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Hello everyone,

Yesterday we released the first document about the resonance energy device,  the device depends on a multidimensional transformer which makes possible a harmonic exchange between the positive energy reality and the unseen negative sea of energy. This is possible
using a spark-gap arrangement, the energetic symmetry between the positive and negative energy oceans make
it preferable to use the term ambient background energy rather than the name zero point energy.

the full explanation available  in the following link,

http://www.free-energy-info.com/Belkired.pdf

All the best.

 :)

the link was changed to this new address

http://www.free-energy-info.com/Mohamed.pdf

I hope hope
I replicate it but i am not able to get good power at the l2 output...
Any easy tricks???
Thank you

Well, that's half an hour I'll never get back.

Driving a flyback transformer +properly+ at its resonant frequency:
http://www.youtube.com/watch?v=4XRwlNCF1PU (http://www.youtube.com/watch?v=4XRwlNCF1PU)

Using the output of a properly driven flyback transformer to properly drive an actual resonant output system to attain _really high_ peak power levels:
http://www.youtube.com/watch?v=aIZClhoU2Xk (http://www.youtube.com/watch?v=aIZClhoU2Xk)

Extracting +real power+ from a small, actually resonating, reactive power system using coupled air-core coils:
http://www.youtube.com/watch?v=jcGTBA7NoVI

And not a word of gobbledegook involved.

thanks for the interaction

in fact the E-TBC will supply the reactive power ( this is a phantom power :) ) , the pick up coils will do two things:

1- it will receive the reactive power using what we call the receiver coil Lr, this coil need to be tuned for the same working frequency as the E-TBC using a parallel capacitor, because the E-TBC penetrate inside Lr the obtained power across this receiver coil in still reactive the parallel capacitor will do another shift for the voltage to be the same phase as the current...

2- now it's the turn of the transfer coil (Lt) to do the rest of the job, this coil has to be isolated from the receiver coil using only two diodes.. parallel added diodes will let more current but we have to take attention to this point!

we are using RADIO FREQUENCY , so we have emitter and receiver, Lr and Lt  act like antennas, but in Lt we will get the corrected phase that will be accumulated in the capacitors banks easily, for a capacitor to build a good voltage we need a current, because there is a phase shift in our E-TBC it's IMPOSSIBLE to get the active power needed!

tuning Lr and Lt is crucial, people with good hardware are invited to do this job so we could know the frequency range for a determined prototype, making it easy for others to replicate this device.

  i will post two photos to show that , in the pick up coil we don't use an usual diode bridge because the concept of antennas exist here.

proposal circuit need to be tested.

You left out the _mains powered_ inverter that is prominent at the upper left corner of the Don Smith device.

Ooops.  ETA: As Void has pointed out, I mistook the power cord for a Mains power cord, when it is actually going to a Battery, to power the inverter. I've corrected my note on the photo to reflect this correction. Sorry about the confusion, it is all mine.


Here are another couple of my videos that you might find interesting:

http://www.youtube.com/watch?v=gi-hl2W86yk (http://www.youtube.com/watch?v=gi-hl2W86yk)
http://www.youtube.com/watch?v=7az00WSZBMw (http://www.youtube.com/watch?v=7az00WSZBMw)

Quote from: TinselKoala on November 17, 2014, 01:38:48 PM
You left out the _mains powered_ inverter that is prominent at the upper left corner of the Don Smith device.

That doesn't make any sense. :o  An inverter converts from DC to AC, not AC to AC.
The inverter in the picture is marked as being a 12VDC to 115VAC inverter. Don Smith
used the inverter so he could power his device with a 12VDC battery. His neon sign transformer is powered
by nominally 115/120 VAC, so Don connected as follows. 12VDC battery connected to a 12VDC to 115VAC inverter,
connected to small AC Variac, connected to a 115/120 VAC NST. Except for the 12VDC battery, this is all
clearly visible in the picture. ;) I can't vouch that Don Smith's device here actually produced over unity, but
there is no question that is how he has the NST wired in to its power source in the photo.

All the best...

