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0 degrees (flat)Sec Coil Mag Wire Gauge 24 AWG 0.5 mmSec Wire Weight 1.37 lbs 612 gSec Coil Winding Height 22 in 56 cmSec Coil Form Diameter 4.4 in 11 cmSecondary Coil Turns 972 972Sec Coil Height:Width Ratio 5:1 5:1Toroid Ring Diameter 4 in 11 cmToroid Total Diameter 16 in 40 cmWith the power supply listed above (15kV) and using a static spark gap, the primary capacitance (MMC) should be about 8.6nF (calculated with the TeslaMap program). The MMC should have enough capacitors in series for a minimum voltage rating of 15kV RMS * 1.414 = 21kV peak. It's a good idea to double the peak voltage rating to about 40kV. Using 0.15uF, 2kV caps, (Cornell Dubilier 942C20P15K-F) a string of 20 wired in series would have 7.5nF at 40kV (also calculated with the TeslaMap program), which is close enough for our needs.This design was generated with the TeslaMap program. The design file is available for download. Once downloaded, you can open, edit and save the design with the TeslaMap program. A complete design summary has also been exported to a txt file from the TeslaMap program, which can be downloaded and viewed in any text editor and most browsers.ConstructionTesla Coil Schematic (refer to website)The schematic shows a static spark gap. If you're using a rotary spark gap, simply replace the static gap (the wiring is the same). Older schematics sometimes invert the location of the spark gap and the primary coil. The Tesla coil will work in either configuration, but due to some technical reasons, the configuration shown in the schematic is preferred.The NST case should be grounded. There is some debate as the proper ground for the NST. Some advocate connecting it to RF ground, others think it should be connected to the mains ground. In the schematic I've shown a switch to indicate the ground could be attached to either. I personally lean toward connecting the NST to RF ground (earth ground), but you should make up your own mind.Power SupplyNeon sign transformers (NSTs) are the preferred power supplies. I'll mention some other types of power supplies later in this section. You should choose a transformer that supplies at least 5kV, otherwise you may have problems with the spark gap not firing.Solid state NSTs or recently manufactured NSTs that include a GFCI (ground fault circuit interrupter) circuit will not operate in a Tesla coil.If a NST has a GFCI (also known as a GFI or ground fault interrupter) circuit, it will "trip" or automatically shut off a NST when it detects an unusual current in the output of the NST. Unfortunately Tesla coils produce current spikes that frequently cause the GFCI circuit to shut off the NST, If you have a correction or suggestion by emailing me at: contact23 at teslacoildesign.com and I'll get back to you as soon as I can. This guide was written to be used in conjunction with the TeslaMap program. The TeslaMap program is the fastest and easiest way to design a Tesla coil. Several sample Tesla coil designs are included with the TeslaMap program. TeslaMap is ideal for quickly and easily generating a working Tesla coil design, however it is not a Tesla coil modeling program. A slightly more accurate program called JAVATC written by Bart Anderson can provide more detailed Tesla coil parameters, although it can be more difficult and time consuming to use. Through the guide I use this type of area for information that is potentially dangerous. Please pay careful attention to this information. Through the guide I use this type of area for information that can help you avoid common mistakes. Please feel free to email me at: contact23 at teslacoildesign.com if you have any questions or suggestions. Good luck building your Tesla coils!

