💾 Archived View for spam.works › mirrors › textfiles › computers › tcad captured on 2023-12-28 at 17:22:30.

View Raw

More Information

⬅️ Previous capture (2023-06-14)

-=-=-=-=-=-=-

???
JN?         THEORETICAL ELECTROMAGNETIC STUDIES AND LEARNING ASSOCIATION 
                             522 WEST THIRD STREET 
                             LEADVILLE, CO  80461 
                                (719) 486-0133 
 
                     COMPUTER AIDED DESIGN OF TESLA COILS 
 
                                      BY 
                                  TOBY GROTZ 
 
             Coil Tuning & CAE Comparisons Of Three Similar Coils 
 
      Software  for Tesla Coil design has only recently  become  available.   
    Computer  Aided Engineering using appropriate software not  only  helps  
    during  the  initial  design  but  helps  to  refine  system  operating  
    characteristics.   We have used three programs for Tesla  Coil  design.   
    One  of  the  first  was developed by  Kovak1-7  and  was  written  for  
    Commodore-64,  Apple  II-e  and  Sharp  computers.   The  program   has  
    excellent graphics and contains separate sections on design theory  and  
    the mathematics of Tesla Coil design.  The program is supplemented with  
    a  video for VHS or BETA  which details design examples and use of  the  
    program.  (see TCBA NEWS Vol. 4, #1, pg. 3, 1985) One word of  caution:  
    the calculation for the resonant frequency of the secondary may  differ  
    from measured values by a significant amount.  This program provides an  
    excellent  introduction  into Tesla Coil design  and  construction  for  
    amateur experimenters and students beginning their study of Tesla  Coil  
    design,  but it does not take into account calculations for  the  extra  
    coil. 
 
      TSCAD   by   Robert  Jamison1-8  is  the   most   comprehensive   and  
    sophisticated  program  that  we have reviewed to  date.   The  program  
    features  improved  scaling for unusual conditions, an  expanded  entry  
    range,  and  comes with a comprehensive manual with  multiple  hardware  
    examples.   The program, in my opinion, is not for beginners,  but  for  
    experienced  builders  and  design engineers.  This  program  is  quite  
    versatile  in its ability to allow "what if" inputs.  The  main  screen  
    which  contains  the electrical and physical  parameters  permits  easy  
    entry  of  new  values and allows a designer  to  quickly  change  many  
    parameters  leading  to  a  fast and easy  design.   Help  screens  and  
    comments  are readily available as well a a built in  commentary  which  
    points  out design discrepancies and offers suggestions for  re-design.  
    After several sessions of running TSCAD, I remembered the first time  I  
    sat  down  at  a computer to run a Tesla Coil design  program.    I  am  
    amazed at how far Tesla Coil CAD has come in five years.  TSCAD  blends  
    the  art  of  Tesla Coil construction into the  science  of  electrical  
    design. 
 
      TCTUTOR  by James F. Corum and Kenneth L. Corum1-9 is a program  that  
    does  to  Tesla Coil design what the 6502 did for  personal  computing.  
    Running on a PC, the program will be appreciated by engineers, hardware  
    designers, and students of electrical power and RF theory.  The program  
    is  attractively and professionally packaged with a three  ring  binder  ?j??    that  con program instructions and a  comprehensive  dissertation,  
    Tesla  Coils  -  An RF Power Processing Tutorial  For  Engineers.   The  
    theory  of  Tesla  Coil design begins  with  elementary  principles  of  
    resonance and continues up through graduate level course work.  TCTUTOR  
    is  a  program  that  can  be used at  any  level  to  demonstrate  the  
    principles  under study.  The program calculates wave  forms,  spectral  
    power  distribution through the use of a fast fourier transform  (FFT),  
    and  performs Smith Chart calculations for the case of the extra  coil.  
    (Technically  the  Extra Coil is a quarter wave helical  resonator  and  
    mathematical  analysis  is  quite complicated)   If  or  when  wireless  
    transmission  of power is finally attempted, it is to be expected  that  
    TCTUTOR will play a part in the final design. 
 
      Because it is the only program that allows for Extra Coil design  and  
    analysis,  we have used TCTUTOR to compare and contrast three  of  the  
    largest Tesla Coils built to date.  The first, of course was  described  
    by Nikola Tesla in The Colorado Springs notes of 18991-10.  The  second  
    and  third  coils are those built in Colorado and  Utah  and  described  
    above.   Using the measured and assumed values in Table I,  print  outs  
    from  TCTUTOR show the voltage induced from primary  excitation,  the  
    Fourier  Spectrum of the induced voltage, and the final output  voltage  
    and extra coil characteristics, for all three cases. 
 
                                   TABLE I 
                                            Tesla - 1899   Utah   Colorado 
 
    Input Voltage (kv rms)                        70        44        45  
    Capacitance in Primary Circuit (C1 uf)      .127        .2      .177 
    Primary Resistance (R1 ohms)                   8         *         * 
    Primary Inductance (L1 uh)                    57        33        33 
    Secondary Inductance (L2 mH)                   9         9         9 
    Secondary Resistance (R2 ohms)                10         *         * 
    Secondary Capacitance (C2 pf)                300         *         * 
    Secondary Resonant Frequency (kHz)            97        64        64 
    Extra Coil Resonant Frequency                 92        94        94 
    Coefficient Of Coupling                       .6        .6         * 
 
      (*) indicates that the quantity was not measured, the default program  
    value  was  used in the analysis.  R1 & R2 are AC  resistances  at  the  
    frequency of operation.  Since minimal data was available for the  Utah  
    configuration1-11,  an assumption of values was based on the fact  that  
    the Colorado system had been built as close as possible to that used in  
    Utah, which in turn had been built electrically and physically as close  
    to  the the Colorado Springs design as possible.  The  coil  dimensions  
    were  the same and the length of wire used in the  primary,  secondary,  
    and  extra coil was the same.  As a matter of fact, the same wire  used  
    for  the  Utah  experiments  was used for  the  recent  experiments  in  
    Colorado. 
 
