I designed and built a battery de sulfater device, I sold this unit on the internet, it was basically an inductor, capacitive discharge system, it would produce a 150 volt, pulse of about 5 Nano seconds duration, controlled by a Tiny13 AVR chip, I programed with 3 selectable pulse rates. This device worked very good in restoring batteries, and I sold many, and all customers were happy, and I received positive feed back on E Bay for them, I did find that it was very important in the restoration process, to limit the charge current to only about 1 amp, until restored, then cycle through a few charge, discharge cycles, gave me about 80% success. But excessive amperage during DE sulfating, caused a higher rate of shorted cells. If interested, I have my circuit, pcb bord layout, and advertising txt i used while manufacturing them. Good luck.
I appreciate the advice. Do you thing the 150v could have been the reason for needing current limits. Have you tried pulsing with just double the batteries max voltage rating? I still have plenty testing to do, just curious.
I liked the video even before it loaded! I was waiting for a new video from you like a kid is waiting for Santa! You never disappoint! Thank you for sharing!
I think we should adjust the name of this process to 'Pop a Cap' as in 'Pop a Cap in your Ass' Well done for supporting Kenergy , but in general it's very simple, an SCR a Zener and a Cap. More people need to discover this trick for taking high voltage low current and charging batteries.
Yes I did, but the most effective process was a high pulse. I found that as the battery rejuvenated, the peak voltage would drop to 50 volt's or less, The pulse voltage is not important, its the amperage it's delivering, this is what breaks up the sulphate in the battery. I have seen them connect a battery to an 200 amp Arch Welder, and claim success, I'm skeptical of that. In my research I found documentation claiming that the high peak pulse does not harm the battery at all, due to it's short duration, but breaks up the hard sulphated deposits in the battery, and the charging cycles break in down to Sulpheric Acid again, The heat of high amperage during recharging warps the cell plates, causing shorts. Once the battery is restored it can be charged normally.
@@redesign3dp Thanks for the info sir. I normally quiz AI for these facts, but it has been resistant lately with terms like "mainstream scientific community", "empirical scientific evidence" etc. I've been lucky enough to have access to Tesla's book of writings and research notes but I haven't yet come across anything on condensers as he liked to call them. I'm very grateful that you, K and 3D Print F.M are so forthcoming, I would be lost without you all, but I don't want to be a nuisance either. I will pay it forward to new experimenters as you have to me. Thank you again sir.
Really awesome. I am definitely going to check out his store. I need to find a system that switches batteries from a run to charge and vice versa . Where could I find one of those or schematics for a two battery system? Thanks. Keep up the great work.
I designed and built a battery de sulfater device, I sold this unit on the internet, it was basically an inductor, capacitive discharge system, it would produce a 150 volt, pulse of about 5 Nano seconds duration, controlled by a Tiny13 AVR chip, I programed with 3 selectable pulse rates. This device worked very good in restoring batteries, and I sold many, and all customers were happy, and I received positive feed back on E Bay for them, I did find that it was very important in the restoration process, to limit the charge current to only about 1 amp, until restored, then cycle through a few charge, discharge cycles, gave me about 80% success. But excessive amperage during DE sulfating, caused a higher rate of shorted cells. If interested, I have my circuit, pcb bord layout, and advertising txt i used while manufacturing them. Good luck.
I appreciate the advice. Do you thing the 150v could have been the reason for needing current limits. Have you tried pulsing with just double the batteries max voltage rating? I still have plenty testing to do, just curious.
5 nano seconds is amazing ! well done sir, i wouldnt mind having a look at the circuit ! : )
I liked the video even before it loaded! I was waiting for a new video from you like a kid is waiting for Santa! You never disappoint! Thank you for sharing!
What a nice comment, thanks brother! Wait until you see the next one...
K energy offers a lot of great circuit designs
Sure does!
I think we should adjust the name of this process to 'Pop a Cap' as in 'Pop a Cap in your Ass' Well done for supporting Kenergy , but in general it's very simple, an SCR a Zener and a Cap. More people need to discover this trick for taking high voltage low current and charging batteries.
Yeah SCR's kind of work, but with different voltages tend to latch open. His is mosfet based which is a bit trickier.
wow thank for letting us know about his store. I'll be getting few items myself :)
10-4
Yes I did, but the most effective process was a high pulse. I found that as the battery rejuvenated, the peak voltage would drop to 50 volt's or less, The pulse voltage is not important, its the amperage it's delivering, this is what breaks up the sulphate in the battery. I have seen them connect a battery to an 200 amp Arch Welder, and claim success, I'm skeptical of that. In my research I found documentation claiming that the high peak pulse does not harm the battery at all, due to it's short duration, but breaks up the hard sulphated deposits in the battery, and the charging cycles break in down to Sulpheric Acid again, The heat of high amperage during recharging warps the cell plates, causing shorts. Once the battery is restored it can be charged normally.
Makes sense, thanks for you knowledge sir!
You are welcome.@@redesign3dp
Why use capacitors at all? Why are the spikes not collected and sent directly to the charge batteries, sir?
Tha caps convert high voltage low amp spikes into lower voltage higher amp pulses.
@@redesign3dp Why did K choose 5amps for the dump sir? Would this suffice if you had 4x12v batteries connected together sir?
Amps get restricted by the cap bank size and the load resistance. Parallel battery's would have less resistance.
@@redesign3dp Thanks for the info sir. I normally quiz AI for these facts, but it has been resistant lately with terms like "mainstream scientific community", "empirical scientific evidence" etc. I've been lucky enough to have access to Tesla's book of writings and research notes but I haven't yet come across anything on condensers as he liked to call them. I'm very grateful that you, K and 3D Print F.M are so forthcoming, I would be lost without you all, but I don't want to be a nuisance either. I will pay it forward to new experimenters as you have to me. Thank you again sir.
Search for LM studio on UA-cam, you can get uncensored models on your desktop
Really awesome. I am definitely going to check out his store. I need to find a system that switches batteries from a run to charge and vice versa . Where could I find one of those or schematics for a two battery system? Thanks. Keep up the great work.
Look through my videos, I have a latching battery swapping relay idea you might find useful 😉
@@redesign3dp Awesome!! Thank you.
Where do I get one?
Kenergy.store
Great video!!! Thank you so much !!
You bet bro!
What’s powering the bendini motor?
A bench power supply
schimatic ??
Not mine to give away. Check out Kenergy.store