> The following instructions are for a pulse discharging

RQ> RQ> capacitor with a .02 uf at 35 kvdc rating.

Thanks for the rest of the info.

I was talking to another engineer that I know,

and I mentioned your Tesla coil. He has a 150W

T-coil. We got to talking about spark gaps.

It seems there used to be a rather large industry

for them, back before vacuume tubes (and even larger

than 10KW). One type was basically a stack of convex

metal disks, with heatsink fins on the outside. The

disks were spaced rather close together (maybe .05"?)

but there were MANY in the stack. This spreads the heat

around. Maybe something like that with compressed air

cooling is a solution. I can try to get more info

if you want. He was also aware of *room* sized

spark gaps in use back then.

Dave

___

* OFFLINE 1.54 * I love the smell of ozone in the morning.

-!- Maximus 2.01wb

! Origin: Abbey Road BBS Higganum, Ct. USA (1:320/5967)

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Msg#: 139 Date: 10-26-93 11:57

From: Richard Quick

To: Dave Halliday

Subj: 10KVA Tesla Coil

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>a two hour video tape in exchange for: One blank (high

>quality) VHS tape, a postage pre-paid return mailer, $10.00 to

>pay for my time and effort in seeing that you get a high

>quality, two hour, recording of my work. Note this offer is

>not made on my behalf to make any money, and I am not

>resposible for anybody's safety should they decide to

>replicate any of the experiments I perform. I will send a

>glossy print for $1.00 and a SASE.

RQ>Richard T. Quick II, 10028 Manchester Rd., Suite 253,

>Glendale, Missouri, 63122, USA

DH> Two comments:

DH> 1) - What IS your monthly electrical bill

I'd rather not go into electric bills, let's just say it's going

to get worse...

DH> 2) - The $10 is in the mail Monday

I will be sure you get lots of Arcs & Sparks for your hard earned

money. I will get the tape out the following mail day. It would

help to know if you are more interested in seeing spark or

techinque.

DH> have been a wee fan of Tesla for a looong time - talking

DH> with some people now about maybe building a BIG one out in

DH> Seattle - have done a few small ones.

Big coils are a challenge. But I really think (and experiments

prove) that the Magnifier System is more efficient as you scale

up. Large 1/4 wave Tesla coils are not nearly as efficient.

Send me a post and let me know what you think of the video.

... If all else fails... Put another megavolt through it.

___ Blue Wave/QWK v2.12

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Msg#: 172 Date: 10-27-93 13:29

From: Richard Quick

To: David Tiefenbrunn

Subj: 10KVA Tesla Coil

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DT> Thanks for the rest of the info.

No problem, I hope you find it useful, I sure have. You don't see

plans for components like that everywhere.

DT> I was talking to another engineer that I know,

DT> and I mentioned your Tesla coil. He has a 150W

DT> T-coil. We got to talking about spark gaps.

DT> It seems there used to be a rather large industry

DT> for them, back before vacuum tubes (and even larger

DT> than 10KW). One type was basically a stack of convex

DT> metal disks, with heatsink fins on the outside. The

DT> disks were spaced rather close together (maybe .05"?)

DT> but there were MANY in the stack. This spreads the heat

DT> around. Maybe something like that with compressed air

DT> cooling is a solution. I can try to get more info

DT> if you want. He was also aware of *room* sized

DT> spark gaps in use back then.

I am always interested in more information. I live for the stuff.

As to the gaps you are describing, they are called "quench" gaps.

The metal discs are separated by gaskets of mica. The mica gasket

determines the gap distance between plates. The gasket prevents

air exchange, so as the gap breaks in, the O2 is consumed and

they run with in a nitrogen atmosphere.

These plates were machined to very close tolerances, and the

actual electrode surface was kept fairly small. The large plate

was used for a heat sink. The best gaps of this type were German

made by Telefunken.

The advantage of the quench gap is they produce a continuous wave

(undamped) oscillation in the tank circuit. They were employed in

the first long range Tesla transmitters. Most of the major ship

lines (with the exception of White Star I believe) used Tesla

transmitters with Telefunken quench gaps. Telefunken had

contracts with the shipping lines for gap service, and after so

many hours of operation the gap would be removed by a certified

Telefunken technician, cleaned and serviced. Per contract nobody

else was allowed to break the seals. Telefunken had facilities in

every major port.

Tesla used disruptive breaks in his demonstrations, but clearly

documented that continuous waves from quenched or CW gap systems

were used for transmission of electricty (both for power

transmission and radio). Now this is where is starts to get

interesting. 1/4 wave Tesla systems produce much less spark with

a quench gap, but they will light low pressure gas bulbs many

yards away, so they definately radiate much better. But the Tesla

Magnifier with a quench gap produces excellent spark, AND

radiates over long distances, especially if sparks are prevented

by loading it up with discharger.

The problem with high powered systems running quench gaps is as

you say, the gaps get huge, and you would almost need a cooling

tower to remove the heat. This heat represents high loss from the

tank circuit. Tesla solved this problem too, but the solution is

not well known. He began running multiple phases directly into

his oscillators, up to 6 phases in the experimental Colorado

Springs, and 4 phases in the commercial Wardenclyff plant on Long

Island. By using a quench gap system in series with a rotary

break running at very high speeds (40,000 BPS and possibly even

higher) he was able to obtain CW output from a disruptive (read

rotary) gap system. This way he was able to reduce loss, keep the

size under control, and still get CW output; at the same time he

was able to really increase the power processed by the system.

This is the type of system required for more advanced work with

coil powered directed energy devices.

... And if all else fails... Put another megavolt through it

___ Blue Wave/QWK v2.12

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Msg#: 200 Date: 10-30-93 09:52

From: Richard Quick

To: All

Subj: 10KVA Tesla Coil

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RQ>THIS POST MAY BE A REPEAT. MY SYSOP INFORMED MY 10/29/93 THAT

RQ>HE TURNED OFF ALL CONFERENCES FOR OUTGOING MAIL 10 DAYS AGO BY

RQ>MISTAKE. WHAT A MESS!