Mbrowwn says this in another thread about Imhotep's device:

Overunity devices are all over the place and have been used for years in my opinion.

Just take a standard universal motor and run it on DC, you will find it is 35 to 50% efficient. Now use it with Pulse width modulation and you find its efficiency jumps to 70 to 90+% efficiency, how can that be? The motor is actually no more efficient than it was before but there is something about pulsing a coil that improves "apparent" efficiency in a motor. This is called inductive kickback, it supplies a current in the motor that we did not apply that actually causes torque.

This in my opinion is an overunity event.

Not only does it provide torque but it can also be captured in a capacitor or battery.

As farmhand says, the induction motor is very interesting. Its build should tell us it will have a similar efficiency to a universal motor and I believe it does, 30 to 50%. It is its overunity principals that actually manifest an "apparent" efficiency of 80+%. Ask what is powering the rotor?

This in my opinion is a different overunity event.

You ask if there is anything that works? yes there is but getting us past that "apparent" 100% efficiency is not quite so simple.

Thanks for your comments mbrowwn. What were your results using these chargers for 12 volt batteries? I have followed the Bedini devices for some time, but I have often seen it mentioned that they do not show OU or COP>1, rather they are efficient chargers. Has your experience been different?

I like your proposal about making use of dusk/dawn, low level light on the solar panels. I currently have 400+ watts of solar panels, but typically, in the mornings, they are only outputting 40 watts or so, until about 10 am.

So, it might be possible to construct a system that used the Bedini charger at those low levels, if it could deliver more than the 40 watts.

Running the whole array through a Bedini setup would be interesting, but it would have to be sized to handle the whole 400+ watts.

I will do some more research on it, but if you have any details based on your own tests, I would appreciate it.

Looking online, I find that Bedini sells Tesla Solar charge controllers, which I assume are what we are talking about here. They are not cheap, though:
Tesla Chargers | Tesla Solar Tracker III

I have a MPPT controller right now, and although it only gives me a few amps early in the morning, it is still charging the batteries in low light ( not sure how efficient compared to these ones). But my MPPT controller was 1/3 the price of these things.

The only Bedini chargers I have, I built myself.

My fan had a charging efficiency of 97% + or - 5% while its mechanical was around 25% + or - 10% I think, trying to remember

Electrically the SSG does not show a cop>1 but combined with the mechanical it does.

Now a SG (trifilar) with a bridge rectifier if running on a C20 rate can but there is a problem. It crystallized my battery after couple of cycles making it impractical and not really repeatable. If you ask, I am sure others will tell you about this problem as it is well known.

To get electrical COP's greater than 1, typically we have to build exactly to the inventors specifications which most of us cannot do although it isn't impossible. They tent to express this high COP only under certain conditions and like the 3BGS these conditions can be hard to maintain.

There are many devices that produce anomalous results in one way or another, motors being a typical example. Just take your electric drill motor and disconnect one of the field coils, now watch the huge build up of voltage on the armature as it arcs all over the place. Where is that voltage coming from? If you now short that disconnected coil the arcing stops as the energy is being dissipated in the shorted coil. If you know what you are doing you can use this energy to power another device almost doubling the efficiency of the system

so if the motor is 35% efficient it becomes 70% efficient or there abouts. Now power it with PWM at the right frequency and duty cycle and you get x2 again but in practice we are just closing the gap on that 100% to maybe 95%

Now we need to add a third gain such as recycling the inductive kickback but because of capacitive losses it is only x1 unless we place that cap across the source thus reducing the input by half.

The key components of these types of devices are pulses, inductors and something to store energy in which can be capacitors (50% efficient) batteries (80+% efficient) or inductors (10 to 97+% efficient)

Remember energy in a system has to be conserved but power does not, if we discharge the energy twice as fast we have doubled the power. As an inductor can give us back close to the same energy we put in we have just doubled up the energy and so 4 times the power but we have to meet the right criteria for that to happen and we aint there yet.

Now I can waffle on for ages but you won't get it or believe it unless you do it yourself. Build that fan and you will be on your way to understanding. Its no good us trying to tell you, you have to see it happen and as we are not there with you, you will have to build it yourself. We can give you all the help you need on the forum.

Sizing the Bedini systems to your solar is the hardest part

When you say " build that fan" are you referring to Imhotep's device?

