Environmental Sustainable “Free” Energy

This isn't free energy in the sense that energy is created from scratch.

This is free in the sense that I am not purchasing energy from energy suppliers (electric companies or battery companies and so on). This is the low power

energy sources found in nature (electromagnet radiation [man-made and natural], plants, and so on).

What is called a Tesla Generator

1.This circuit I have found on YouTube and purchased from a so called “Tesla Generator Secrets” manual from the Internet.

2.Parts List:– Diodes = 1N34

– C1 & C2 = .2 micro-farad

– C3 & C4 = electrolytic 100 micro-farad

This Tesla Generator is just a modified version of a Voltage Quadrupler

1.This is a circuit from Wikipedia. This circuit is a public domain circuit. It follows the law of conservation of energy.

Basics of a Voltage Quadrupler

1.This circuit still follows the law of conversion of energy. As the voltage goes up the current goes down to allow for the power to stay the same.

2.It doesn't matter it the transformer is a step up or a step down transformer.

3.The input is AC and the output is DC.

4.The Output VDC is 4 * peak of the AC voltage induced on the secondary via the primary voltage.

5.Peak voltage is the voltage times square root of 2.

6.For example,– Input Voltage = 110 VAC

– Secondary Voltage = 24 VAC

– Output Voltage = 4 * (Secondary Voltage * 1.414)

The Tesla Generator is a Electromagnetic Signal Voltage

Multiplier1.With this in mind, this also follows the law of conservation of energy.

2.This circuit multiplies the received electromagnetic voltage regardless of any communication value of the electromagnetic wave. You are just concerned with the power value and not communicating.

3.This voltage can be anywhere from 0.01 VDC to 2.00 VDC, depending on the antenna that you are using. You can even theoretically attach the antenna to some sort of RF receiver/amplifier and then attach that to the antenna connection of this circuit. The power will be still too small to power electronic devices.

4.There is a device that you can use to power one super bright LED, hence making an RF flashlight. That device is called a low power oscillator. It is a public domain circuit. But most super bright LED's won't power up until the source voltage is greater than 1.20 VDC.

5.The URL's are– http://www.youtube.com/watch?v=KnJFonvzr1E

– http://www.teslagenerator.com/

Low Power Oscillators

1.Low Power Oscillators start operating at low power ranges.

2.The most popular are the circuits called Joule Thief circuits. They are called “free energy” devices.

3.All low power oscillators also follow the law of conservation of energy.

List of a few Low Power Oscillators

1.Honeywell has one of these for use for their burner controls. They patented it. The U.S. patent number for this is 4,734,658. It is called “Low Voltage Driven Oscillator Circuit” . This uses a JFET. JFET's can be start at voltages lower then 0.3VDC.

2.There is another one that that uses a JFET with an audio transformer that is obsolete on a website titled “Oscillator with super low supply voltage”. The supply voltages are 0.04 to 0.1 VDC. The audio transformer that was used is huge and is an obsolete product. He had a 100:1 gain.

3.The URL is http://www.dicks-website.eu/fetosc/enindex.htm

4.There is low power oscillator that uses a bi-polar junction transistor. It starts to work at a level of at least 0.3 VDC. This one is called a Joule Thief.

Low Power Oscillator Circuit from their patent that belongs to Honeywell Inc.

1.United States Patent Number 4,734,658

Oscillator with super low supply voltage

1.This oscillator uses a JFET B310 and a transformer (model 952.431 made by Adastra). It starts oscillating at .05mVDC and produces 5.0VDC. The transformer is huge.

2.The URL link to this site is http://www.dicks-website.eu/fetosc/enindex.htm

3.The LED's Anode would be connected to the JFET's Gate. The LED's Cathode would be connected to the circuits Ground.

4.You may be able to use a 100:1 transformer from Coilcraft. The URL is http://www.coilcraft.com. The part number is LPR6235-752SML (1:100 Ratio)

The Joule Thief Circuit

1.The URL's are– http://blog.makezine.com/2007/11/02/make-a-joule-thi

ef-weeken/– http://cdn.makezine.com/make/wp_joule_thief.pdf

– http://www.emanator.demon.co.uk/bigclive/joule.htm

2.This circuit works from 0.3VDC. To light a super bright LED.

To Make A Decent Power Source

1.Connect the Tesla Generator to a low power oscillator that is hooked up to a super bright LED.

