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[TCML] JavaTc file for current setup



Hello all,
    Here is the spec sheet for the coil as seen in my most recent videos.  I am hoping to have twice the capacitance on the coil in the spring, as well as a redisigned primary and a John Freau phase controller for my sg.  The sg isn't phased to optimum as I just put the plate on the motor and hoped it was close.  I have to obtain a variac for the controller and then I will construct it.  
 
I will be building my 6" coil back up soon so I can play with it through the winter months at my house.  My wife won't let me run the big one at home.  We live right in town and I don't want to scare my neighbors. Have a good day.
 
Jason Kerlin
 
  J A V A T C version 12.5 - CONSOLIDATED OUTPUT
Friday, October 12, 2012 8:12:16 PM
Units = Inches
Ambient Temp = 68°F
----------------------------------------------------
Surrounding Inputs:
----------------------------------------------------
150 = Ground Plane Radius
1000 = Wall Radius
1000 = Ceiling Height
----------------------------------------------------
Secondary Coil Inputs:
----------------------------------------------------
Current Profile = G.PROFILE_LOADED
5.125 = Radius 1
5.125 = Radius 2
24 = Height 1
60 = Height 2
1157.56 = Turns
21 = Wire Awg
----------------------------------------------------
Primary Coil Inputs:
----------------------------------------------------
Round Primary Conductor
7.25 = Radius 1
14 = Radius 2
21.25 = Height 1
21.25 = Height 2
11 = Turns
0.25 = Wire Diameter
0 = Ribbon Width 
0 = Ribbon Thickness 
0.0746 = Primary Cap (uF)
35 = Total Lead Length
0.3 = Lead Diameter
----------------------------------------------------
Top Load Inputs:
----------------------------------------------------
Toroid #1: minor=8.25, major=54, height=69, topload
Toroid #2: minor=6, major=37, height=69, topload
Disc #1: inside=0, outside=22, height=69, topload
----------------------------------------------------
Secondary Outputs:
----------------------------------------------------
65.63 kHz = Secondary Resonant Frequency
90 deg° = Angle of Secondary
36 inch = Length of Winding
32.2 inch = Turns Per Unit
0.00264 inch = Space Between Turns (edge to edge)
3106.2 ft = Length of Wire
3.51:1 = H/D Aspect Ratio
39.4418 Ohms = DC Resistance
36894 Ohms = Reactance at Resonance
7.62 lbs = Weight of Wire
89.47 mH = Les-Effective Series Inductance
90.239 mH = Lee-Equivalent Energy Inductance
87.551 mH = Ldc-Low Frequency Inductance
65.729 pF = Ces-Effective Shunt Capacitance
65.169 pF = Cee-Equivalent Energy Capacitance
85.67 pF = Cdc-Low Frequency Capacitance
11.28 mils = Skin Depth
58.045 pF = Topload Effective Capacitance
108.1308 Ohms = Effective AC Resistance
341 = Q
----------------------------------------------------
Primary Outputs:
----------------------------------------------------
63.21 kHz = Primary Resonant Frequency
3.69 % high = Percent Detuned
0 deg° = Angle of Primary
61.2 ft = Length of Wire
10.15 mOhms = DC Resistance
0.364 inch = Average spacing between turns (edge to edge)
3.336 inch = Proximity between coils
1.26 inch = Recommended minimum proximity between coils
84.028 µH = Ldc-Low Frequency Inductance
0.0692 µF = Cap size needed with Primary L (reference)
0.96 µH = Lead Length Inductance
316.659 µH = Lm-Mutual Inductance
0.117 k = Coupling Coefficient
0.148 k = Recommended Coupling Coefficient
8.55  = Number of half cycles for energy transfer at K
67.03 µs = Time for total energy transfer (ideal quench time)
----------------------------------------------------
Transformer Inputs:
----------------------------------------------------
240 [volts] = Transformer Rated Input Voltage
12470 [volts] = Transformer Rated Output Voltage
805 [mA] = Transformer Rated Output Current
60 [Hz] = Mains Frequency
240 [volts] = Transformer Applied Voltage
40 [amps] = Transformer Ballast Current
0 [ohms] = Measured Primary Resistance
0 [ohms] = Measured Secondary Resistance
----------------------------------------------------
Transformer Outputs:
----------------------------------------------------
10038 [volt*amps] = Rated Transformer VA
15491 [ohms] = Transformer Impedence
12470 [rms volts] = Effective Output Voltage
40 [rms amps] = Effective Transformer Primary Current
0.7698 [rms amps] = Effective Transformer Secondary Current
9600 [volt*amps] = Effective Input VA
0.1712 [uF] = Resonant Cap Size
0.2569 [uF] = Static gap LTR Cap Size
0.4465 [uF] = SRSG LTR Cap Size
462 [uF] = Power Factor Cap Size
17635 [peak volts] = Voltage Across Cap
44088 [peak volts] = Recommended Cap Voltage Rating
11.6 [joules] = Primary Cap Energy
525.5 [peak amps] = Primary Instantaneous Current
149.9 [inch] = Spark Length (JF equation using Resonance Research Corp. factors)
15.6 [peak amps] = Sec Base Current
----------------------------------------------------
Rotary Spark Gap Inputs:
----------------------------------------------------
1 = Number of Stationary Gaps
8 = Number of Rotating Electrodes
3600 [rpm] = Disc RPM
0.5 = Rotating Electrode Diameter
0.5 = Stationary Electrode Diameter
11 = Rotating Path Diameter
----------------------------------------------------
Rotary Spark Gap Outputs:
----------------------------------------------------
8 = Presentations Per Revolution
480 [BPS] = Breaks Per Second
117.8 [mph] = Rotational Speed
2.08 [ms] = RSG Firing Rate
6.042 [ms] = Time for Capacitor to Fully Charge
1.72 = Time Constant at Gap Conduction
482.29 [µs] = Electrode Mechanical Dwell Time
82.17 [%] = Percent Cp Charged When Gap Fires
14490 [peak volts] = Effective Cap Voltage
7.83 [joules] = Effective Cap Energy
490251 [peak volts] = Terminal Voltage
3759 [power] = Energy Across Gap
149.7 [inch] = RSG Spark Length (using energy equation)
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