Sizing for my 400+ watt solar system would be a challenge, based on what I am seeing. Of course, I could buy a 60 amp charger for $1k (yikes!). Boy, that free energy ain't cheap!

All you need is a boosting device or a voltage doubler cap dump arrangement.

Like this.

http://i227.photobucket.com/albums/d...ller-rev-4.jpg

My first attempt. The boost coil works at 20 kHz and boosts the input voltage
into a capacitor up to the set voltage (about 25v for me) then dumps it, but
only up to 16.5 volts solar input, when it switches the boost off and just pulses as
required to maintain between 16.5 and 18 volts on the panel input.

If the solar power drops off like a cloud or overcast day the batteries are pulsed
with capacitor discharges from between 20 to 25 volts depending on input power.

When the battery reaches the set voltage (14.8 volts for me) the battery is
floated with minimal pulsing (a few watts at most) until it drops below the set
voltage 13.6v when it is gets the full power again ect.

I made it mainly as a battery conditioner that looks after itself.
I have the code I wrote for it on the other computer I can supply it if wanted.

Mine works every day it will still pulse the battery with less than 12 volts
input, slowly but from over 20 volts.

Cheers

One of the main discussions on these forums is the tech developed by Nikola Tesla. You want to see over unity as it were do some hard digging and read about what that man was able to do 100 years ago. Read and watch DR Lindeman's stuff of Tesla. Eric Dollard has been able to recreate many of his claims.

There are many things that can get you very close of even exceed cop <1 which is what we are really talking about. I have seen a cop of at least 1.0 out of some of my Bedini replications and even with some of the JT circuits on this thread. Lasersaber Linx ans the Slayer circuit. Edit: wasnt trying to say Ive achieved cop>1 with these. Just that I see it as being possible.

The idea here is to combine efforts to share knowledge and to try and advance some of this tech with out the support of Govn't or the financial institution. I am personally working on a patent for a high efficiency device and even that process is expensive as hell thats just the patient process much less anything else.

Dont be so skeptical or cynical This isnt the place for that but only in certain context To end my rant I will give you a more resent name with a proven cop>1 device E. Gray.

Your system needs to be matched to the output of the panels which is a problem with changing light conditions, I think the Bedini units may do that but I am not sure, best ask them that.

Yes they are very expensive but as I see it I would expect that.

1) No economy of scale as they don't have a huge manufacturing facility

2) Each unit is hand built in the US and not in a Chinese sweat shop

3) its a business so profits are applied

Imagine how much a cheap transistor radio would cost if it was hand built in the US by a top electrical engineer

The benefits they have are what I have listed and more

No he does not make OU Claims the reasons being similar to the fact you cant make any therapeutic claims for vitamins, we all know that vitamins do have therapeutic effects but under law no claims can be made. Even though JB's devices make no such claims I would not be surprised if they did under certain conditions however producing a charger or charging system to work under a variety of conditions would probably prevent the units displaying such properties.

By the way, I have no links with JB or his company its just that I have confidence that they will be a good product.

Actually I understand there has been some changes at John's company so I am not sure which parts are John's and which are not, best check with him.

Now back to the fan, I say that because it can be built for almost zero cost and you can do lots of tests with it finding what it can do and what it cant and it does not matter if you burn it out. Use it as a learning tool, that is why John gave it to us. Once you have got the hang of it either build or buy a bigger one. For someone who lives off grid like you these devices are great for keeping your batteries in good condition. There are mods to increase power too.

A computer fan is good for batteries up to 4Ah it can be modified to work well up to 10Ah. Bigger devices, bigger batteries. Check out the bigger fans too.

Many US made solar charge controllers that are vastly more complicated than these circuits (MPPT) range at 1/5-1/3 the price of his systems. I think your reason #3 is really the big reason for the exaggerated prices.

Reading that web page, there is quite a bit of misinfo about solar charging, makes me a little suspicious. The fact that there is no info on quantifying the proposed benefits is another suspicious issue. Typically, a $1K device has some reading material to go with it, a bit of data that tells us exactly what it does.

The main benefit, as I see it, is an increase of charge efficiency. We might see up to 25% increase, though if you have a MPPT already, I seriously doubt it, probably more on the range of 10% increase. Still, at 25% increase in power delivered, that is something. But I can purchase a 25% increase in solar power for $200 (US made panels), or 1/5 the price of these systems.

The next major benefit would be the conditioning of the batteries, and building or buying a voltage desulfator, you are looking at less than $200.