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Me that most tabletop Tesla systems require capacitance in the low nano-farad range. I then used a program called TeslaMap to pinpoint my needs. TeslaMap is a spreadsheet style program. Your enter important data on your system--size of the primary and secondary coils, wire gauges, etc. and the program calculates your capacitance needs.For this Instructable I used four Sprague doorknob caps, each rated at 530 pico-farads at 20,000 volts. ("Doorknob," by the way, is merely a descriptive term. The capacitors look like squarish ceramic doorknobs.) Four caps in parallel gave me 1.97 nano-farads, which worked well with my small coil. The MMC is made simply by screwing 6/32 brass machine screws through strips of copper coated pipe strapping and into the screw terminals of the caps. Step 4: The Coils and the Candlestick Frame A Tesla coil consists two coils of copper wire. The primary coil is usually made from four to ten turns of fairly large gauge wire. On bigger coils it is common to use copper tubing or copper strip. The secondary coil is made from finer wire--in the case of this coil, 24 gauge magnet wire. Magnet wire is made for winding electromagnets in motors. It's insulated with a thin coating of enamel or plastic. The gauge of wire determines how many turns you'll get per inch of coil.For both coils you'll need a form to wrap the wire around. Secondaries are commonly wound on cardboard, PVC, or acrylic tubing. For a small coil cardboard is fine. It's lighter than PVC and easier to get than acrylic. These days primaries are often wound as flat coils, but in this Instructable I am using a 3.5 inch PVC pipe coupling to make a helical primary coil. The coupling is also 3.5 inches tall.Since the primary is smaller, let's. Download TeslaMap for free. TeslaMap is an advanced and powerful Tesla coil design program. LoanExpert Plus or JavaFoil, which might be related to TeslaMap.

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The by Kevin Wilson In conjunction with TeslaMap - Tesla Coil Design Program var sc_project=6850633; var sc_invisible=0; var sc_security="f2742ca7"; var sc_text=2; unique visitors since Dec 2009 --> © Kevin Wilson Introduction Welcome to the Tesla Coil Design, Construction and Operation Guide. I hope this guide will serve as a comprehensive step-by-step reference with easy to follow instructions. By following this guide you can build a Tesla coil capable of generating over 4' arcs of lightning. Design The guide will begin with a basic introduction to Tesla coils, how they operate and how to properly design one. This section mostly contains tedious equations and formulas used in the design process. Fortunately the use of software programs, like the TeslaMap Tesla coil design program can quickly and easily perform all the necessary calculations for you. If you decide to use a program, you can skip the design section and use it as a reference. This section will likely make more sense after reading the Construction section, which describes the Tesla coil parts in greater detail. Construction This section will guide you through the process of Tesla coil construction. I'll show you all the required parts and offer advice to help you avoid mistakes. Operation Finally, I'll explain how to set-up and adjust your Tesla coil for safe operation and maximum efficiency. I'll offer some troubleshooting tips to help you solve those little issues that often come up. This guide is intended for anyone with basic to advanced experience with electronics, some free time and a desire to create their own lightning. It's helpful to have some hands-on experience with electronics, but it's not necessarily required. This guide only covers traditional Tesla coils, not solid-state Tesla coils or magnifying Tesla coils. However, all types of Tesla coils share many common parts and principles of operation so this guide may still be used as a reference for other types of Tesla coils. I try to assure that all the information in this guide is correct, but research is continually producing new techniques and old ideas are being improved or discarded. Please let me know Publisher Description Welcome to Nikola Tesla's autobiography My Inventions. Tesla was 63 years old when this text was first published in the Electrical Experimenter magazine in 1919.I was taking electronics engineering classes in college when I first learned about Nikola Tesla. I discovered that Tesla developed several of the most important technologies we use today. I thought it strange that Tesla had contributed so much to the world; yet he's virtually unknown to most people. He's a true unsung hero. I became so interested in Tesla that I eventually built my own Tesla coil; I wrote a Tesla coil design program called TeslaMap and created the Tesla Coil Design; Construction and Operation Guide. But enough about me. GENRE Biographies & Memoirs RELEASED 2022 June 10 LANGUAGE EN English LENGTH 103 Pages PUBLISHER Prabhat Prakashan Pvt. Ltd. SELLER Prabhat Prakashan Private Limited SIZE 991.4 KB More Books Like This More Books by Nikola Tesla

