Capacitive Discharge Motor
Capacitive Discharge Motor - J Snell
as previously seen at the Keelynet website
The following file relates to current experiments Jon Snell has been doing with the E.V. Gray capacitive discharge motor.
It starts with approximately 3kv charge on Cl. When Cl is fully charged and switch contacts are aligned, it fires through Ti and places a charge on C3.
T1's CEMF (counter or back electromotive force) is sent to C2, recovering a great portion of the charge. C3 is then fired through T3 for additional torque.
C2, at full charge, fires T2 and partially charges C4. T2's CEME is sent to Cl. C4 is then fired through T4 for additional torque.
This differs from Gray's system. He sends CEME pulses directly to the batteries. That's not really healthy for the plates. This circuit only accepts a small trickle of power from the outside to top off Cl and C2. It can then run a small generator or alternator circuit to provide current to charge the batteries.
Whatever power passes from Cl to C3 creates a magnetic field in T1, but NO CHARGE IS LOST while creating the field! Magnets DO NOT "consume" the electricity.
Make yourself a test set up. Use Two large low voltage Capacitors. Make sure one is about 1/2 the capacity of the other. Charge the smaller one fully and discharge it into the larger one. Take measurements ON BOTH before and after discharging them together to see how much power is transferred.
Now do the same with a small bulb in series as you discharge the small cap into the larger one. Measure the power levels in both caps. You will have had some light produced and some heat, but the WHOLE charge is transferred to the other capacitor!! !!!!
Reciprocating charges are most likely what the Statica machine is based on.
If you place a highly inductive electromagnet in place of the bulb in the example above, you'll have a magnetic field produced that doesn't "consume" any power. Heater elements can be used the same way! This proves that all electromagnetism, heat and light are produced in electrical circuits by the "zero point" energy and the electricity is just a catalyst!!!
WE'VE BEEN USING F/E IN ALL OUR ELECTRICAL DEVICES RIGHT FROM THE START WITHOUT EVEN REALIZING IT!!
This is not my discovery. I just gleaned it from a book from H.A. Industries. I tested the theory using the experiment above. It WORKS!!!
I think that F/E and overunity results are in the VERY near future. Please feel free to put the motor circuit in the public domain. Have fun!
T1, T2, T3, T4: High induction stator electromagnets
Diodes are all rated at >2x input voltage
Commutator switches (S1, S2, S3, S4) control magnet timing.
C3 and C4 should be twice the capacitance of Cl and C2.
Cl discharges and powers Ti and stores 1/2 charge in C3
C3 discharges remaining charge through T3
C2 discharges to power T2 and stores 1/2 charge in C4
C4 discharges remaining charge through T4
Magnets "fire" just as slug is approaching alignment, applying torque to rotor
Power supply is variable 1kv to 4kv A.C.
After startup, power supply only "tops off' Cl and C2 because most of the power is recirculated within the circuit.
Cap. Discharge Tests
Have tabulated the results of repeated tests. I think the variations are due mainly to how long it took to get readings. I wasn't using my best DMM, and believe that in taking the readings some charge was lost. (C2 was 2xlO,OOOuF paralleled - didn't take meter reading) With globe in place, it would flash quite brightly on closing 52.
With a motor in mind, hooked up an E/magnet to Capacitor, with a P/magnet attached to E/magnet. On discharge, the P/magnet shot away with great speed.
At any rate, here is the circuit and results. Regards, Glen
Without globe
Average 9.765 6.92
Total Voltage of Cl + C2 = 70.86% of undischarged Cl
With Globe
Average 9.75 6.915
original site http://www.linux-host.org/energy/sgcarter.html