Method of multiplication of wattage, powering a load stage by the process
of natural systems within an electrical circuit.
Up to 2.1 kw out per transformer stange with only 80 watts input needed.
explorers in the Tesla alike fields have experimented with efficient
L/c circuit methods in the past history. Those inventors where a great
inspiration in better understanding this process . Such as Patents by
Inventor John C. Bedini:
-Circuits and related methods for charging a battery Patent number 7990110
in his own ways took advantage of L/C circuits and specializes in
BackEMF recycling of energy for efficient motor operations and battery
with these devices is the requirement of a lab and a work shop. The
every day average person can not always afford access to all
requirements, Experiment with the similar devices and ideas may come
limited as a result. Some of these generators are expensive,Noisy, big
and heavy bulky.
been searching and experimenting for many years, Seeking for simple yet
easy creative methods for gathering a useful amount of energy by
alternative means that could be accomplished in a realistic way. So I
started to experiment and research what ever possible topic and related
information within reach of my consciousness. I have tried. Trail and
error. As a result of personal study and frustrations. This directed me
towards the understanding of this method that can actually be
practical. Not too big and no special requirements to build and
operate. The amount of wattage this process generates, demonstrates the
possibilities of this concept. Without the need for traditional
batteries to operate as well. The process is self sustainable, Once
started from an initial 12 volt charge of a few seconds (From a charged
super capacitor bank) can be self powered once operating. With the help
of a timer relay circuit that switches every hour from charge bank to
run bank. continuously switching back and forth in this matter.
1- This process does not use any batteries.
Only source of storage is the internal circuit capacitors for DC and coils for magnetic AC storage.
source of storage must be per-charged prior to start up. Such as making
sure the capacitor run bank has the full charge. Similar to how one one
would charge a regular battery and operate from it.
process uses super capacitors to emulate the battery banks. We split
the bank in two sections. The run bank and the charge bank.
2- This process offers over-unity without breaking any laws of physics.
is a special linear type of over-unity. The effect of total output
wattage is proportional to the requirement load. It will not just
generate total power into a load that is not "asking" for it. And burn
it out. As have been an issue for other over-unity goal motor
generators from past "failed" inventors that have been haunted with
this and similar issue and the same problems can be said with other
related inventions/inventors in the filed of alternative power
generation. where a massive output power burns out the input stages
rendering a "perpetual" process null.
ever with this new process, For example. Such as a light bulb only
needing 50 watts connected to the output load will not see current
spikes of more then the requirement needed. Even if this process can
provide 100s of watts if such where needed by output load to glow
light. (see fig)
way to look at it this. This process does not over load on itself with
excess current. The process is perfectly balanced with the help of a
dual tuned resonating circuit (see fig) along with the load current
requirement. By the process of natural equalization between two
different capacitor voltages combining two oscillating L/C circuits.
this process, We are having always one of the two capacitors that are
sharing common ground, They are both charged at much greater voltage
difference potential between them thanks to the oscillations of the
this dual L/C circuit and the efficient transformers transformer free
V-I change. Those 2 capacitors are Joined (shorted) by a load, at each
opposite ends, (see fig) Causing a very vast voltage imbalance between
the two capacitors. This generates an imbalance of voltage between the
load 2 connecting opposite points. As a result. The the local universe
tries to maintain natural equalization (quantum) between two points in
voltages, With all it knows, By quantum works. This process of natural
equalization. Moves power to the running load, in between the two
capacitor voltage points. At This stage. This is now load resistance
generating current according to ohms law. power resides in that load.
as a result from that perfectly natural equalization process happening
between the load and two capacitor points.
ever power does not just get made. You can not make power. We can Just
transfer it from one type of system to another. We can only manipulate.
it. We as of so far only know of the ohms law. So we can make an
estimate based on what we know from ohms law assuming it is of similar
in the world of quantum physics until someone can prove otherwise. This
running process "manipulates" the equivalent of several kilo Amps from
the quantum "Dimensions" in order to maintain "trying" and restore this
perfect universal equalization balance of voltage between two points.
can be confirmed in a CAD simulation as the computer knows only the
ohms law and since power has to come from somewhere. It calculates
those "somewhere power" value equivalents to be in the kilo Amp ranges.