You are right, thank you for the correction, and I apologize for any confusion, the main confusion is mine.
The wires I indicated must be going to the battery, then. I don't know what I was smoking, capacitors probably, but I wish I had more ....  ;)

Regardless, you will note that there is neither battery nor any other power source indicated in the schematics posted by hope-hope. So good luck getting any output, without any input.  All electrical free energy devices we have seen here, including those of Don Smith, of course have a big battery, or are connected to the mains somehow. Smith's devices are refreshing, though, because they at least don't have the usual mess of colored clipleads. But where are the DMMs?

I am still waiting for someone to reveal the secret of "the resonance energy device". Perhaps they will also explain the secret of the great increase in bulb brightness that I demonstrate in my videos above. Perhaps it is even _the same secret_.

Quote from: webby1 on November 17, 2014, 06:29:22 PM
I do like your videos TK,, they are fun and often educational.

Your circuit must be at a fairly high rate since I can see no flicker in the light.  I suppose it does not need to be so high for my eye not to see it.

Thanks. The transmitter-receiver system oscillates very fast, at about 700-800 kHz. The very simplest receiver is just a resonant tank with the bulb as an inductive-resistive element in parallel with the transfer loop and tuning capacitor, so it is getting AC-stimulated far faster than the filament can heat and cool, so no chance of seeing flickering there. And the slightly more complicated receiver in the second video is rectified with an ultrafast high current diode, and filtered with a hefty electrolytic cap after the tank stage so the bulb is getting DC.

i am discussing the pick-up coils only, the device must have power source, HV module ( i use flyback transformer) then i feed the E-TBC, due the the symmetry the E-TBC is able to setup a resonance frequency automatically, Now and this is the most important thing we have to understand: THE POWER WILL BE AMPLIFIED and replicated, the amplification because both magnetism and electricity are the same thing in the E-TBC , the capacitor in this device is hidden in X position ( please read the full presentation since it's very important to understand how The E-TBC differ compared to a normal L/C circuit :) ) 

in the E-TBC both currents and voltage are amplified BUT in REACTIVE energy manner! where we have a time shift between current and voltage , the pick-up coils have to correct the situation, so we need some kind of tuning, usually a capacitor, if the pick-up coil + capacitors respond in same frequency as  the E-TBC a correction will happen, the time shift will be zero in this case and the electrolyte capacitors will be charged very shortly....

the attached photo show another hidden schematic !!!             

The E-TBC is the heart of resonance energy device, in my opinion we should work with it....

thanks  ::) 

Quote from: hope-hope on November 17, 2014, 08:15:56 PM
i am discussing the pick-up coils only, the device must have power source, HV module ( i use flyback transformer) then i feed the E-TBC, due the the symmetry the E-TBC is able to setup a resonance frequency automatically, Now and this is the most important thing we have to understand: THE POWER WILL BE AMPLIFIED and replicated, the amplification because both magnetism and electricity are the same thing in the E-TBC , the capacitor in this device is hidden in X position ( please read the full presentation since it's very important to understand how The E-TBC differ compared to a normal L/C circuit :) ) 
In the E-TBC both currents and voltage are amplified BUT in REACTIVE energy manner! where we have a time shift between current and voltage , the pick-up coils have to correct the situation, so we need some kind of tuning, usually a capacitor, if the pick-up coil + capacitors respond in same frequency as  the E-TBC a correction will happen, the time shift will be zero in this case and the electrolyte capacitors will be charged very shortly....
the attached photo show another hidden schematic !!!             

Hi hope-hope. I didn't have time to read through the whole PDF you referred to, but I just browsed through it.
The schematic shown in there for this Don Smith device is not correct. Diodes drawn where there are no diodes
and other diodes drawn in the wrong direction. In the photo you just posted above, where you put the question mark
is just a connection terminal on one of the big capacitors. The four big capacitors are wired in parallel.
Each end of the secondary coil goes to the same terminal on the four parallel capacitor bank through a pair of parallel diodes,
forming a type of fullwave rectifier. Ground connection on the capacitor bank goes through a wire to the center tap
on the secondary coil. The capacitor across the primary coil is a tank circuit capacitor, and the tank circuit will be tuned
to the desired resonance frequency. Usually this resonant frequency is selected to match resonance on the secondary coil.

So, do you have a working circuit to demonstrate or are you just mentioning ideas that
you have? There are all kinds of ideas that we can consider, but it is not really useful if you can't put it to
use and demonstrate it clearly with a working circuit.
All the best...

