Are you commending me for the one where I said, "I don't know squat"? We are all learning, some more than others. Matt has very good skills, both expermentally, and intuitively, so I do not intend to offend him, but I don't always succeed. He and you are the leaders in this technology, I'm still learning. I wish I knew a lot more about impedance, even though my "college" learnin' was in engineering, analog was the thing I hated most. Now I know it was important....but it was probably not totally correct anyway. I'll just keep plugin' along and maybe learn something one of these days.

Leroy

Maybe it can be explained with Dr Harold Aspden info:
http://www.newenergytimes.com/v2/arc.../N/N199612.PDF
Maybe the long pulse needed to almost saturate the iron core, but should be shorter enough not to fully saturate. Based from other writing, a heater like core of iron sandwitch is better for greater effect. The opposite of what current transfomer use, instead of perpendicular with direction of winding, it should be in parallel.

Am I right to assume that to get the best gain we need to:
- Turn off power H when the magnet B almost saturated / linier.
- let the magnetic field B reach half it's saturated state, not too soon, not too late.
- turn the power again until almost saturated
- repeat

No idea how we know the saturation level of the magnet though...

Hi Leroy,
SSR = Solid State Relay. The ones I use are cheapies from Sure electronics on ebay. about $16.00 post free includes heatsink. I would put fans on the heatsink if you test these out. Here is the link for me:-
Solid State Relay SSR 24-220V DC, 40A + Heat Sink - eBay Relays, Timers Counters, Industrial Automation, Control, Electrical Test Equipment, Business Industrial. (end time 11-Mar-10 13:22:29 AEDST)

p.s. mind you, I have a few spare heatsinks at the moment!


regards
rob

Matt
I have several Edison Nickle Iron alkaline batteries.
and I agree that they will probably be great for the TS cct.
I don't have enough MATCHED batteries to test it though except in my Big one it is 30 cells 60v and ~ 4' x 4' x 3' tall and the way they are all connected I don't even want to attempt separating the connections with it charged.
I do also have a bunch of info on them including All of his patents. they are not something easy to reproduce at least the way he made them, I can give you a lot of info on them if you want it, I have been messing with them for quite a few years.

Later
Dave

my ts

Hi all, after following this thread for some time i decided to build my own ts and do some experimenting myself. I made the non diode version John_K provided and for the controller i use a picaxe chip. The next couple of days i will do some testing and post he results if they are interesting enough

Thanks to all of you for the info on this subject

Regards,
scratchrobot

IMG_0164s.jpg

I remember JB indicating to use transformers, my question is why did he draw his drawings and put bulbs in there and say....you could get charging.

I also think our goals are different, I know we speak different languages in our heads or I wouldn't upset people. It is kind of like JB said, if you want power, just hook the battery up to the load. You can power it until the battery runs down, no problem.

So, my goal was a little different. My goal was only to charge the batteries while "in" the TS, like having 5 batteries, one for power, and 4 charging. Rotate in and out, giving continuous power, but if we can't charge then that is a mute point.

We can get more out of the 4 batteries we have which is awesome, but the batteries (in my case) do run down, so we need a way to charge them up without conventional power and a way that does not destroy the battery while charging. We know how to do that with JB SSGs and/or solid state chargers.

Perhaps using the transformer and increasing the voltage will allow us to charge batteries outside the system and still provide some power for other things, maybe my goal was wrong from the beginning.

Maybe if we could come up with a goal, and work towards that we would have better luck? Maybe if we stated our purpose in writing and some of us were working on that, then maybe we could accomplish it?

Leroy

Hey ALL
Look this is easy once you start to look at the Benitez patents.
He uses the same principal as discussed in the Ron Brandt article.
The problem probably is in the batteries and not the switching but we may be able to overcome that through reformatting of the battery.

