High Efficiency Lamp Driver

We can't make energy out of nothing. With that said we can find methods to use very little input source so we don't have to put in much work or money wise to get operating. This lamp driver does just this.

I use a current reactance limiter on the mains 60 hertz power line or any other source of 60 hertz 110 volts power, Your generator, Your windmill etc....

The current limiter as per ohms law x= 1/2*3.14fc
I = v/x

So 60 hertz with around 1uf gives us about 40 ma of current only!

We use the mostly pure voltage to quickly charge a 10uf or more capacitor. With very little current input. The capacitor has an SCR diode that is triggered to dump this cap into an additional super capacitor bank a few times a second we get a pure 100 volt capacitive joule or amps per second discharge. This pumping also has an electret like effect while being pulsed as such. An additional advantage of also using a super capacitor bank is the elimination of the high impedance battery charging stage needing more current.

So basically the 12 volt super capacitor bank takes this form of converted negative energy from the reactance box and capacitor high voltage pules. back into a form of regular low voltage higher current DC positive energy that is able to drive a very small very high efficiency high frequency AC inverter.

This inverter drives a 15 watt lamp no problem because its high frequency. The 15 watt lamp operates at full spec lumens usually requiring an input of 15 watts. We are driving it with only an input that we need to pay for of 40ma.

The rest of the needed input is being provided by the local vacuum. And clever circuitry. Not a trick or a cheat for free energy bypass of the electric "smart" meter. . The whole circuit except respectfully, the super capacitor stage. operates as an open looped system so it can re gauge itself.

Not only does the lamp operate at full capacity in this fashion. The voltage keeps rising on the super capacitor bank as it keeps getting many discharges of 100 volts a second from that 10+ uf capacitor dump simultaneously. I'm actually needing to load this more with some time as the super capacitor bank can only handle around 13.5 volts. As you see from the meter the charge holds and even goes up instead of down as the super caps do a super job at converting this kind of power back into something useful!

I must point out that this lamp would not operate directly connected to the reactance X output of only 40ma! It requires 15 watts of input current at 60 hertz. We are not providing anything close to this level with this intentional current limiter stage. But at the end we are able to light bright and sustain the system with very little input drive from the operator work wise or money wise. No free lunch. Just efficient.

Forum:
http://typeright.social/forum

Please Help Support My Research: https://youtu.be/pYXETBB40j0