Pictorial of Parts
This is an explanation of the parts built up to create the necessary fields to confuse inertia / mass within an EMF bubble. To the left is a pictorial schematic of the high voltage capacitors I created from available materials. These are of the Leyden Jar type. The jars are PET 4lb or 1.82 kg size peanut butter jars. Lined inside and out with aluminum foil with copper electrodes that protrude through the lids. Two jars are attached butt to butt and wrapped with aluminum foil to create a double ended condenser with double the voltage resistance and higher capacitance with the outside skin at “0” or ground state for greater safety.
This configuration should resist 40kv per pair and is used as the capacitor inside of the LC unit or twitch coil.
This is also one of 7 units that provide the capacitance for the main driver coils.
LC Twitch Coil & Parts
Parts of theThe LC twitch coil
THE LC Twitch coil is built up on a jar condenser pair,wrapped with copper to shield the unit from the coil and then wrapped with FRP to create a shell for the coils. There is a main coil and short “shading” coil on the left on this unit. A ‘shading” coil is an unattached, shorted winding that slows the field buildup of the driven coil. It also slows the collapse of the driven field at that end of the coil. This causes the driven coils magnetic field to twitch as power cycles.
The twitch coil is connected at each end to the condenser electrodes and also connected to driving windings that are wrapped with the primary driver coils.
High Voltage Condenser & Parts
Parts of the HV Primary condenser
The primary condenser is the power driver for the primary coil and must withstand the return voltage spike of the magnetic field collapse pinch from the main coils as well as supply the electrical surge that drives the coils. In this case 7 of the condenser units are paralleled and wrapped in a copper shield and then wrapped in a FRP shell. See pictorial-schematic-of-device For a representation of the part and it’s place in the primary circuit.
Spark Gaps & Chokes
Parts – The Spark Gap & Driver Chokes
The spark gap is the “switch” that controls the charge / discharge of the main coils and condenser as well as limits the voltage spike that returns from the main driver coil. these may be exposed or shielded as needed for testing See pictorial-schematic-of-device For a representation of the part and it’s place in the primary circuit. There is also 2 “chokes” that further limit any voltage return spike against the driving power supply unit.
Flat spiral wound tesla coil with central pincushion termination
HV Coil with Pincushion plasma cone
The central part of this device is the flat wound spiral coil. This coil is created from about 1200ft of 14 gauge copper wire, 120 turns, at 5 turns to the inch, fixed with 5/32″ polypropylene rod welded to the 1/2 inch thick polypropylene deck. The insulation value between winding turns was tested to 40,000 volts. The coil center termination is a 8 inch disk with pins set in a 1/4 inch grid for 16 pins per inch square. The pincushion is inside a polypropylene forcing cone that terminates with a 2 inch plasma conduit.
continued with pictures of construction of shell pictorial-of-parts…page 2