Ben,

Usually the dry charge batteries are formed but it is recommended to add the acid and charge for two hrs.

If you look at your waveform it looks like a capacitor charging and discharging, You might try charging a super cap and watch the waveform, Lidmotor did real good with the old plates, you have done real good with your converted battery. I have converted batteries that did not work for some reason. It always depended on how bad the plates had been abused. Lead Acid batteries take some real abuse. I wanted a battery that you could take to zero and not hurt it. Crystal batteries fit the ticket, but most of them only developed 1 to 10 Ma for days. I was looking for a battery to drive the SG oscillators to light Led's. By converting the Car type battery it was possible to run hundreds of Led's for two to three days with small amount of sun charging which we have in Idaho. One of the chemicals I talked about in the Earth Light Forum was Epsom Salts gathering heat to generate power. Epsom Salts only works one time in a Lead Acid battery to clean the plates. In a crystal cell with Magnesium it works for heat. You must boil all the water out to use it. Hydrates hold the water locked up in the crystal, so what you really have is a way to use the conversion process to make and use water instead of acid. I was only using Milliamps in the circuits but that turns out to be Amp Hrs for days in a linear discharge curve with the led shining bright all the way down to zero volts. The new Mountain West discharger lets you name the cell and set the cell instead of useing a per-determined curves built into the software. Chuck has done all kind's of experiments running Crystal Batteries for days so he basically can tell if something is going to last. We will not be getting any sun soon here, so we are developing circuits that use very low light to charge. I have 4000 watts of solar panels. So we need batteries that can use small charge to give long hours of lighting. I will be videoing a car battery conversion to a crystal battery. The field is very important but most only consider this a hobby or a social network and will probably die with a Cell Phone in there Ass never knowing how to get energy out of anything. I have talked to you before about what I have been trying to do with the SG and other things. You know what it takes to do things and the cost associated with it. So I respect everything your doing Ben. But I think you understand what is being done here. Some do the Experiments along with you others just watch. Good work Ben hope to talk to you soon by phone, just Pm me and I will call you.

Howdy Aaron,

I am trying to get the Battery Secrets video but all the links appear to be broken. Little help, please? Anyone else having this problem?

Thanks,

-Woody

I learned that nuts.com offers Alum at more reasonable price of 2.99 for 1 lb, plus shipping.

Roger that...

Do you think these lead plate alum crystal batteries will ever be able to work like the Magnesium Copper? So that all you have to do is add water?

Les

LesK,
The Alum batteries work with the hydrate they do not lose water the same way, But I always check to make sure that the water is above the plates in a conversion. The conversion to alum takes time to form up so cycling it works out the best.

Mr Bedini,

thank you for this amazing video.

I can see a few things on this video that vindicates your claims all this years. First it shows how to build this crystal lead battery.

Second it shows the amazing charge/discharge curves, which indeed has a very linear discharge.

Third it shows very clearly how your Tesla Charge technology works. I see now where those 2 amp pulses come from. They are from the battery itself plus the complementary energy from the solar panels. You are using a clever technique of swinging the battery during charge allowing it to charge to the maximum possible with the least possible of input energy and the shortest time. Almost like you are compressing the charging time for the same input power or even less.

It reminds me of the pendulum you show in you Radiant DVD series where you have the coil in the bottom and the pendulum swings by gravity with the aid of a little pulse you give for every period. You maintain the momentum and at the same time creates a powerful pulse that charges the battery, both batteries actually the primary and secondary with the losses of resistance and so on.

So you are actually using the power from the battey itself plus the complementary power from the sun to charge this cell extremelly fast. I would love to by that Tesla Charge of yours. This causes the battery to "de-sulfate" really fast because you are "charging and discharging" constantly during the whole charging phase. Now I understand why Peter L said that you spent hours and days looking at the scope shots analysing things, just like you show here on the video.

Now, I assume experimenters will have a little bit of trouble trying to replicate the fast charging and long discharge curves because they will most probably not have a Tesla Charge and therefore they will not have the beneficial COP that your charger provides but will at least allow one to create a cell and see by themselves the charge/discharge curve that is characteristic of this kind of hydrate cell, the linear discharge.

It is very genious of you to see that technique and implement a solution such as your Chargers.

I would assume SSG here would works very well for charging this cells too.

