Efficient Battery Charging
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- čas přidán 21. 08. 2024
- Good day, folks! Today, I'm using my previous PEG cell circuit to charge a 12V car battery of unknown condition that was given to me.
The efficiency is impressive. The 100V high-current 28μF discharges are effectively charging the battery alongside the 24V stepped-down inductive kickback spikes. The PEG cell functions as a reactive element, limiting the DC power supply stage to only a few milliamps without the traditional heat waste you'd get with resistors. A resistor would become red hot under these conditions, but the PEG cell remains cool and operates in an open-loop configuration with no continuity.
Additionally, the temperatures remain very acceptable, and the oscillator runs efficiently with very low current. When I bypassed this PEG setup and used the full 1.5 amps rated at 12v PSA direct connected to mains., the oscillator heated up beyond touchable levels within a few minutes, with no significant increase in capacitor dump rates-just wasted current. The PEG cell, acting as an electret, significantly contributes to the system's efficiency.
For more details, please watch my last video, which includes system details and a circuit diagram. If you're curious about the PEG cell, check out my POWER CELLS playlist. All the information you need is there.
Absolutely AWESOME Work Joel, I Love This Circuit And I have Built Something Similar, But I Like What You are Doing and Will TRY IT FOR SURE ....You ROCK ...!
Thanks!
I always tried to tell anu and other people that you need to rectify it and send it into a second transformer as pulsating dc Instead of taking the direct output. I think he finally got it when he discovered the choke. Don Smith definitely did this. Going in series is something I never gave too much consideration until recently. But yes the fact that you are doing it with no consumed power is the real eye opener here
LOUDER
JOEL YOU ARE A LIVING SUPER HERO!!!!! Just love how you dumped the nay SAYERS..... True champion of humanity! 🎉🎉🎉🎉🎊🎊🎊🎊🎉🎉🤣🤣🤣👍👍👍👍👍🥇🥇🥇✅✅✅
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I believe with the PEG cell you can improve all of the circuits you did in the last years. I see you are doing one by one. It's very interesting to see. I prefer a circuit with no 1kV. That's something for pros which I'm not.
Hi Joel, I think it would be helpful to have a meter on the ac to prove there is only milliamps being used, also it would be interesting to see if it is a smooth draw or in pulses like the rest of the system!
The capacitive limits are hard and can't be exceeded. I've demonstrated this in previous videos, but they often go unnoticed, and I don't want to waste time repeating myself only to be ridiculed. To understand how capacitive power works, simply input the values into an online calculator-values between 1-10μF will show you're dealing with milliamps. There's no need to show input and output meters repeatedly, as some people claim it's incorrect regardless.
@@joellagace1679 I only seen your reply now, for some reason yt only sends notifications if someone likes a comment but not if they reply! Even @'d name replies don't appear in mentions. I mean it looks like a massive breakthrough but seeing the energy consumption at the wall socket while the battery is charging would be great!
som1 make a reel from these videos for TikTok already
Don't know anything about it :)
so dope 🤯
oh nice
Disregard my last update, I went ahead and deleted.
ChatGPT:
Most modern USB phone chargers include internal rectifiers that convert AC to DC. These chargers are designed to handle a range of input voltages and often include components that allow them to work with DC input as well, albeit not officially specified.
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Sounds about right
@@joellagace1679 also, I'm not sure what's happening. My 9v battery, not connected to anything, just the voltage meter, is picking up AC readings. Says 16.9v? Maybe the cell did something to it? Meter is set to V~ 200.
Try it with another battery, Some meters do that
@@joellagace1679
All my 9v batteries are showing 19.0v and above. The voltage meter has a new battery inside as well, for good measure. Hmmm
By the way, the cell that I'm using has Rochelle salt mixed in. Seems to work better, the led light is much brighter.
I melted the peg, mixed Rochelle salt, then added a little bit of water. It looks like it's dry and has hardened.
Good experiment, but try to charge 2000 v 2uf non polar capacitor and switched trough high voltage igbt to get step down voltage efficiently
Hi Joel, is there a way I can contact you directly?
Try his forum.