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HOW TO BUILD A ZPE RESEARCH LAB AT YOUR HOME
Version 2.5, 2004/10, first published on 2004/08
Electronics and tools you are going to need .........................................................................................................................1
Tools for the ‘industrial automation’, pulse tests, Easer, pulse motors, etc ..........................................................................2
Building the inverter .............................................................................................................................................................2
Things to ‘scavenge’ or buy..................................................................................................................................................5
Projects .................................................................................................................................................................................5
Project: ‘Bedini’ pulse-motor ...........................................................................................................................................5
Project: Rotoverter (RV) principle, Rotoconversion, RV effect .......................................................................................5
Project: Radiant Energy (RE) proof in RLC .....................................................................................................................8
Project: EASER (charge pump) ......................................................................................................................................10
Project: MEG, MEMA, easyMEG (Easer principle) ......................................................................................................12
Project: RV, resonance, OU and LOOPING...................................................................................................................13
Project: Transverter (Trafo Converter) ...........................................................................................................................15
Project: COLD fusion, sonofusion..................................................................................................................................16
Project: Ecklin-Brown generator ....................................................................................................................................16
Theory (consolidated knowledge, invaluable) ....................................................................................................................18
Links ...................................................................................................................................................................................23
Tools for research ...........................................................................................................................................................23
ZPE links ........................................................................................................................................................................23
Theory.............................................................................................................................................................................23
Some Rotoverter guidelines................................................................................................................................................24
A ter the several trials and errors I have come to the conclusion come out with consolidated in ormation on how
to be more e icient researcher at home. To do anything you need proper tools and knowledge. This document
is about to give as much as possible step-by-step.
The knowledge originates rom Hector D Perez Torres (ARK Research). All he has taught so ar has turned out
to be practical. There are many replications all over the world already (some even replicated by university
pro essors) and after making this document public we hope to see much more. IÓll try to unite the theories of
the great inventors like Hector, Bedini, Newman, Perrault, etc under the single principle.
The secret of the Over-Unity (OU) is here, it is very hard work to find one in the internet. This document
contains the knowledge not written in the scienti ic books. Replicate, learn by doing, prove the postulates, and
learn the basics of trans ormations as the OU is the trans ormation. It mani ests in a resonance and ampli ies
known as stochastic-resonance phenomenon. It is ust the beginning.
In order to massively replicate HectorÓs Rotoverter (RV), RV Alternator, Transverter (TV), Easer principle solid
state pulsing systems, youÓll need good electronics or better yet - a computer controlled system. First of all I
started by building frequency generators and other kind of electronics, but then realized that things can be
done computer controlled. The central part is a computer inter ace, so all the other parts like inverters,
switchers, relays, SCRs can connect directly to that inter ace. Linux op-system is airly stable and cycle exact, so
it can be used to generate and measure signals in microseconds scale. You can drive inverters at variable pulse-
length, run motors (RV) at di erent speeds (RPMs).
To be successful in the research area, one must Ðthink bigÑ and be open minded. It is a matter of tuning in
order to manifest Radiant Energy. It is an art; it is like playing the piano. The more tools the better, invest into
tools. Learn basics about resonance and electronics. Some tools you can scavenge, some you should buy, some
you should do yoursel . If you do not know ask others. Everyone near, is ready to help if you give them a
positive vision!
Electronics and tools you are going to need
·
Build a (double) capacitor bank with switches (sample: 50,20,20,10,10,4.7,2,1,1,1,1 uF) Î use only
450VAC rated oil capacitors and big wires. Used or changing between di erent capacitances to iterate
the peak resonance. Becomes handy everywhere in LC resonance tests.
1
·
Build a variable induction coil (15A, 16 turns 3ÓÓ PVC pipe, tuned with metal core inside, add another
150 turns version too). For fine-tuning the resonance into the standing wave region.
·
2 channel scope. Invaluable tool to observe the voltage and amperage phase shi t. BTW, you can
build a two channel scope using simple HV protection circuit, tuning potentiometers (opto-isolated if
possible) and using a computer (laptop) with audio input. There exists so tware for on-screen online
analysis. Use ul as gold!
·
Frequency generator 10Hz..300Hz, 100Hz..3000Hz, 1kHz..30kHz, È, pre erably pulse width controlled,
and 2 outputs or inverter driving
·
High amp switching Î power transistors, power Mos ets, or IGBTÓs and cooling ribs
·
Some multi-meters and the AC ampere clamp-meter
·
Electronic simulations: SIMetrix (very good).
·
PCB so tware: Circuit-Maker 2000 (if youÓre going to do something more complicated)
Tools for the ‘industrial automation’, pulse tests, Easer, pulse motors, etc
A computer controlled parallel port inter ace (PPI) will make your li e a hell lot of easier. I took the risk and it
deserved a lot. Computer can generate requencies, pulses, even voltages and control all the timings. You can
control motor (RV) speeds, run Bedini/pulse motors, tune resonance conditions, control complicated switching
sequence. This is a tested setup and recommended. Note that in the uture, when we are experienced in
transformation, we do not need computers, nor electro-sensitive components, because they are not secure. But
or the irst replication and proof of the concepts we must use ALL possibilities in order to accelerate the
development!
·
Pentium 333 minimum, Linux (Mandrake), ÒindustrialÓ so tware in C++ available and tested
·
a simple parallel/printer port
inter ace, optically insulated
circuit (easy), ast optos is a
must (PC847), min 4 outputs
100mA, 2 relays, 2 inputs,
external supply 12..17VDC.
