Aquapulser - PWMs and Beyond

Stanley Meyer Water Fuel Cell

Stanley Meyer's Rotary Pulse Transformer is a Delco Remy Alternator with the voltage regulator and diode bridge removed. We believe there is no toroid coil involved. The primary Meyer refers to is the rotor windings. The secondary he refers to is the stator windings. Now the alternator is very unique if used as a transformer instead of a generator. The Lawton style PWM is used to pulse the rotor which experiences a back EMF on the pulse off which in turn translates to a rather large spike in the stator windings and for this a unit which is capable of generating astable pulses without any distortion at low frequencies is key.

Conventional power transformers use ferrite cores because they tend to transfer all the energy from the primary to the secondary not store energy. Iron and steel cores become strong electromagnets and are primarily used for induction and to amplify emf and that is why they have high hyteresis losses if you use them as a transformer. Once the voltage regulator is removed the stator windings will discharge a HV back emf pulse everytime the rotor is pulsed off, and this is the High Voltage that Stan refers to. [pic of rotary pulse generator alternator setup]

We believe the Alternator discharges an oscillating current into the WFC circuit. Modern day physics has all but forgotten the nature of Oscillating Currents, and treat them synonymously as Alternating currents, while in reality the two are quite different, and this distinction was well known in the days of Tesla and Steinmetz (See paper Notes on the Theory of Oscillating Currents by C. P. Steinmetz). The unique property of Oscillating current is that at zero impedance the circuit will start oscillating without the addition of external energy.

The alternator not only generates 3 phase AC output but also higher harmonics even though maximum output frequency of an alternator is typically in the acoustic range even if it spins at a maximum of 7000 RPM (116Hz).

Our core strengths are electronics and although right now it seems an almost impossible daunting task, we are designing a 3 phase harmonic oscillator with a discharge coil that will be a solid state replacement for the alternator.

The Meyer Excitors

Stan Meyers demo cell has 9 tube sets.

The inner tubes are 0.5 inches in diameter and the outer tubes are 0.75 inches in diameter. The approximate spacing between his tubes is 3 mm. We do not believe Meyer used spacers in his demo cell and he in fact allowed his tubes to ring and this acoustic component that is being overlooked by most WFC researchers. We believe Stan cut slots on the outer tubes to match the frequency of the inner and outer pipes setting up a standing acoustic wave and we are working on a cell prototype that will incorporate these features.

Voltage Intensification Circuit

Stan's VIC unit that incorporated the bifilar chokes was for use not with his tubular cell set up but with his water fuel injector. The output of this unit is single phase and there are no harmonics involved, however it must also be said that Stan instead uses laser light and so there is definitely some sort of phase conjugation going on with both the alternator cell set up and the VIC water fuel injector which is a conjugated laser cavity. Scalar effects are produced byphase conjugating a wave by 180 degrees to cancel out the energy, yet it produces a "stress wave" that can have physical effects. This is very similar to Meyer's mirored pulses that one gets with the rectified output of the Alternator. Click here to learn more about phase conjugation.

Is the Stanley Meyer method OverUnity?

You be the judge: Independent Study of the Meyer Technology

This is a rare hard to find 88MB file with all of Stan's equipment, interviews and tesing data titled Water Fuel Cell: International Independent Test Evaluation Report.

The Xogen Method

This method involves the use of a Stainless Steel plate cell wired in parallel and an astable 555 circuit to pulse the electrodes to produce ortho and para hydrogen. The astable circuit is used to generate a pulse train at a specific time and with a specific mark-space ratio. According to the patent:? "The power supply in the present invention is required to provide a pulsed signal having only 12 volts at 300 ma (3.6 watts). It has been found that an optimal amount of hydrogen and oxygen has been produced when the pulsed signal has mark-space ratio of 10:1 and a frequency of 10-250 KHz. Using these parameters, the prototype cell of the present invention is capable of producing gas at the rate of 1 p.s.i. per minute. The present invention, with sufficient electrodes, can generate hydrogen and oxygen fast enough to feed the gases directly into an internal combustion engine or turbine engine, and run the engine continuously without accumulation and storage of the gases. Hence, this provides for the first time a hydrogen/oxygen driven engine that is safe because it requires no storage of hydrogen or oxygen gas." Please note, the Xogen method in addition to the astable 555 timer requires a signal driver (cascade amplifer) to achieve the desired results.

High Frequency

Do I need high Frequency? We have received a lot of questions regarding this and we shall try to be as clear and precise as possible. Neither the Stan Meyer method, the Xogen method or the Lawton replication requires high frequency.

As you can see from our research page, Stanley Meyer generated high frequencies using the Alternator and Oscillating current discharges by gating the pulses fed to the rotor. Stanley Meyer did not use more than 6 khz to pulse the rotor (refer to the Independent Study PDF) and neither did Dave Lawton.

The Xogen method calls for 10 Hz to 250hz with 250 Hz being the highest limit. Bob Boyce uses 42.81 Khz, 21.4Khz and 10.7Khz. Dave Lawton in his tests also did not exceed 6 Khz. The D1400 unit generates crisp square / rectangular pulses from as low as 1.2Hz to 230 Khz measured across the cell. The aquapulser D1400 is optimized for pulsing the rotor as per Stans set up and the Lawton D14 schematic. By using the gating section frequencies as low as 0.59 hertz can be generated using the D1400.