Quote from: hope-hope on November 17, 2014, 08:15:56 PM
i am discussing the pick-up coils only, the device must have power source, HV module ( i use flyback transformer) then i feed the E-TBC, due the the symmetry the E-TBC is able to setup a resonance frequency automatically, Now and this is the most important thing we have to understand: THE POWER WILL BE AMPLIFIED and replicated, the amplification because both magnetism and electricity are the same thing in the E-TBC , the capacitor in this device is hidden in X position ( please read the full presentation since it's very important to understand how The E-TBC differ compared to a normal L/C circuit :) ) 

in the E-TBC both currents and voltage are amplified BUT in REACTIVE energy manner! where we have a time shift between current and voltage , the pick-up coils have to correct the situation, so we need some kind of tuning, usually a capacitor, if the pick-up coil + capacitors respond in same frequency as  the E-TBC a correction will happen, the time shift will be zero in this case and the electrolyte capacitors will be charged very shortly....

the attached photo show another hidden schematic !!!             

Yes, I understand and have no issue with what you have described, because many of my own systems operate in exactly the same way.

But power amplification is not _energy_ amplification and the issue of peak vs. average power remains. If you study my "microQEG" system, for example, you will see that it works exactly as you have described.

A low-voltage supply is connected to an automatically-resonant LC tank circuit which produces _power amplification_ but this "power" is completely reactive, with a 90 degree phase shift between voltage and current in the tank circuit. An air-core, closely coupled receiver coil is then used to extract this reactive VAR power and re-convert it to usable power at much higher voltage if desired or plenty of current at lower voltage if desired, either of which can power appropriate loads as the experimenter wishes. This is also the operating principle of the systems I have shown in the videos above. 

The main differences that I can see between my systems and Don Smith's are that mine operate at lower voltages, that my systems are very cheap to construct and operate, and that my systems are completely and fully documented and replicable, with _correct_ schematics posted fully open source, my systems are supported by proper measurements, and I don't make up gobbledegook "explanations" but rather show how the performance and behaviour are fully understood by ordinary analysis of lumped and distributed circuit parameters.

Like I said, the "secret" of the Resonance Energy Device is the same "secret" that is shown when the light bulb load is glowing much brighter on the receiver output than it does by direct connection to the same battery powering the transmitter. Power amplification is achieved by the system and it's easily demonstrated. But at what cost? Only proper measurements will reveal that cost, which is real.

Here's one of the microQEG videos:
http://www.youtube.com/watch?v=pSoZSXX4TJM (https://www.youtube.com/watch?v=pSoZSXX4TJM)
Another, showing HV Receptor tuning:
http://www.youtube.com/watch?v=jcGTBA7NoVI (https://www.youtube.com/watch?v=jcGTBA7NoVI)

Addendum to the above: If you are worried that I started with low voltages in those demonstrations, then you can consider the following. Here I use an autoresonant system powered by 24 volts input (A ZVS royer-mazilli oscillator appropriately tuned)  to drive a flyback transformer at its secondary's resonant frequency to produce very high voltages, 30 kV roughly, which are then presented to the _primary_ tank circuit of a carefully tuned standard spark-gap Tesla coil, carefully constructed and tuned, to produce _power amplification_ of a high order. Of course this is +peak power+ amplification and it comes at a cost. A description of this system in "Don Smith Language" would read exactly as hope-hope has written and as Don Smith himself has bandied about. So here we have a system essentially consisting of three aircore coupled coils each driven at its resonant frequency and producing a great deal of +peak power+ at the eventual output... starting with low voltage battery power just as Smith apparently is  providing to the input inverter stage in the pictured device above. 

http://www.youtube.com/watch?v=aIZClhoU2Xk (http://www.youtube.com/watch?v=aIZClhoU2Xk)

Can I have a "naked jesus ufo" mockaloackachocablocker to go please? :D

Quote from: webby1 on November 17, 2014, 06:29:22 PM
I do like your videos TK,, they are fun and often educational.

Your circuit must be at a fairly high rate since I can see no flicker in the light.  I suppose it does not need to be so high for my eye not to see it.

