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Re: [TCML] JavaTc file for current setup

To: Tesla Coil Mailing List <tesla@xxxxxxxxxx>
Subject: Re: [TCML] JavaTc file for current setup
From: jhowson4@xxxxxxxxxxx
Date: Sun, 14 Oct 2012 02:08:43 +0000 (UTC)
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Hey Jason, 

Thanks for the data, mind sharing some parameters of your cap? 


This is for my compilation of data, as to correlate rms currents to particular coil set ups. 




Thanks, 
John "Jay" Howson IV 



----- Original Message -----
From: "Jason Kerlin" <kerlinjason@xxxxxxxxx> 
To: tesla@xxxxxxxxxx 
Sent: Friday, October 12, 2012 9:34:15 PM 
Subject: [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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References:
- [TCML] JavaTc file for current setup
  - From: Jason Kerlin

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