      Figures 1 - 9 show the computer analysis based on values presented in  
    Table  I.  The first four figures show the output of TCTUTOR  for  the  
    values Tesla used in 1899.  Figures 6 - 9 show the Fourier Spectrum and  
    the peak voltage induced in the secondary for both the Utah ( Figs 6  &  
    7) and Colorado (Figs 8 & 9) experiments. ?j?? 
    FIGURES - FROM TCTUTOR 
 
    Fig. 1.  Circuit diagram with values used by Tesla in 1899. 
    Fig. 2.  The equivalent lumped circuit of the secondary. 1899 
    Fig. 3.  Induced Secondary voltage vs. time. 1899 
    Fig. 4.  The Fourier Spectrum if the induced voltage. 1899 
    Fig. 5.  The final output from the extra coil with Smith Chart factors, 
             calculated voltage step up, and estimated spark length. 1899 
    Fig. 6.  Fourier Spectrum, Utah experiments. 
    Fig. 7.  Induced voltage, Utah experiments. 
    Fig. 8.  Fourier Spectrum, Colorado experiments. 
    Fig. 9.  Induced Voltage, Colorado experiments. 
 
    PHOTOGRAPHS 
 
    1. QUENCH GAP  Barrel covering top half is a safety measure in case  of  
    rupture due to ceramic failure while pressurized. (see text) 
    2. ROTARY BREAK turns at 7110 rpm and breaks 2370 times per second. 
    3. PRIMARY  AND  SECONDARY note height of primary  above  floor,  also  
    standoff  insulators and heavy wire used on the upper most turn of  the  
    secondary. 
    4. EXTRA COIL showing PVC construction and standoffs used on first  and  
    last turns, note also the sloped design used on the upper section. 
    5. CAPACITORS connected in series, total capacitance, .177 uf. 
    6. TRANSFORMERS used in step up step down step configuration. 
    7. SPARKS output from the extra coil. 
    8. TOWER constructed as described in the article, note size compared to  
    extra coil. 
 
      As  stated above, in the initial summary, two reasons for  poor  coil  
    performance  are given: over loading and poor tuning.  As can  be  seen  
    from the data obtained using TCTUTOR, the fact that the secondary  and  
    extra coil are tuned so far apart, contributes greatly to degraded coil  
    performance.  The supposition that the secondary and extra coil must be  
    "detuned"1-12,  in order for the system to work cannot be explained  by  
    the  author.   Any  explanations or suggestions  to  explain  this  oft  
    repeated statement would be appreciated. 
 
      In  the future, more accurate measurements will be made and the  coil  
    will  be properly tuned.  All parameters will be measured  and  checked  
    against   the  values  given  in  the  Colorado  Springs  notes.    The  
    observation  to be made here is the difference between the  experiments  
    of 1899 and those of Utah and Colorado.  As can be seen from the graphs  
    of  frequency  distribution,  Tesla's coil was a  masterpiece  of  fine  
    tuning. 
                                  FOOT NOTES 
 
    1-7.   Kovak,  Ron,  "Ball Lightning Research Via  Computer  Tesla  Coil 
    Design",  Astro  Electronics Corporation, 1165  Hancock,  Boulder,  CO,  
    (303) 444-5447.  (Also contains photographs and speculation about  Ball  
    Lightning) 
     ?j??    1-8.   TSCAD, Robert M. Jamison, 6809 Mayfield, #1554,  Mayfield  Hts.,  
    Ohio, 44124. 
 
    1-9.  TCTUTOR, Corum & Associates, 8551 State Route 534, Windsor, Ohio,  
    44099, (216) 272-5722. 
 
    1-10.  Nikola Tesla, Colorado Springs Notes, 1899-1900, Nolit, Beograd,  
    Yugoslavia, 1978. (Available from the Tesla Book Company) 
 
    1-11.  Golka, Bob, "Long Arc Simulated Attachment Testing Using A  150KW 
    Tesla Coil", Golka & Associates, 400 Warren Avenue, Brockton, MA 02403. 
 
    1-12.  Golka, 1987, 1988. 
     
    TESLA  BULLETIN  BOARD  SERVICE  (TESLA  BBS)  Networking,  results  of  
    research,  on  going  dialog etc. Supports  300/1200/2400  Baud,  Phone  
    Number 719-486-2775 data, 719-486-0133 voice. 
 






X-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-X
 Another file downloaded from:                     The NIRVANAnet(tm) Seven

 & the Temple of the Screaming Electron   Taipan Enigma        510/935-5845
 Burn This Flag                           Zardoz               408/363-9766
 realitycheck                             Poindexter Fortran   510/527-1662
 Lies Unlimited                           Mick Freen           801/278-2699
 The New Dork Sublime                     Biffnix              415/864-DORK
 The Shrine                               Rif Raf              206/794-6674
 Planet Mirth                             Simon Jester         510/786-6560

                          "Raw Data for Raw Nerves"
X-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-X