Me too! Not so curmudgeony :)

thank you Void, thank you TinselKoala ,

i don't have a working prototype yet,  i am facing problems with the pick up coils,i have a request for TinselKoala, can you please refer me to the schematics, i read about the QEG and i know it generate reactive electric energy as of my system E-TBC, i am waiting your reply thanks in advance  :)

@hope-hope:
Thanks for asking.

You probably should buy or make yourself an inductance meter. This will help greatly in tuning your systems. An Arduino can be made into a very good inductance (and or capacitance) meter with only a few extra components, or they are available cheaply from China, or you can use your oscilloscope and a known capacitance to determine inductance.

The two resonance etc. calculators I like are:
http://www.1728.org/resfreq.htm
http://www.sengpielaudio.com/calculator-XLC.htm

I give full details of the microQEG in the playlist:
http://www.youtube.com/playlist?list=PLml9VdOeqKa-k7J7vO_I22fVc-h8wcdLf

Please watch all the videos, in order, before you jump to any conclusions.  ;) And please note that in spite of the slight "spoof" character of some of the videos they all have important messages and are all 100 percent true, nothing at all is faked as the moderators at PESN have falsely accused me of doing.
The schematics are shown in the videos or linked in the descriptions, and they have also been posted in the QEG thread on this forum.

Basically, I'm using the concepts of resonating a LC tank circuit and near-field coupling of tuned air-core resonators. By choosing the specific components (coils, capacitors, semiconductors) you can work in many frequency ranges with the same basic circuits, depending on the effects you want to emphasize. If you want "cold electricity", "radiant", tune your system for high frequency operation, 1 MHz or above. If you want great _peak_ power values from flyback transformers, most will resonate between 20 and 30 kHz. If you want good power throughput in wireless power transmission systems, 750 kHz or so will do the trick. If you want good heating in inductive heater systems, 80-150 kHz seems to work well for most workpieces.  You will set these frequencies by your choice of inductances and tank capacitors. In all cases your capacitors should be voltage-rated well over your power supply rating since they will be experiencing voltage rise due to the resonance in the tank circuit. 5x or 10x over your input voltage is good. Use mica for the highest frequencies, poly film types for mid and low frequencies, and it's good to build up the needed capacitance from smaller units in parallel as this will put less stress on the caps.

The "receiving" circuits I use are pretty much the same as the ones you have posted, but no wire connection to the "transmitter" is necessary, although it can be used. Use polarized electrolytic caps only _after_ a rectification stage.

Good luck, feel free to ask me any questions either here or on the YT video comments, and please report your progress and results!

thank you TinselKoala  :)

i saw your videos they are nice, wish to have a laboratory as yours !  ;D  in fact i don't have an oscilloscope neither a frequency meter or L/C meter.

I have a new idea consist of working with higher frequency to achieve standing wave, i think this is the best way to avoid problems in the pick-up coils, using the natural resonance frequency in L2 coils will solve our problems to collect the available power using an E-TBC

standing wave created when the reflected wave meet the original wave in exactly a division or multiplication of the  wave length of the working frequency... with this the created standing wave will have a fixed position along the L2 coil regardless of the presence of High capacitance electrolyte capacitors ( very low impedance in high frequency which cause the die out of reactive energy which in turn isn't able to do real work ) 

An E-TBC work according to the same concept NATURAL RESONANCE because the capacitor is involved inside the coil in a unified state, i suppose the reflected waves see the coil ends as a capacitor plates! 

http://en.wikipedia.org/wiki/File:Standing_wave_2.gif

the work of a standing waves is reversed compared to an E-TBC, in our E-TBC the capacitor exist in one point but in a self-resonating coil the capacitor exist in the edges... in other words this look like the past light cone of an operating E-TBC but in repulsion force manner which increase positive energy, the voltage and current both has the same frequency and bouncing in the same wire, because of that, the resulting standing waves will occupy the same positions, this of course will correct the phase between current and voltage since the standing waves is related directly to wire length!


i did some reverse engineering calculations and i found the best practical frequency to work with should be around 20MHZ, this will give a quarter wave length of 3.75M? I attached a photo of the specification of L2 coil such as the wire tubing diameter  etc....
working with two coils wound CW + CCW is better, when the phase between current and voltage is correct, collecting the available energy will be easy.