You have general switch as shown by Bedini. With 2 load paths. One going one way and the other going the other.
You use it to drive a step up transformer.(As found in an inverter) A step up transformer from an inverter has 2 primary for input and Secondary for out put.
The switch will drive both primaries. One side drive one primary in one direction and the other drives the other primary in other direct.
The secondary will output AC at a higher voltage.
Up until now this is all shown in the BRANDT article.

Now you rectify the AC output into a capacitor. The Cap will only charge or maintain the charge at a certain rate. Thats the rate at which you want to use the energy. That will be the size of your load.

So you have a cap now full of power. You ground the cap back into the TS system. You run load between the cap and the low side of your system.

If the transformer recovers some energy and out puts some energy the transformer will be at some point generating. Make sure to put the generated energy back into the system while running a load.

You will not charge batteries but you get a higher potential to work with and will go alot further. You can at that point start figuring out the best solution for charging the batteries.

Personally I do not believe it to be in the system I believe the solution to charging is in the battery. But we can see.

Matt

This is where the bi-polar switch would come in, to know which side the negative of the cap gets connected to. When one side is more positive, then the cap neg is connected to the other...etc.

On the point about charging the battery. JB talks about a battery on the scalar charger not accepting charging from conventional charger very well. Either that means that it is being reformatted, or "holes" exist void of electrons. I guess the question is, does this happen with the 4 battery TS. I would think that it would, and it may show a lower voltage, but can still produce work...negative energy type work, so running motors, inductors, transformers, and lights. Maybe I just need to let this run until the batteries say 0 volts and see if they can still light a light?

Leroy

Eventually you'll just loose your switching ability. I've tried it many times.

Matt

I would think that too. JB has talked about Tom Bearden going to Bill and Rays and seeing the thing (think it was the scalar charger though) run when the battery said it had 0 Volts.

Did you ruin your batteries doing this? I assume you were using transistors when you did this, right? If you were using transistors, then there is no point in me doing it.

Leroy

Hi Matt,
I totally concur with the assessment that the problem lies with the batteries. Also, do not get too involved with the Benitez patent. Certainly, the use of high frequency coils will provide Voltage for rectifying.

The trick with the Benitez patents is to see where he converts Volts to Amps. Recall that at zero resistance Volts = Amps. So to my mind the Faure batteries generally available will create too much resistance, except when they breakdown and destroy my SSR's! Due to what I think is a problem for the TS, battery pulsing. This issue has not been clearly addressed in this thread to my mind.

However, IMHO, the patent of Benitez idea is heavily influenced by the Tesla notion of power from capacitve discharge. Again Volts = Amps an important concept to understand with a lot of Tesla's High frequency work. Therefore, it will be necessary to provide an earth return loop to a HV point in his circuit - not shown by Benitez - for the supply of extra current to maintain the threshold of supply from the batteries. This would be the Free Energy in this circuit.

I think too, that while the NiFe batteries will provide better results, the issue will be the extrapolation of results from small tests to larger operational units.
The early Plant type batteries might give similar results to the NiFe batteries. I am still working through the chemistry of batteries - not my strong point at school.

regards
Rob

Yep
Transistors, relays, commutator and brush, It never ruined the batteries though.
I blew one battery up with my simple motor once, thats worst I have ever done.

Matt

Iscc

This the latest circuit I am working with. It is relay based, but costs very little to switch. In fact one small pulse from your IC to an Opto turns it on and the same for another opto to turn it off.
It uses no diodes but charges the batteries evenly. It also leaves the near full potential. Works only with mechanical relays. The solid state ones do not respond to potential only, YET!!

The relays I am using can handle about 8-10 amps of flow but under the Tesla switch they can handle a little bit more.

I'll update it to include the circuit for driving the transformer I plan on trying.

ISCC

Cheers
Matt

Nvisser took his post down.

Quick thought. Have you tried FET (field effect transistors), they are designed to operate with potential only. Of course, nobody is perfect and some leakage current is present. If control via PIC or computer is available, then it should be possible to use "overdrive" effect to improve closing and opening times.