If you need assistance, please send an email to forum at 4hv dot org. To ensure your email is not marked as spam, please include the phrase "4hv help" in the subject line. You can also find assistance via IRC, at irc.shadowworld.net, room #hvcomm.
Support 4hv.org!
Donate:
4hv.org is hosted on a dedicated server. Unfortunately, this server costs and we rely on the help of site members to keep 4hv.org running. Please consider donating. We will place your name on the thanks list and you'll be helping to keep 4hv.org alive and free for everyone. Members whose names appear in red bold have donated recently. Green bold denotes those who have recently donated to keep the server carbon neutral.
Special Thanks To:
Aaron Holmes
Aaron Wheeler
Adam Horden
Alan Scrimgeour
Andre
Andrew Haynes
Anonymous000
asabase
Austin Weil
barney
Barry
Bert Hickman
Bill Kukowski
Blitzorn
Brandon Paradelas
Bruce Bowling
BubeeMike
Byong Park
Cesiumsponge
Chris F.
Chris Hooper
Corey Worthington
Derek Woodroffe
Dalus
Dan Strother
Daniel Davis
Daniel Uhrenholt
datasheetarchive
Dave Billington
Dave Marshall
David F.
Dennis Rogers
drelectrix
Dr. John Gudenas
Dr. Spark
E.TexasTesla
eastvoltresearch
Eirik Taylor
Erik Dyakov
Erlend^SE
Finn Hammer
Firebug24k
GalliumMan
Gary Peterson
George Slade
GhostNull
Gordon Mcknight
Graham Armitage
Grant
GreySoul
Henry H
IamSmooth
In memory of Leo Powning
Jacob Cash
James Howells
James Pawson
Jeff Greenfield
Jeff Thomas
Jesse Frost
Jim Mitchell
jlr134
Joe Mastroianni
John Forcina
John Oberg
John Willcutt
Jon Newcomb
klugesmith
Leslie Wright
Lutz Hoffman
Mads Barnkob
Martin King
Mats Karlsson
Matt Gibson
Matthew Guidry
mbd
Michael D'Angelo
Mikkel
mileswaldron
mister_rf
Neil Foster
Nick de Smith
Nick Soroka
nicklenorp
Nik
Norman Stanley
Patrick Coleman
Paul Brodie
Paul Jordan
Paul Montgomery
Ped
Peter Krogen
Peter Terren
PhilGood
Richard Feldman
Robert Bush
Royce Bailey
Scott Fusare
Scott Newman
smiffy
Stella
Steven Busic
Steve Conner
Steve Jones
Steve Ward
Sulaiman
Thomas Coyle
Thomas A. Wallace
Thomas W
Timo
Torch
Ulf Jonsson
vasil
Vaxian
vladi mazzilli
wastehl
Weston
William Kim
William N.
William Stehl
Wesley Venis
The aforementioned have contributed financially to the continuing triumph of 4hv.org. They are deserving of my most heartfelt thanks.
Registered Member #55076
Joined: Sat May 23 2015, 08:26AM
Location:
Posts: 20
First run of my rebuilt coil tonight and sadly disappointed, very weak streamers from a breakout point.
components are as follows 6 inch secondary thats roughly 27inch of winding, 6x24 inch toroid 10kv 50ma NST 44.3nF cap bank (20kv) synchronous rotary gap 200bps
I am out of my depth here and learning while I go thanks to forums like this and youtube
Earth p[points are fine so would retarding or advancing the gap help and what would a decent gap size be? it spark gap starts firing when I turn it up to about 180v
Registered Member #4074
Joined: Mon Aug 29 2011, 06:58AM
Location: Australia
Posts: 335
What's the resonant frequency of the primary and secondary circuits? JavaTC or similar can be used to calculate the resonant frequencies (and much more, like coupling) quickly.
Apart from tuning, have you noticed any odd behaviour? For example, is there noticeable heat in the capacitors? Can you see any inter-turn sparking on the secondary? Is there any metal inside the secondary coil former (which can lead to "hidden" discharges inside your coil, causing carbon tracking and low performance)?
Registered Member #55076
Joined: Sat May 23 2015, 08:26AM
Location:
Posts: 20
I'll have a look at javaTC when kids are napping No heat in caps, no sparking on secondary no metal inside former (made that mistake on my first 4 inch coil) I used teslamap to work out cap bank size
Registered Member #55076
Joined: Sat May 23 2015, 08:26AM
Location:
Posts: 20
GrantX wrote ...
What's the resonant frequency of the primary and secondary circuits? JavaTC or similar can be used to calculate the resonant frequencies (and much more, like coupling) quickly.
Apart from tuning, have you noticed any odd behaviour? For example, is there noticeable heat in the capacitors? Can you see any inter-turn sparking on the secondary? Is there any metal inside the secondary coil former (which can lead to "hidden" discharges inside your coil, causing carbon tracking and low performance)?