the E-TBC  should have a very few turn, one turn is good and a capacitance of around 1 nano farad, i welcome anyone could help us with experiments and result, so we could go further more with this project ...
         

the following is a just a though about how the collection system work.

using an extended Tesla Bi-filar coil will produce both hot ordinary electricity plus cold radiant electricity, the way an E-TBC oscillate make it able to produce both Cold and hot electricity perfectly without cancellation effects!

using an ordinary methods to collect the available power will not work good because in a positive regime time Cold energy will cancel Hot energy, the obtained power will remain too low to produce an OU device... in other words an E-TBC will produce hot electricity with the same speed it produce radiant electricity, a special care must be taken to collect the available energy. reviewing my document about the resonance energy device we have

For the first time period, we have (C discharging across L) + energy increase magnetic energy ---- I - energy increase electric energy ---- V
For the second time period we have (L charging C) + energy increase electric energy ---- V - energy increase magnetic energy ---- I

to simplify the things let take the first sight when the capacitor discharge across itself to be a full parallel L/C circuit, at this moment and before the current start increasing, negative energy will push the current to go back against the voltage in action at a distance (because it will start from X point ) similar to what happen when the current flow in ordinary hot electricity it produce magnetic field but in this case the current in cold electricity will increase the voltage statically! when the turn come to hot electricity to play negative energy will cease .... please read page 15 in http://free-energy-info.com/Mohamed.pdf to understand the things clearly, the construction method used in hot ordinary electricity can't suit cold radiant electricity....!! please see page 9 in the above document when i explained how an E-TBC work in both positive energy ( future light cone ) and negative energy ( past light cone), in the wrapped negative energy space the current start from B to A which oppose the flow of current in hot electricity, this current charge the coil electrically like it act as a capacitor... take into account the positions of coil and capacitor in an oscillating E-TBC, the destruction method used in hot electricity is constructive in cold electricity, we need this information to understand the cancellation effects that appear when we use ordinary methods to collect the available energy, Before an E-TBC discharge (this is destruction effect) across itself from A to B, Cold electricity will act in a reverse manner providing a virtual current which charge the coil from B to A (this is construction effect). in the second sight when the collapsing magnetic field charge the capacitor from C to D, just before this operation, the voltage in the virtual E-TBC take its maximum value from D to C (in our positive energy future light cone we have a maximum magnetic field at this moment), when the voltage decrease in the virtual E-TBC ( this is destruction effect - after that the magnetic field will collapse) the wrapped space in the positive energy future light cone see this as a short-circuit and provide a maximum current (this is construction effect), this is why this energy will charge the capacitor magnetically if it act as a coil !!

the design of our ordinary coils and capacitors will not provide the best timing for this kind of energy to be perfectly stored and then used, why ? cold electricity is a reverse kind of hot electricity... when we charge an electrolyte capacitor using the hot electricity taken from L2 coil (construction), cold electricity pass a current in a reverse manner to our ordinary hot electricity ( destruction )... similar to back EMF when a coil reverse its polarity. using standing waves is a clever idea to separate destruction area (Node) apart from construction area (Antinode) using a quarter wave length, using this technique will force L2 coil to take the power from an E-TBC perfectly please see the attached drawing. in my opinion this is a physical separation where we could provide the best place for cold electricity to destruct its reflected wave rather than destructing the constructive waves.... in the construction area ( Antinode) even if the moving real wave move in the positive direction (increasing) and the reflected wave move backward ( decreasing ) , the antinode is a construction area all the time ... this idea isn't complete in my mind but i think this is how to collect the huge available electric energy using our E-TBC

Good night.

@hope-hope
I'm glad you watched my videos. Some other people must think my "laboratory" isn't quite adequate, since they call me an eccentric broke miser with garage-sale equipment... but at least I know how to use what I've got, which is more than I can say for some others with much more expensive kit.
(By the way not a single piece of the gear that I use was actually obtained at  "garage sales". My HP180 scope was used at Lawrence Livermore National Laboratory in the development of nuclear technology and was given to me by a scientist who worked there; my Tek RM503 scope came from NASA Ames Research Center surplus property sales, for example.)

No amount of theorizing can trump even the simplest experiment or demonstration. There is much in your last two posts that I disagree with, some that I can agree with. Here is the most significant thing you have said, in my opinion:

Quote from: hope-hope
in fact i don't have an oscilloscope neither a frequency meter or L/C meter.

