US Pat 7053576 Energy Conversion Systems by Correa

"The motor response far exceeds the conventional input power, indicating that the whole system can be tuned to resonance such that optimal power capture inside the reactor takes place, the critical limit rate lying at around 60pps, when the motor response is firmly within the pulse response plateau. At this juncture, the break-even efficiency for the measured rates of energy flux over time reach 700% (overunity coefficient of 7), in keeping with the observations and the values we have made in the PAGD conversion system. In the proportional part of the curve, before the plateau is reached, even greater rates of break-even efficiency - up to >1000% were registered. The results constitute the first time we have been able to confirm the presence of output energy in excess of break-even over the conventional mass-bound evnergy input in the PAGD inverter system and the results are comparable to what we have observed and previously reported for the PAGD converter system."..pg29.

Similarity between Barrett and Meyl

OSC networks are inductive-reactive with two-way directional line feedback rather than resistive single-way directional line feedback, the latter being the mainstream approach to nonlinear devices. Pat5493691

Resonance Effect

Russian Alexander V. Frolov said, "In resonance, as you must know from college textbook, sources not the source of current, but it is the source of voltage only. It doesn't require current from source that doesn't require the power expense. "

The trick is spiral coil

"Reference articles are attached showing the use of “broadband spiral antennas” and phase conjugate mirrors for amplifying electromagnetic frequencies that make up quantum noise. The tunneling current in the diodes can also be influenced by the use of magnetic fields as low as 10 gauss as well."

Thomas Valone,"Proposed Use of Zero Bias Diode Arrays as Thermal Electric Noise Rectifiers and Non-Thermal Energy Harvesters.",Proceedings of Space, Propulsion and Energy Sciences International Forum (SPESIF), Feb 24 2009.

Adding Battery

I hooked up the AC source to the base and emitter of MJ21194 transistor. The collector is connected to the positive polarity of 12V 7Ah lead acid battery. The negative polarity of the battery to the positive side of coil B. The receiver side of coil B has no load connected. The power blow up the LED at the transmitter side of coil B. Note: There is no return ground to the AC source and the coil B negative polarity. Hooking up too long does not blow up the second LED but the 0 ohm resistor is putting out smoke.

My intention is to pump the battery without killing the dipole and observe battery does not die out.

Validating Meyl's Device

On coil B, at 13MHz, the LED at receiver side turns on and the transceiver side turns off. The measurement shows that there is overunity. This is verified by hooking on the same scope channel. (My scope has slight error on different channel) However, then i switched to AC load the power is so much less and no overunity. I wonder why the voltage can turn lower than Vf of LED when I used AC load. Hooking up the probe will turn off the LED and I have to invert the polarity. Could this probing cause the AC load to be low? I remember switching to AC load the transmitter LED turns on. When the probe sucks the power from receiver's LED did the transmitter LED turns on ? Answer: The scope connects the ground point between the channel. Hence, it affects the measurement when we change the polarity.
Coil B @14Mhz without the metal ball, when the transmitter primary and receiver load ground are connected, the LED will turn on. Overunity observed.

Coil B @13Mhz and 20cm ground wire, the transmitter's LED will light up when I switched to AC and DC load. But for LED, the transmitter's LED will turned off. When I used 1m ground wire, the transmitter LED will never turn on regardless of AC load,DC load or LED at receiver side. Slight overunity observed when used with 1m ground wire. However when the amplitude is pumped up the overunity is less obvious. Overunity disappeared with higher amplitude. How about 6m ground wire?

It is weird to see that when I put the jumper for LED on transmitter side the power consumption is reduced compared to without LED jumper and the receiver power increased. Trying with LEDs in parallel does not affect the overunity power. What if the LED is in series, can I pump up the amplitude while maintaining overunity?

Does square wave improve overunity because of fast rise time and back EMF?

Update on Steven Mark's TPU

The patent was not sold to MPI. MPI maintain a different technology. Steven Mark refers to Valve Amplifier 3rd Ed. pg 262, "The inrush of current through the filament interacts with the earth's magnetic field to produce a small kick." This small kick is huge when you have multiple kick added together.

Steven understands Tesla impulse current in Edison's DC generator. The kick came out of the wire perpendicularly. The kick is about how fast the capacitor discharged and how fast Tesla stops the current flow AT the spark gap. His goals were to get the time in which the discharge is STOPPED to be much quicker. As Tesla did this he found that the perpendicular radiations, the ones from the wires, caused electrical effects to appear in wires and other copper/metal materials near the STOPPED current/discharge. These electrical effects could be made to create electrons on other wires and copper around his STOPPED current/discharge wire.

This looks like cross talk effect by impulse current.