Assuming I've input everything right into JavaTC this is what I get
J A V A T C version 13.2 - CONSOLIDATED OUTPUT 14/04/2016, 14:41:50
-----------------------------------------
----------- Secondary Outputs: -----------------------------------------
----------- 259.72 kHz = Secondary Resonant Frequency 90 deg� = Angle of Secondary 26 inch = Length of Winding 30.7 inch = Turns Per Unit 0.00066 inch = Space Between Turns (edge to edge) 947 ft = Length of Wire 5.73:1 = H/D Aspect Ratio 9.5357 Ohms = DC Resistance 18731 Ohms = Reactance at Resonance 2.93 lbs = Weight of Wire 11.478 mH = Les-Effective Series Inductance 12.014 mH = Lee-Equivalent Energy Inductance 11.743 mH = Ldc-Low Frequency Inductance 32.715 pF = Ces-Effective Shunt Capacitance 31.257 pF = Cee-Equivalent Energy Capacitance 46.205 pF = Cdc-Low Frequency Capacitance 5.48 mils = Skin Depth 26.99 pF = Topload Effective Capacitance 57.7224 Ohms = Effective AC Resistance 325 = Q
-----------------------------------------------
----- Primary Outputs: -----------------------------------------
----------- 260.97 kHz = Primary Resonant Frequency 0.48 % low = Percent Detuned 0 deg� = Angle of Primary 13.02 ft = Length of Wire 1.41 mOhms = DC Resistance 0.417 inch = Average spacing between turns (edge to edge) 1.56 inch = Proximity between coils 1.01 inch = Recommended minimum proximity between coils 7.535 �H = Ldc-Low Frequency Inductance 0.04473 �F = Cap size needed with Primary L (reference) 0.861 �H = Lead Length Inductance 34.283 �H = Lm-Mutual Inductance 0.115 k = Coupling Coefficient 0.131 k = Recommended Coupling Coefficient 8.7 = Number of half cycles for energy transfer at K 16.52 �s = Time for total energy transfer (ideal quench time)
-------------------------------------------
--------- Transformer Inputs: ------------------------------------------
---------- 240 [volts] = Transformer Rated Input Voltage 10000 [volts] = Transformer Rated Output Voltage 50 [mA] = Transformer Rated Output Current 50 [Hz] = Mains Frequency 240 [volts] = Transformer Applied Voltage 0 [amps] = Transformer Ballast Current
-----------------------------------------
----------- Transformer Outputs: -----------------------------------------
----------- 500 [volt*amps] = Rated Transformer VA 200000 [ohms] = Transformer Impedence 10000 [rms volts] = Effective Output Voltage 2.08 [rms amps] = Effective Transformer Primary Current 0.05 [rms amps] = Effective Transformer Secondary Current 500 [volt*amps] = Effective Input VA 0.0159 [uF] = Resonant Cap Size 0.0239 [uF] = Static gap LTR Cap Size 0.0415 [uF] = SRSG LTR Cap Size 28 [uF] = Power Factor Cap Size 14142 [peak volts] = Voltage Across Cap 35355 [peak volts] = Recommended Cap Voltage Rating 4.43 [joules] = Primary Cap Energy 1084.4 [peak amps] = Primary Instantaneous Current 32.3 [inch] = Spark Length (JF equation using Resonance Research Corp. factors) 29.5 [peak amps] = Sec Base Current
-----------------------------------------
----------- Rotary Spark Gap Inputs: ------------------------------------------
---------- 1 = Number of Stationary Gaps 4 = Number of Rotating Electrodes 3000 [rpm] = Disc RPM 0.375 = Rotating Electrode Diameter 0.375 = Stationary Electrode Diameter 10.6 = Rotating Path Diameter
----------------------------------------
------------ Rotary Spark Gap Outputs: -----------------------------------------
----------- 4 = Presentations Per Revolution 200 [BPS] = Breaks Per Second 94.6 [mph] = Rotational Speed 5 [ms] = RSG Firing Rate 44.3 [ms] = Time for Capacitor to Fully Charge 0.56 = Time Constant at Gap Conduction 450.44 [µs] = Electrode Mechanical Dwell Time 43.13 [%] = Percent Cp Charged When Gap Fires 6099 [peak volts] = Effective Cap Voltage 0.82 [joules] = Effective Cap Energy 229604 [peak volts] = Terminal Voltage 165 [power] = Energy Across Gap 33.2 [inch] = RSG Spark Length (using energy equation)
---------------------------------------
------------- Static Spark Gap Inputs: ------------------------------------------
---------- 6 = Number of Electrodes 1.25 [inch] = Electrode Diameter 0.25 [inch] = Total Gap Spacing
-----------------------------------------
----------- Static Spark Gap Outputs: -----------------------------------------
----------- 0.05 [inch] = Gap Spacing Between Each Electrode 14142 [peak volts] = Charging Voltage 19414 [peak volts] = Arc Voltage 34822 [volts] = Voltage Gradient at Electrode 77654 [volts/inch] = Arc Voltage per unit 137.3 [%] = Percent Cp Charged When Gap Fires 427.227 [ms] = Time To Arc Voltage 2 [BPS] = Breaks Per Second 8.35 [joules] = Effective Cap Energy 730857 [peak volts] = Terminal Voltage 20 [power] = Energy Across Gap 26.1 [inch] = Static Gap Spark Length (using energy equation)
This site is powered by e107, which is released under the GNU GPL License. All work on this site, except where otherwise noted, is licensed under a Creative Commons Attribution-ShareAlike 2.5 License. By submitting any information to this site, you agree that anything submitted will be so licensed. Please read our Disclaimer and Policies page for information on your rights and responsibilities regarding this site.
weak sparks from a breakout point, help needed