The oscilloscope is truly the King of Test Equipment, and I am continually amazed when I find that people who are discussing theories about "radiant energy" and "frequencies" and "resonance" and such topics don't actually have one, or don't know how properly to use one that they may have.
May I suggest that you obtain at least an oscilloscope, then start doing some experimentation of your own. You may find that you will learn a lot in this manner, more than you can possibly learn by reading internet sites.
Do not be fooled into thinking that only an expensive digital sampling oscilloscope will meet your needs. There are very many excellent used analog oscilloscopes on the market that any serious researcher would be proud to own, and even if you have as little as 200 dollars to spend you can set yourself up with the basics that you need. You can build a function generator yourself for a few dollars; you can measure frequencies and inductances adequately with an analog scope and the function generator; you can even use an Arduino and a few external components to make your own inductance/capacitance meter. You can get a reasonable "starter" usb-based DSO and a set of probes for under 100 dollars US.
So start doing your own experiments, to try to confirm or falsify the testable points in your theorizing. You may be pleased with what you find out, or disappointed. Either way you will learn valuable lessons.

Quote from: TinselKoala on November 26, 2014, 09:13:24 PM

My HP180 scope was used at Lawrence Livermore National Laboratory in the development of nuclear technology and was given to me by a scientist who worked there; my Tek RM503 scope came from NASA Ames Research Center surplus property sales, for example.)

Wow, that's one hell of a "garage".  They were one of my customers when I was in the precision ceramic machining business. NASA Ames was also.

You are correct about decent equipment being available.  I got my Tektronics 2213 scope on ebay a few years back for $100, including $20 for shipping.  I also got a Goldstar OS-904RD 2 channel scope for free from a guy at work that wanted to get rid of it.

It does help to have opinions of guys like you, and others on here, before buying one though.  I appreciate the advice you gave me before I obtained my power supply. (which still works by the way.)

Bill

hope-hope, can you explain why load does not effect input in the don smith device using your theory?
and i have notice current is always phase shift 90 degree to voltage in a normal parallel LC,i have test this using
a current probe and voltage probe today.

@   lsd2015

the coil wire in the E-TBC form the capacitor plate at the same time... what does this mean ? it mean the device is able to receive ambient electrons when it deliver it, so in the pickup coils you will have a squared amplified electromagnetic flux   ;D

the reason of power amplification is the induced rotating electrical fields, this fields circulate the E-TBC in an attempt to cancel the change made in the system, please re-read my document for more detail  http://free-energy-info.com/Mohamed.pdf.

in the first sight wen the spark form the full parallel L/C  circuit, the current increase but the voltage will not decrease like ordinary parallel L/C circuit because the induced rotating electric field will build added elementary voltage which in turn make difference of voltage between adjacent turns , here we could achieve high current with high voltage since the voltage will go back to initial value when the current increase...

THE CAPACITOR IN THE E-TBC is a reference to something exist BUT CAN'T BE SEEING  :),  this is why we call it one dimensional capacitor that will open the correct door for negative electricity to enter into our device using the flexible spark-gap zone,  the word flexible here mean it's able to let the exchange to be done between negative and positive energy seas without problems, in other words it will let the space to be wrapped from + energy toward - energy and vice versa ....

the phase shift in the E-TBC mean the presence of one dimensional capacitor which in turn will be a no linear function with the inductance of the E-TBC.

why the load don't affect the input is another story.... the things are related with each other strictly, according my understanding the device will supply both -electricity plus +electricity, a special care must be taken to provide the best timing  for these reversed kind of electricity to be united correctly in the capacitor banks and then switched according custom need  OR  cancellation effect will take place!

More info are available here


http://www.energeticforum.com/renewable-energy/19857-resonance-energy-device-explained.html

Hello again !

a lots of work has done to this subject and a lots of exciting things happen, all my work about this can be found here :


http://www.energeticforum.com/renewable-energy/19857-resonance-energy-device-explained.html


after discovering the secret of extended Tesla bifilar coil another device come to play, it's the mixed extended Tesla bifilar coil , i need more replicator, i really need some help on this subject! this is my third years working on this device, you can join the above forum or just put your question here, or even send an email  :)