Usually ready-made-kits are not
so practical at all. PCB drawings
of the newest version available!
To tell you the secret, it makes
the li e much easier and work
more un.
·
È or even more advanced PPI, with ADC inputs or voltage to requency (V2F) inputs, and even V2F
outputs. Inputs are first calibrated used as a computer voltmeter, to be used for input and output
charge comparisons in Easer tests, or example.
Building the inverter
Computer or frequency controlled inverter
2
A basic inverter circuit using power MOSFETS and a protection circuit (connects to PPI or requency generator).
Using power MOSFETS it is a very practical circuit and can stand quite strong amperage. It is strongly
recommended to use very big wires and lines or the 12V side.
R17, R19 22 ohm
R16, R18 1.8k
R20,R21 100 ohm 1W
Q1,Q2 IRF3205
C15,C16 2.2uF 63V metallic polyester film
C17 (30uF oil) – omit from circuit!
C18 30000uF, D16 (5amp diode)
D8..D11 zeners 12V
D12,D13 1N4007; D14,D15 1N4007 (double)
It is recommended to use separate or external power
supply for driving power FETs, to ensure the gates get
enough voltage, the transition speeds are faster and they
will not get hot.
Use 300..1000W tra o or inverter, input 2x12V (with center tap) and output 1x120V (if you plan to wire
yourself try ollowing ratio #27 turns or 12V and #270 turns or 120V Î quite practical)
Another way is to use the ollowing circuit or the inverter. Or even using part of the 3PH pulse circuits or the
resonance tests (page 8).
3
hef 4093b
22
R1
1in
3
IRF640
IRF640
U1
D1
BY 228
D2
BY 228
12.7
V1
22
R3
1
2
1
1K
R4
Q1
Q2
100u
C1
12:120VAC
IRF640
IRF640
hef 4093b
22
R2
2in
3
4
4
D3
BY 228
D4
BY 228
Q3
Q4
U2
22
R5
2
1K
R6
Figure 2 Simple way to build the inverter for resonance tests. It uses bypass diodes to positively bias the collapsing
EMF back to the capacitor/battery. To tune use variable pulse lengths. 4093 chip ensures that vertically FETs do
not short circuit.
Hectors Positive Bias Inverter
This is the inverter recommended by ARK Research. It takes ew current on idle, also it is a great tool or OU
tests.
+12.7V
Q2N3055
Q1
D1
L1
5.6m
D3
D4
L5
560m
4700uF
L2
5.6m
C1
C2
C3
-
+
Q2N3055
Q2
D2
L3
1m
470
R1
47
R2
L4
1m
Figure 3 Hector's positive bias inverter
Required: Any tra o 100-1000VA, (primary 27, 27, secondary 270, eedback 12, 12 turns)
Additional design notes: You may add BD139 NPN transistors be ore 2N3055 power transistors or better
per ormance.
4
Working principle:
As the transistor switches o , re lected collapsing EMF potential is redirected back to the battery across the
diode. If core is working in RADIANT states, the recovered power will exceed the input and the system will
recharge battery. The trafoÓs coreÓs temperature will drop bellow ambient temperature (known as EASER LASE-
ing ef ect). The battery becomes a variable within this e fect system being OU within a speci ic set of
parameters as battery charges the system detunes.
In the circuit there is shown the diode plug system to extract the power, but this is optional. There are some
principles to test without even the secondary connected.
Some ideas to test:
·
Always see the draw rom the battery, using the ampermeter in series or a shunt.
·
You may test it by holding magnet in hand while LC or the secondary disconnected. Usually without the
secondary the circuit draws ewer amps, but it will resonate in the speci ic core requency. The Radiant
power vibrations can be elt with magnets holding these in hand near tra o.
·
LC & RLC circuit on secondary, inding resonance capacitors
·
Solid state battery charger: Finding the proper magneto-atomic resonance/saturation level, the system
will turn Easer. There may be several harmonic requencies, which are OU, of course choose the best.
You can collect the power rom the secondary by using a diode plug (so without detuning the system),
switching the capacitor charge into the load, during the cycle the other is charging. It is possible using
the Opto-SCR circuit.
·
Solid state battery charger with a load: it is possible to turn this circuit a battery charger, inding the
coreÓs inner resonance point where the tra o will ring (Easer), using a small load in the secondary. You
can tune the circuit by changing load or changing biasing resistorÓs, while trying to find the condition
when the current rom the battery reverses.
Some tuning considerations: change capacitors in LC circuit, rebuild the system to be external requency and
pulse width controlled, use variable coil in series to LC resonance.
Things to ‘scavenge’ or buy
Tra os, 3PH tra os, neon sign trans ormers (NSTs, 10kV+), squirrel cage motors, permanent magnet (PM)
motors, autotrafo (min 10A rated), magnets, old magnetrons (or magnets), oil capacitors, HV capacitors, power
Mos ets, cool ribs, solid state relays, current relays, shunts, analog voltmeters, a lot of big wires
Projects
Choose an appropriate pro ect you like.
Project: ‘Bedini’ pulse-motor
[Soon Î principles are roughly the same]
Project: Rotoverter (RV) principle, Rotoconversion, RV effect
It is usually meant that RV is two o f the shelve squirrel cage motors connected, one acting as a RV prime
mover and the second as a RV alternator.
RV is a great learning tool. You will learn phases, phasing, vectoring, input optimization to the load, rotary three
phase trans ormation, resonance. Testing in ÐvitroÑ gives you an experience worth 100+ pages.
5
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