Tesla Coil: Difference between revisions
en>Hjmiii |
en>Hjmiii |
||
| Line 31: | Line 31: | ||
<div style="text-indent:75px"> | <div style="text-indent:75px"> | ||
A flat inductor used as a resonator within the LC tank circuit which is magnetically coupled to the secondary. Needs to be tuned with the main capacitor to the resonant frequency of the secondary LC circuit. | A flat inductor used as a resonator within the LC tank circuit which is magnetically coupled to the secondary. Needs to be tuned with the main capacitor to the resonant frequency of the secondary LC circuit. | ||
</div> | |||
====Materials Still Needed==== | ====Materials Still Needed==== | ||
*2 ft square of plywood to mount. | *2 ft square of plywood to mount. | ||
| Line 61: | Line 61: | ||
*Drill a hole and create the fixed primary connection at the innermost ring | *Drill a hole and create the fixed primary connection at the innermost ring | ||
*Connect to other primary circuit components | *Connect to other primary circuit components | ||
==Transformer== | ==Transformer== | ||
Revision as of 17:39, 13 October 2010
Project Synopsis
We would like to build a tesla coil for the mustache laser party (and beyond!)
Design Summary
Traditional Basic Tesla Coil Configuration:
File:Basictc.jpg
Our configuration:
File:Our coil.png
Estimated Voltage Output
The energy in the cap bank is 1/2 *C * V^2 when the spark gap fires. For our capacitor bank and a 12KVRMS transformer that will be 0.5 * 35nF * 16968V^2 = 5joules Assuming that the energy is coupled 100% to the secondary, which it will not be, the voltage gain can be calculated using the same equation on the secondary capacitance; A 16" pumpkin has a free space capacitance of 45.607pf. Solving for voltage using 5 joules, we now get: E = 1/2 *C * V^2 5 = 1/2 * 45.6pF*V^2 V = 468,292 Volts
Ballpark estimate as electric field shape and coupling to everything in the room will cause shifts from the ideal case.
Components
Secondary Coil
A secondary wound on an 8" piece of green PVC is already available for use. Actual coil measurements are 6.25" diameter, 22" high, and approx 28turns per inch.
Primary Coil (Harry)
A flat inductor used as a resonator within the LC tank circuit which is magnetically coupled to the secondary. Needs to be tuned with the main capacitor to the resonant frequency of the secondary LC circuit.
Materials Still Needed
- 2 ft square of plywood to mount.
- 6 x 1/4" nylon nuts and bolts for strike rail
Build Notes
Acquired Materials:
- 50' of 1/4" copper tubing (Lowes ~$25).
- A large 20"x12" HDPE kitchen cutting board (Frys $10)
- 10' of 3/8" copper tube for strike rail (Lowes $12)
- Medium battery clips for tapping point connection (Lowes $3)
Notes:
See DeepFriedNeon Primary Coil Page for example with images.
Cut the cutting board into six 20"x1" strips and drilled with 5/16" holes at .75" intervals for coil support rods.
To wind the copper tube through the rods place the tubing on a flat surface and arrange the tube into an approximation of the coil first. Then working from the innermost end of the coil and the outermost hole of the rods, thread the rods around the tube. It's important to pay attention to the inner ring diameter. This method may expand the inner diameter as you turn.
An additional series of holes were added to allow the creation of a strike rail to absorb any stray streamers that might hit the primary and damage the primary circuit components.
Measurements:Inner Diameter 11.5", Turn spacing .5", Number of Turns 10
To Do
- Acquire and mount the coil to plywood
- Construct strike rail.
- Drill a hole and create the fixed primary connection at the innermost ring
- Connect to other primary circuit components
Transformer
A 12KV 30mA neon sign transformer and an 12KV 60mA transformer are available for use.
Spark Gap (NEED)
Discharges the energy stored in the main capacitor into the tank circuit. Forms the trigger for the relaxation oscillator once the capacitor charges to a specific voltage.
Materials needed
10x 1/2" to 1" copper pipe sections attached to a flat surface lain in parallel to form multiple small gaps of 1/8" to 1/4". Tuneable to using aligator clips to select different sections of pipe.
Aligator clips
Note: Zach has supplied 2ft of 1/2" copper pipe.
Main Capacitor
Stores energy until a certain voltage is reached, then discharges through the main spark gap and sets up a resonance between the primary coil.
An exponentially decaying RF waveform is produced until the energy is dissapated, recharging begins at the next 60Hz peak (discharge is therefore at 120Hz).
We already have a 30nF 35KV maxwell pulse capacitor designed for high frequency use.
Protection Inductors (NEED)
Provides a high impedance to RF in order to contain the RF within the tank circuit. Allows 60hz to pass unimpeded.
Materials needed
Magnet wire and wooden dowel. Target 10mH. Separate winding layers with an insulator to keep arcs from forming between the input and the output (which will have kilovolt potential differences)
Note: Will has supplied dowels of about 1/2" dia. left near the lathe, and Zach has magnet wire on the floor near the lathe. Zach has supplied 3ft of 5/8" dowel as well.
- question: how many winding layers of how many turns each?
- As many side-by-side turns as you can fit in a 4 inch length, make three layers and measure the inductance. We will go from there!
- question: how many winding layers of how many turns each?
Protection Capacitors (NEED)
These shunt any RF energy that passes the RF chokes to ground instead of injecting it into the transformer secondary.
Materials needed
Two Old English 800 beer bottles, salt water, AL foil. Note: Jeremy Leung has supplied two OE 800 bottles
Protection Spark Gap (Jasper)
A simple tunable spark gap consisting of a grounded middle section with a gap on either side to each leg of the transformer's differential output.
Materials needed
Three pieces of threaded rod, 1 to 2" long and polished as round as possible (to provide an even E field and predictable breakdown voltage).
Set each into a small wooden slat and use the threaded nature of the rods to tune the gaps. Or something like that.
- Question: please elaborate on the construction/arrangement of the pieces, I.e. what do you mean by slat, how should the threading work, where do the rods go in relation to each other.
- All three pieces will be end to end with a support in the center of each piece and a gap between the sections. The support will have a hole in it to match the rod,
- so that it may be adjusted back and forth simply by rotating. It might make sense to center and tightly affix the centeral section.
- Question: please elaborate on the construction/arrangement of the pieces, I.e. what do you mean by slat, how should the threading work, where do the rods go in relation to each other.
Note: Zach has supplied 1/4"-20 threaded rod. Note: Jasper has finished the protection spark gap as of 10/10/2010
Discharge Terminal (NEED)
A smooth conductive surface to use as a capacitor in the LC secondary resonator assembly. A jack-O-electrons.
Materials needed
Pumpking, knife, evil
Reference
Wireless World - March 1995 - by Malcolm Watts
http://www.scribd.com/doc/12711857/tesla1
How Tesla Coils Work by Chris from The Geek Group:
http://www.youtube.com/watch?v=W_7fgcnzhmw
and
A Little Bit More In Depth on Resonance and Tesla Coil Basics by Chris:
http://www.youtube.com/watch?v=fT5_MmeSeDU&NR=1