Please, let me know if did not understand your technolgy or I misinterpret it wrong.


@All,

guys, just do it. This is indeed a turning point concerning this "right now" technology. One can create many of those cells and charge them using Bedini's technologies or even solar panels, it will not matter. One can charge this cells very fast during the day and discharge them for a long period of time later and they will not break as conventional cells since this cell likes to be used.

Fausto.

Fausto,
Yes that is what is going on. Happy to see you here as you have done some amazing things too. Correct, people that are interested in this technology will understand what can be done. Lead Crystal technology is a little different in the way it works. It can charge much faster which means the SG or the Oscillator do not need to run that long. Alum Batteries stand in voltage a bit lower but that does not mean they can not supply the power for long periods of time. Thanks for the chime in Fausto you are more then welcome here. Please add what ever you want to this subject as I know you have worked a long time on the cells.

John, Fausto, you have brought up some good points. But now I have some trouble to solve.
My SSG cop went down very badly when running from my alum converted batteries. even when I series two, to put the voltage up. The impedance is quite different than an acid battery.
So here is what I had planned... I am about to start on my six coil build that I wanted to use to charge my L-16's(two for 12 volts). I wanted the input of the six coil to be alum batteries which are charged by my tracker.
the L-16's are going to stay lead acid only because that is what I need to run an inverter.
So I need a little advice on what I might do to optimize my six coil coils etc. to make the best use of the new impedance of the alum battery conversion.

Here is how I look at impedance, and I may have it all screwed up; school was a long time ago...
But I always saw impedance as a resistance to change. In that context change being something like a frequency. So if we call the frequency a ball and the impedance device a window, then when mismatched, we could look at the window as closed, or impeding the ball from going through... But If matched then the window was open. If I only have strength to throw the ball to a certain hight then By changing the impedance of the window I am actually moving the location of the window up or down on the wall while open to meet where the ball is being thrown. Sorry for the simplicity here but from my perspective this is the most critical function of almost every thing we do with this technology we call energizers. So I would really like to get this right. So when we look at the battery impedance of an alum conversion being higher (discharging)or lower(charging) than a Lead acid we have to compensate by making our coils with longer or shorter strands. Since in the solid state replication (or forced oscillator) with two transistors charging two batteries to show us about Krons work(which we still need to get back to...) that has a much shorter wire length than that of my SSG. But it charges to a very high voltage that so far seems to only be a surface charge. So, I am obviously not getting my impedances correct yet. just need a little brain tweek I guess........ but so far I see the impedance of the alum as higher than that of the acid(at least on discharge). which to me seems that I should make my coils slightly shorter?

Thanks
Les

Greetings All,

There's some great real work being done here in this forum with these technologies by many. I am glad to see it. With the economics of solar technologies now bringing our future of cheap clean energy much closer, real work in these fields of research is badly needed.

I'd like to pose an interesting question. Can a badly sulfated LA battery that has dried up and crystalized be considered to be a "Crystal Battery"?

Ossie

Good Morning John and all,

Its been a long weekend of charge/discharge, charge/discharge. Set charge/discharge rates and so on. I learned a lot. First, my little 4Ah mini pickle battery only has about .3Ah of capacity. I think you called it correctly when you said that it was essentially a "water battery". I'll have to buy another one just like it, put the acid in it, charge/discharge, etc. clean out and make a ALUM battery and see if my capacity is better with a battery that has had acid in it before it is modified. Here is a picture of the charge/discharge curve of this particular battery as of last night.



The Black line is the discharge @ 200 ma which I now realize is way to high but shows the discharge curve very nicely. The notch in it is the bug in my dis-charger that I'm going to have fixed. I looks like a bad data bit in the A to D converter to me but I'll let them fix it. Now look at the RED line, that is the Charge curve @ 200 ma constant current, both curves shown in min. Pretty straight forward but look at the VERY FAST change in impedance and rise to 14..5+++ volts give or take and look at the discharge curve below it. It would suggest that once you pop out of the normal charge area, that high voltage is doing very to add to the capacity, or maybe it occurs at a slower pace there, but the VERY RAPID "Knee" really surprised me. It normally does not rise that fast. When it levels off at the top, the battery then starts boiling and that is another area that needs to be explored!

