Transverter video parts 1 and 2
The power metering of power IN uses specific hardware of the Philips PE1540 power supply. The internal PE1540 shunt resistance is 166mohms = 1/6 ohms so at 30VDC, non-ferroresonance requires 1.5mV hence 1.5*6 = 8.4mA so average Pin = 8.4mA * 30VDC = 0.25W. Once ferroresonance manifest anomalous VAR amplification (VAR = reactive power), PSU provides 2.3mV instead 1.4mV so 2.3/1.4 = 65% increase of power IN to get the ultra-nonlinear parametric effect but generates 4 times more VAR power still at same 30VDC powersupply (average doubling of reactive current and average doubling of reactive voltage circulating through LC tank as shown on tek2445 oscilloscope).
P.S.1. Oscilloscope shows secondary reactive voltage with 50V/div and secondary reactive current with 50mA/div. The comparison 30VDC working point shows peak to peak sinusoidals 35V-AC and 40mA-AC equals to 35*0.04/2 hence 0.7 VAR when non-ferroresonant effect. Once ferro-effect manifests, VAR is self-amplified by a factor much higher than excess input energy eventhough we keep 30VDC from power-supply.
Each MWO Panasonic inverter flyback have around 130mH inductance, 4.5ohms internal resistance. The resonant capacitor is 220nF so we have 890Hz subharmonic heterodyne resonance. The single leg H-bridge runs with 50% duty cycle unipolar PWM at 890Hz as opposed to Dan Combine double leg full H-bridge demo on YouTube with 33% duty cycle bipolar PWM at 142Hz.
P.S.2. Please see schematics of Philips powersupply PE1540 used in this experiment at page 15 of http://www.virtual-train.org/Matthias/documentatie/pe1540.pdf
Next video will show specific toplogy to extract part of the anomalous excess VAR without detuning the ferro ZPE effect coupling with vacuum in order to estimate power OUT.
P.S.3. With Transverter, it is the brutal collapse of highly magnetic saturation which couples from vacuum whereas with plasma reactor, it is the brutal collapse of highly electrostatic saturation with couples excess energy from vacuum.
Additional detailed instructions on how to tune a 1-phase TransVerter (ferro-resonant ZPE reactor) which can be applied to 3-phase Transverter or RotoVerter with additional digital control switches and diodes.
Complete open source of diode plug topology and extractor topology for extracting anomalous excess reactive power from a nonlinear resonant LC tank in the spirit of Hector D. Perez Torres.
In order to fully grasp these special electronics topologies, it is suggested to read Dr. Terence W. Barrett article "Tesla's nonlinear oscillator-shuttle circuit (OSC) theory" providing one possible SU(2) theory of reactive feedback oscillator topologies which you can apply to ferro-resonant SMPS (Switched Mode Power Supply).
P.S.1. All parts of this video have been done with 33% PWM duty cycle and full H-bridge controlled by iMac java HMI.
P.S.2. Friends mentioned with whom I'm working worldwide and all are electrical engineers: Dan Combine (Belgium), Raivo (Estonia), Rosko Farkas (Hungary) and polartronic (France).