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By the SRSG's bps rate.I have two pages on this site that deal with this subject: Resonant Charging (1) & Resonant Charging (2) Based on Richie's advice I therefore needed another four strings of capacitors bringing the total number being used to 216 (12 strings of 18 in series.The circular arrangement saved space and avoided having to rebuild the whole coil assembly where the existing capacitors are presently mounted.There are 76 capacitors in this MMC occupying a floor space of only eight inches diameter.The easiest way to assemble the strings when using this method is to construct them externally, and then put them in once assembled. They were then held in place by cable ties passing through holes drilled in the exterior.The finished auxiliary MMC measured 33.8nF (expected value was 33.3nF).The replacement of a single capacitor merely involves cutting all the cable ties that secure that column, and desoldering the string top and bottom. You can then easily work on the removed string to replace the faulty itemThe four strings each consist of eighteen in series. Each vertical column of capacitors consists of nine units with a link across the bottom to its corresponding partner on the other side.The coil to MMC connections are the two nuts that can be seen at the top at the 4'o'clock and 8'o'clock positions.There are several programs that will work out the overall value of a MMC's parallel / string arrangement for you. One of the best for MMC calculations is TeslaMap. It runs on Vista, XP 32 & 64 bit systems. In its menu goto 'View' >> 'MMC Calculator'.A very important thing to remember is to try and fit bleed resistors across each capacitor. I have used 10 Meg 0.5 Watt axial thick film resistors.(Farnell Order Code: 129-2582).The purpose of these is to

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Make it first. Be sure your PVC coil form is clean and dry. Around the center of the coupling wrap a single layer of double-sided carpet tape. This stuff is incredibly sticky, so take care and get it on straight. For wiring I used 10 gauge house wire with heavy THHN (plastic-nylon) insulation. TeslaMap calculated 6 turns would be optimal with my 2 nF capacitors. Given the circumference of the coupling, I figured I need about 6 feet of wire, plus a little more for the leads, so I got 6.5 feet of 10 gauge THHN wire. I wrapped this around the carpet tape, which helped hold it in place until I could further tack the wire down with a hot glue gun. I bent the leads out at about 90 degrees and attached No. 10 spade connectors to the ends. To help keep the leads from pulling loose I looped a few strands of a heavy rubber band around them.For the secondary I chose a heavy duty cardboard paper towel tube, 12 inches long and 1.75 inches in diameter. Cardboard must be sealed and insulated before you wind the wire on. I gave the tube two coats of shellac. Allow it to dry thoroughly between coats.About 1/2 an inch from one end of the dry, shellacked tube drill two little holes about 1/4 inch apart and parallel to the end of the tube. Thread the end of your 24 gauge magnet wire into, then back of the hole, leaving six to eight inches extra as your lead. Threading the secondary wire into the tube is considered a no-no by modern coilers, but old electrical books describe this method of anchoring the secondary. All you need to do is cover the small bit of wire inside the tube with a. Download TeslaMap for free. TeslaMap is an advanced and powerful Tesla coil design program. LoanExpert Plus or JavaFoil, which might be related to TeslaMap.

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Square or two of electric tape, and everything will be fine. I've used this method on several small coils, and never had a problem with it.Begin winding your wire. For a secondary this small, fancy jigs or winding frames seem unnecessary. Keep the wire taut (not too tight!) and wind it smoothly, row against row until you reach 1/2 an inch from the other end of the tube. Repeat the procedure of drilling two small holes. Cut off the wire, leaving a generous amount of lead, and thread it in and out of the holes. Tape the inside loop as before. On a 12 inch long tube, leaving 1/2 an inch of free space on either end, you end up with 11 inches of wire winding. According to TeslaMap, this gives you 515.9 turns, or 236.2 feet of wire. The next step is to seal the secondary coil. Paint or spray on a coat of polyurethane or shellac. This both improves the insulation on the wire and helps bind the coil in place. Once dry, give it another coat. Depending on how anal you are, you can give many more coats of varnish, but two is really sufficient. Some coilers encase their secondaries in thick layers of clear coating. While this undoubtedly improves insulation, etc., and looks impressive, it isn't really necessary for such a small coil. As a final anchor, wrap a layer or two of electrical tape around each end of the secondary winding.Now we need a frame to mount the two coils. You can use wood, well varnished, but not metal. I use PVC plumbing pipe. It's cheap and easy to work, and PVC is a good insulator.Here are the parts for my "candlestick" coil frame:about 24 inches of 1/2 inch PVC plumbing pipe (Schedule 40, white)1