Now what I worked on for the last 4-5 days is basically summed up in the next picture. I hope I got it right. I cycled the battery @ a 50% duty cycle 100ma, Period of 26 seconds, constant current for long periods of time and here is what I found.


There appears to be a specific point of voltage in the battery where the impedance of the battery and the currents coming and going are summed and only the difference is shown in the curve as a change.
The ALUM battery seems to almost be like a super-cap as John suggested in that it can take energy in and release it at almost 100% efficiency. I had times where for an hour or so, equilibrium was reached and the curve did not go up or down, it just sat there charging/discharging again and again and again. I started it above the equilibrium point and it slowly worked its way down till it stabilized. I also did test where I was below the point and it came back up and settled there. The notch at the left is because I realized I had started the test at a too high voltage and so stopped the charging part of the cycle for 3-4 min and lowered it to near the point and started it up again. I have an indication that it might be charging while it is at equilibrium but can not say for sure yet. So much little subtitle things going on here.

Lots more to look at with my inquiring mind. Remember all, John is doing this for serious as a business, the rest of us are doing it for various reasons, my reason is I'm just plain curious and just like to learn and understand things that happen.

Ossie, its good to see you in here. You do very good work too!

Respectfully,
Ben

Ok...my alum has arrived and I have two small 5AH lead acid batteries I'm going to be converting. See attached photo.



I just want to confirm the process before I get started. Let me know if I have anything wrong please.

1. Charge up both batteries
2. Empty out acid and dispose of (safely).
3. Flush out with mixture of distilled water and baking soda.
4. Continue to flush out with distilled water until it comes out clear.
5. Let dry upside down for a couple days.
6. Mix up 10% alum/distilled water. Adjust until it has a slippery consistency.
7. Pour Alum/distilled water mixture into the cells.
8. Charge up and discharge a few times to form crystals.
9. Ready to use!

This all sound right? I'm not sure if step 8 is totally accurate...

Also, my alum is not currently in a powder form. Do I need to grind these crystals down, or will they just dissolve in water?

Thanks for any help!

Branch,
Heat the water to get the alum dissolved.

Les

I think that is called a "Doorstop"


Tom C

Ben,Ossie.
Crystal batteries use Hydrates that is to say that the crystals lock in the water. However the Alum in a lead acid cell needs to be balanced.
Alum is made with Sulfuric Acid that is the SO4 however but you have 12 H2O's plus what you add. The best working cells seem to be where everything is balanced out. to be neutral, meaning the the solution can move between the two chemicals. Copper Sulfate can not do it because of the lead. PbO2 was my mistake in the beginning as that is the active material Pb is straight lead Negative plate. To use the alum the SO4 must be in balance. Then you will see a much different curve because it is not either lead acid or alum. The crystal will lock up the SO4 in balance, so you wont even know it is in the mix. This takes long hours of Research into the chemistry. We Are going to track all the curves including the original Copper Magnesium cell and show the curves, but it's the time involved. Please try to remember where I'm looking at running the cells. I'm only concerned about lighting for long lasting Led's. It almost like Solar Lights except the chemistry is much different. Will be posting more videos on the conversions.

My Alum conversion

Hi All,

I made a video of my conversion with alum.Nice adventure whit editing (i have four video to make one )
Be patient with my words, they are not always right.
I understand more and appreciate all the participants of this forum and work to make a video of this type.
I'm learning.
Impedance's, load ......... I saw that at the end, when I thought that the battery was almost empty, I changed the load (LED light) with a resistance of 20 ohms and I found that he still charged.
I think now I understand better what JB says about " when you know the battery that you have you choose the load."
The GoalZero LED has a resistance of 12 Mohm (this is what I measured) and the C20 discharge rate I made ​​with a resistance of 20 ohms so the discharge is different.Of curse.
At the end of the video (I ended up memory space) I continued discharging the battery with the resistance of 20 ohms for another 3 hours up to 5.46V @ 250mA then I short-circuit (dead short) for 3 minutes and went to 3V@ 1.4A then opened the short-circuit and it returned to 5.63V. The next day was resting at 8.14V.
I believe that for a start is good.
However, I will continue with the experiments now that I've decided to spend more time that finally have.
I have some lead ,to make my plates ,that a friend give me .
I do not know if I did something wrong, but if you want to correct me please do.
Thanks to JB and all of you on the forum. Is an inspiration.

Ralph