So, for $400, you can have the benefits of his $900 device.

IMO, their benefits do not justify the cost. If they had some data on the details of these benefits, then we could examine that, and maybe I am wrong, but going by the info I have, it seems like a big markup.

So, I will play with some small things and see what they do. I have collected a lot of bad batteries to play with the 3BGS, so if I can brng some of them back to life, that would be cool.

That is true, as long as the hardware is rated for the amps, a single
microprocessor controlled setup can be programmed to take various input
amps (different sized panels) up to whatever the hardware can handle. And if
the hardware is designed to allow it the input can be used in different ways.

Before building the hardware for my simple setup I didn't even know how to
program the chip to do what I wanted, but I did know what I wanted it to do.
With the main power mosfet on a continuously increasing pulse width relative
to the input anything from an open circuit to 100% duty can be done as long as
the hardware is appropriate. I had to learn as I went. With some clever
programming many things are possible.

I believe that in an open source community if a few people pooled resources
a very useful and reliable solar charge controller platform could be designed
along with detailed building instructions, PCB layouts, parts lists, program
code frameworks ect. So those that wish can make them on the cheap.
That goes for wind and combined systems as well.

Obviously people on these forums do not want that, so the best I can hope
for is that I show my stuff and maybe some guy in china will see something
useful about it and maybe include new features into future commercial designs.

If the open source community were to up the ante and out do anything with
comparable functions on the market but for a fraction of the cost to build
then the commercial entities will have no choice but to "out do" open source.
Benefiting all consumers.

Cheers

That is a good approach, IMO. It seems to have the benefits of the expensive system (pulsed charging, boost power in low light, battery conditioning).

Do you see an increase in charging efficiency with this?
What did it cost you to build?
what is the power rating?

Im no expert on solar systems, Im sure you guys know a lot more than me there, like the open source idea farmhand

velacreations, I cant argue with your maths however a desulphator does not rebuild your plates in the same way a Bedini does as far as I know. To be fair I would not buy one of these units until I was absolutely sure about it being able to give me real benefits, even if I could afford it. What I would do is build a suitably sized Bedini or other similar circuit to periodically charge my batteries with, keeping them in top condition and that could be done for a few dollars.

The 3BGS is great for recovering and desulphating batteries but I don't know if it significantly changes the grain structure of the plates, best ask the guys testing it for that.

Getting back on topic, I think we can safely say that there are things that work but as yet the power seems limited, COPs>1 are possible although not easy to achieve when you want high power and they have limitations. So for a person such as yourself it isn't the best news although there are some useful things you can take out of this.

I do believe that it is only a matter of time before one of us makes a breakthrough either here or on another forum. How long it will take I don't know but watch this space as it will happen.

I recommend you build and test some of the simpler devices to get a feel for how things work and then if you feel it is of interest to you, get into the more complicated stuff. You never know, it could be you that makes the discovery.

I always say "keep asking those difficult questions" because working out the answers helps me understand the workings of these devices.

yeah, I agree that is the best path forward. A decent sized bedini combined with an extra panel (or a solar tracker) would still be a lot cheaper than the $1K charge controller.

yes, I agree. Still, some of these things could have an effect, even small one, on an off grid setup. Conditioning batteries, lighting CFLs more efficiently, charging more efficiently, etc. There is no one device that will do it all, but each small gain in efficiency make a big difference in the long run.

that has been my strategy for several years, building the small stuff, try and understand it, get it to work, etc. I've built a lot of proof of theory stuff, but so far, nothing that really impresses me enough to warrant a large scale prototype.

The big issues, to me, is sorting through things to find projects that have potential. There is a lot of non working replications out there, with a lot of wasted money and time (though learned experience is gained). I try and avoid others' mistakes when and where possible, just to save a bit of time and energy.

Did you take a look at the GEGENE link I posted earlier? That seems like an easy replication, and although the use might have some limitations, it would be a good project to play with.

OU

Hi
In all the time that I followed this thread I realised that OU was only but a dream I have seen Zilano and others claim 10KW devices without any real evidence I kept on being positive in believing that it could happen I have seen people do amazing things but no OU I also realised that to get useful energy that It must be tapped from some existing source and the only source that I could think of was static electricity and the one other source that is in abundance is our own effort that is the same as winding up your clock alarm to wake you up in the morning and as velacreations said show me.