If we could ever measure quantum energy with ohms law. Amusing we could.
Basic CAD circuit simulators can run and confirm this process method. As I have.
3- Each Transformer stage can generate up to 2.1 kw.
calculated values, only an input square wave of 110 volts DC pulsed at
50-60 hertz with a duty cycle of 50 percent. 80 watts is needed to
drive the process to a state of resonance. (see fig) Input low power
drive, varying depending on where the oscillation cycle is at.
Input Power Calculations: 80 watts:
Output Power 2.1 kw
4-This process uses L/C resonance.
advantage of super conductivity properties of a L/C circuit at the
resonance 50-60 hertz point. The L/C stage becoming 0 ohms at this
frequency. allows for a direct connection to be made at the DC point
between the two capacitors connected at each end of the primary and
secondary winding, joining together at ground point. The most profound
result of this is the sudden effect of a low current being transferred
to the high voltage side by a virtual direct DC path caused by the
resonance effect at that very sharp specific tuned l/c frequency of
50-60 hertz. Tesla was very afraid of this effect of the human body
accidentally suddenly being conducted as the bridge between the high
voltage secondary low current side and the low voltage high current
side while oscillating gives the human body a lethal shock of several
kilo-volt at also high current.
watts 110 volts pulsed DC(12 volt DC-AC inverter) is relatively low
power in the primary side. When that 80 watts gets transferred over to
the high voltage side and now we are reading simultaneously the same
current reading on both transformer ends. How ever the high voltage
side can get a whole Heep of extra work done at 1kv 80 watts. We then
send this to a spark gap assembly that pulses this high voltage and
very same current as the 110 side, but considered much stronger in 1kv
oscillations! The spark gap feeds a regular AC high voltage to low
voltage transformer operating in regular mode so it can steps down 1kv
80 watts equivalent power to 110 AC 50-60 hertz 2.1 kw power.
5- This process also utilizes Tesla's well known method of shorting a tuned L/C circuit.
the help of the spark gap at just the right interval pulse
frequency.When current and voltage are at its peek. At high voltages
this "shorting" effect helps us extract even more watts out of the
surrounding atmosphere (radiant energy, Such as nearby RF and magnetic
fields but not limited to just such. All radiant energy, including,
local scalar and gravity waves) for a moment, pulling it in along with
the oscillation pulse cycle.
This process takes advantage of the negative resistance properties of
the spark gap by operating in Region B. As a Negative Resistance.
See Fig 1, V-I Characteristics of Spark Gap
The various regions can be identified as follows:
A-B: At point A the spark gap starts the transition from insulating to
a conducting state. The voltage at A is called the DC firing voltage of
the gap. Between points A and B the device exhibits negative resistance.
Region B-C: In this region the device maintains a constant voltage across the terminals for a range of current.
Region C-D: This region The dV/dI is positive and the device exhibits positive resistance unlike region A-B.
E: At point E the current has sufficiently increased in magnitude
enters what is known as the arc regime. In this region the potential
across the spark gap is essentially constant at about 20V (independent
F: When the current reduces to point F the arc stops. This point on the
V-I characteristics is known as arc extinguishing current. The value of
arc extinguishing current is around 0.1 to 0.5A.
we observe the V-I characteristic . The current required to initiate
the arc is greater than the current required to sustain the arc.
No matter what R value the run load is. The process locks L/C Stage
oscillation at 1kv. Regardless if the load is using only 1 watt or
needing up to 2.1 k watts,(The load barrier)
Thanks to the Spark gap operation of region B.
the load barrier gets broken. or the process maximum determined by
amount of transformer stages, The spark gap slows firing frequency as
the voltage drops slightly below 1kv break for some longer period. As
it takes a moment longer for voltage build up oscillations for form.
