This is a Joule Thief Flashlight. I simply modified a cheap 5 super bright LED flashlight that ran on 3 AA batteries by gutting it and using a simple Joule thief circuit which now runs on 1 AA battery. This circuit uses a 2N3904 transistor, a 1K resistor, 1″ ferrite toroid, and 22 gauge bifilar wire windings. The components cost less than $3.00. This is easy to do and it is a fun project for everyone. This light will run on “deadR…
This is my earth battery running a 48″ (40 watt) florescent tube. It is not at full brightness but it is lit and lit pretty well. It is much brighter than it appears on the camera. i am using my earth battery and running the output into two 2.3, 10 Farad supercaps in parallel with my modified Fuji joule thief circuit. The earth battery does not put out enough mA’s to run the Fuji circuit by itself. The supercaps allow it to power the…
20 ohm rheostat, 15 turn variable 1k resistor, and 28 ga. magnet wire for the secondary and pick-up coils. I used solid copper 22 ga. wire for the primary. The cfl is a 40 watt equivalent rated at 9 watts. In the video, I am running from a 1.4 volt C cell but, I have run this on an AAA and an AA and a D cell as well using my magnetic universal battery holder idea. For more information, go to overunity.com in the joule thief topics area. This is …
ferrite bead is used for the coil. It is wound with 22 ga. stranded wire. I have been able to light 400 leds from a single AA battery using a similar circuit. The JT circuit is not free energy by itself but, I am planning on running this from my earth battery, which is free energy, and this will light more lights. More videos to come. …
…e south. (Not magnetic north and south) A quick test with the meter showed 1.8 volts dc output which will get better over time as my last one did. I don’t have a mA reading yet but I will put one in the next video. I am running the led (28000 MCD) with a standard joule thief circuit using the 3904 transistor, a 1k ohm resistor and a ferrite bead instead of a toroid. I just wanted to get this out fast to show that free energy is available fr…
This is my earth battery powering a joule thief circuit and running 7 ultra bright, 10mm, 28500 MCD LEDs. I misspoke myself in the last video, these are 28500 MCD not 28000 like I stated. It is good to get corrected sometimes. I won’t go through the circuit details here, you can check my earlier ones for this info. The only real difference is that I added a second 2.3 volt 10 Farad super capacitor to the circuit. I only did this because I …
I am replicating a test I saw on the net where folks listened to their Joule thief circuits using an AM radio. Yes, this is still the same old AA battery as I used in all of my previous tests. Here I test a regular Joule Thief toroid circuit and the Fuji AA battery circuit. for more info, please go to my topic “Joule Thief” on Overunitydotcom. …
My modified Fuji AA Joule Thief circuit illuminating 400 leds using an old AA battery for power. For more info go to Overunitydotcom in the joule thief topic. Thank you. This is NOT free energy but it is a very efficient circuit that I can use to obtain free energy as you will see later. …
This is my new and improved earth battery running 4 ultra bright 10mm 28000 MCD LEDs. I am using a standard Joule Thief circuit wound (bifilar) on a ferrite toroid this time. An N3904 transistor, 1k resistor and a 2.3 volt, 10 Farad super capacitor. The earth battery is putting enough out now to not only run these leds, but also charge the cap as you will see when I disconnect it and bring it inside. I can run more. For more information, go to O…
This is two Joule Pirates (Joule Thieves) wired in parallel running off of one AA battery powering a 48″ tube. (40 watts) The funny thing is that the tube is brighter with just one circuit turned on than with my single circuit experiments from before. This is much brighter than the camera shows. (Auto exposure) With both circuits turned on it is very bright! for more info, please go to Overunitydotcom in the joule thief topic area. …
17 November 2009 at 09:42 · Comment
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