| Simple
Rules for Producing Longest Sparks Using Minimum Power Input ! |
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( John Freau -1998 ) |
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More about TC efficiency theory at John's homepage: |
http://hometown.aol.com/FutureT/page5.html |
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| From: FutureT@aol.com [SMTP:FutureT@aol.com] |
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| Sent: Thursday, August 13, 1998 5:49 PM |
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| To: tesla@pupman.com |
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| These
rules may be helpful for some who may wish to experiment with sync-gaps at low break rates. |
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| In
a recent posting, I showed the better efficiency I obtained using these
methods. It is important to have |
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| a well matched system when using sync-gaps.
These rules are based on my 42" and 64" spark TC's. |
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| It should
be possible to scale the results up or down, by following these rules. These
rules are just a |
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| rough guide, and some slight non-linearities may be seen with up or down
scaling. Results will be |
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| affected by transformer losses, design
techniques, etc. These rules are based upon a square law for |
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| power versus spark-length scaling, which
seems to fit well with empirical results. |
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| 1, Quelles
est la long, d'étincelle voulue |
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1,22 |
m |
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| 2, La long,
d'étincelle/2,5 donne approx, le dia du tore |
0,49 |
m |
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| 3, Diviser la long,
d'étincelle par 10 |
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0,12 |
m |
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| donne la
grosseur du tore |
(Approximative) |
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| 4,
Puissance de l'alimentation |
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798 |
watts |
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| 5'. Mains Power frequency f = |
50 |
Hz, BPS = 2*f = |
100 |
breaks per second |
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| 5.
(Watts/BPS)/1.5= Joules/bang (the1.5 factor covers losses) |
5,32 |
Joules/bang |
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| 6.
Minimum rating for transformer = power input (watts) from (4) |
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| above, for non-shunted transformer.
(approx) |
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798 |
watts |
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| 7. Voltage
on capacitor, Vc = input voltage times 2.22 times |
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| transformer nameplate rms voltage
rating |
( = |
8 |
kV ), |
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| for resonant charging with some losses
thrown in. (approx) |
17,76 |
kV |
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| 9.
Capacitor size; C = 2 J/Vc^2 (joules from (5) above) (approx) |
0,033748 |
uF = |
33,75 |
nF |
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| 10. Spark
gap; synchronous rotary, |
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100 |
BPS |
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| 11.
Primary and secondary coils; use traditional designs. |
...but learn more at John's
homepage: |
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http://hometown.aol.com/FutureT/page5.html |
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| 12. Inductive ballast;
adjustable as needed. |
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| Let's try
an example, and aim for an 80" spark. 80/2.5 = 32" toroid dia. 80/10 = 8" = toroid thickness. |
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| (80/1.7)^2 = 2215 watts. (2215/120)/1.5 =
12.3 Joules/bang. Minimum non-shunted transformer rating = 2215watts. |
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| Voltage on capacitor, (assuming 14.4kV
transformer), Vc = 14.4kV * 2.22 =
~32kV. |
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| Cap size = (2 * 12.3)/32^2 = 0.024uF. |
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| For a small coil, aiming for a 20"
spark: 20/2.5 = 8" toroid, 20/10 = 2" toroid thickness. |
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| (20/1.7)^2 = 138 watts. (138/120)/1.5 = .77
Joulesper bang. Minimum non-shunted transformer rating = 138 watts. |
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| Voltage on capacitor, (assuming 10kV
transformer), Vc = 10kV * 2.22 = 22.2kV. |
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| Cap size = (2 * .77)/22.2^2 = 0.003uF. |
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| For a tiny TC, aiming for a 5" spark:
1/2" by 2" toroid, 8.65 watts, .048 joules/bang, assuming a 6kV
transformer, |
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| Vc = 13.32kV, C = .00054uF. It is unknown if
these rules will track "linearly" down to the small TC levels
above. |
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| Enjoy! ( John Freau 1998) |
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| New
spark length formulas, as of April 27th, 2000: |
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inches |
cm |
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| Spark
length (inches) = 1.8*sqrt power input (wallplug watts) |
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51 |
129 |
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| Spark
length = 5.8*sqrt power input / 4th root of the bps |
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52 |
132 |
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| Spark
length = (3.9*16th root of the power input*sqrt power input) / 4th root of
the bps |
53 |
134 |
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