(slowing) Spark frequency (de-tuning) and power intensity. there for
forcing spark gap operation in Region C, As a regular positive
The load barer with this process is maxed at being anything more then 2.1 kw for a single transformer stage. This was determined with the help of ohms law and internal computer calculations and simulations.
the load barrier gets broken, The over- unity or power multiplication
effect seizes. But circuit internal L/C oscillations maintains locked
at lower voltage at 49 hertz or lower. Before the spark gap stage.
Simply easing the load requirement for a few seconds will restore the
voltage spikes and rise current oscillation charge up, the cycles
speeds back to the tuned l/c optimal circuit value including the spark
gap stage back in sync. And will again maintain over unity from that
point on or As much "up to the load barrier point" needed to maintain
more power is needed. One must think of adding more transformer stages
to the process. Each transformer stage will generate an additional 2.1
kw in exchange for stressing the input power drive an additional 80
8- AS long as the 1 KV ring oscillation is maintained for Spark , Current amplification is greatly gained and operates steady.
to negative resistance of the spark gap and the shorting effects of a
high voltage tuned L/c circuit at the proper resonating pulse rate.
9- The Spark gap also acts as a high voltage limiter.
no more then 1kv into a step down transformer when adjusted. A simple
traditional transformer can step the 50-60 hertz cycle AC waveform
pulses. To 110 volts 50-60 hertz power. That is compatible with "mains"
home electrical system. And powering “free” watts to consumer devices
10- This process can operate without the spark gap but power amplification effects are greatly reduced.
output without spark drops to 10s of watts instead of 100 or more.(see
fig) This process can operate solely based on the natural equalization
effect of the quantum on its own. how ever. the spark gap stage is much
appreciated and also utilized in helping and enhancing this method for
a much greater result in power output.
11- The process can be self sustained(perpetual)
the help of a simple generic low current control circuit, after an
initial circuit start-up With a charged super capacitor 12 volt DC
bank. Driving a local 50-60 hertz square wave oscillator able to handle
at lease 80 watts of switching. (see fig) After 5 seconds or more.
Enough oscillation cycles build up in the L/C, And phases with the
tuned ring frequency. This brings the voltage ringing, to the spark gap
1kv break at 50-60 hertz and feeds a step-down AC transformer.
circuit generator schematic values can provide power for 110 volts AC,
2.1kW per transformer stage . A load can operate from this such as a
motor or power can be stepped down one more time to low voltage AC into
a rectifier stage. Charging a super capacitor 12 volts DC bank. These 2
banks, Emulating the run battery pack, And charge battery pack. With
This setup comes without as much of an internal resistance drag as
traditional batteries do, for speedy efficient low resistance charging.
slow speed generic timer circuit can switch relay between charge DC
Super Capacitor bank and run DC Super Capacitor bank every few hours,
This process of keeping the circuit charged and current amplifications
going. In addition from self oscillating. Can use excess watts to power
loads such as a light bulb or motor.
ohms law calculations must be taken into account with variables such as
how many transformer stage the process is going to take in order to
determine how many times you need to be able to provide 80 watts for at
lease 1 hour run time so not to drain the input power source that is
not NEVER directly connected to generators output. Directly Looping the
power is forbidden in physics.It just won't work This is the work
around. As the input drains over time. We just need to insure we don't
over load or drain the source before the switching gets done between
the two power source super capacitor banks. The timer circuit directs
the charging current to the non running power bank. And back.
12- This process takes advantages of using Super Capacitors as a power storage medium,
traditional high Resistance internal battery charging And eliminating
the need for a battery setup all together in order to operate this
13- This process could be used to power something very massive(secret) in the middle of nowhere.
almost no limits as to how much output it can produce as long as you
have the physical room for the batteries and all the needed transformer