2.Now you have an electromagnetic wave powered LED flashlight.

3.Next questions:

– How many super bright LED's does it take to power one of those photo-voltaic panels (sold at Best Buy) that are designed to power a laptop?

● These panels produce 12 to 24 VDC.– What distance does allows for the least amount of super

bright LED's to be used to power this photo-voltaic panel?

To Make A Decent Power Source

To answer the question about how many LED's you need.– Go to eBay and buy in bulk 10mm, 5mm, and 3mm super bright LED's. The seller is from

china and these LED's come with series resistors that allow you to used 12 VDC.

– Go to eBay and by 12VDC power supply to power them.

– Set up the LED's in a grid so that you can position them above the photo-voltaic panel at a set distance for example 12 inches.

– Wire in a small amount and add a new LED each time until you get the Inverter to power up.

– You may also have to adjust the centering of the LED's over the panel as well.

Now That You Answered Those Two Questions

1.Now you know how many electromagnetic wave powered LED flashlights to make.

2.The photo-voltaic panel can be connected to an inverter.

– An inverter is an device that converts DC voltage to AC voltage. For example, 12 VDC to 115 VAC.

● This is the kind that is used in Recreation Vehicles for power devices like televisions.

● This is also the kind that is used in grid-tie for solar photo-voltaic power applications for homes or off -grid solar photo-voltaic applications for homes.

– You may need more than one photo-voltaic panel to power the inverter. You will need to multiply the of electromagnetic wave powered LED flashlights needed by the number of photo-voltaic panels need.

Inverters

1. Inverter from Wal-Mart (Power Bright 12V DC to 110V AC 6000 Watt Power Inverter). The URL is http://www.walmart.com/ip/Power-Bright-12V-DC-to-110V-AC-6000-Watt-Power-Inverter/15764397

2. A small car type of Inverter from Wal-Mart (Schumacher XI14 Power Inverter). The URL is http://www.walmart.com/ip/Schumacher-XI14-Power-Inverter/15140199

Solar Panels

1. Solar Panel from Wal-Mart (Coleman 55W Solar Back-Up Kit). The URL is http://www.walmart.com/ip/Coleman-58050-Coleman-55W-Solar-Back-Up-Kit/15063160

2. Solar Panel from Wal-Mart (Sunforce 123W Solar Kit). The URL is http://www.walmart.com/ip/Sunforce-39110-Sunforce-123W-Solar-Kit/15063007

Now An Even Better Idea For Energy That You Did Not Pay For

1.Now knowing how many LED's you need to power that photo-voltaic panel, you can just build low power flashlights. One low power flashlight is just one low power oscillator powering one LED. Make the number you need of flashlights that you need. (Hint: Use a BNC Jack for the power input to the flashlight).

2.You can utilize plants as living batteries. In the “Nuts & Volts” magazine, there is an article called “Flower Power” .– In the article

● Plants in the produce up to 0.8 VDC. Use the plants of your choice.● The Soil in the planter is the negative lead and the leaf is the positive lead. I have

found other sites and videos that say that plants are reverse voltage. I am not going to dispute this. I'll let you tests do this.

● Put a long corrosion machine bolt in the soil. This should be either galvanized or stainless steel. Put a sewing needle in the stem part of a leaf. This will make it easier to connect and disconnect the plants.

● Put your plants in some sort of greenhouse.

To Make Easier Plant Batteries

1. Use this type of leads (Jameco Part Number 11384) to connect to the plants needle and bolt.

To Make Easier Plant Batteries

2. Use pipe caps/plugs with a hole drilled through them to mount BNC Jacks (Jameco Part Number 658427). Before you mount the BNC Jacks into the pipe caps/plugs, solder 12 inches of red wire to the tip of the jack and solder 12 inches of a black wire to the ring washer of the jack.

To Make Easier Plant Batteries

3. Attach the pipe cap/plug with the mounted BNC jack into the conduit body middle connection of the conduit body TEE. The other two openings connect TEE's with conduit (plastic, galvanized, stainless steel, galvanized, rigid and EMT, flexible [metallic and non-metallic], and so on) other TEES and the project box/enclosure.

To Make Easier Plant Batteries

4. You need to position each TEE at the location of the plants. You will need to run conduit to each TEE. At one open end of an unconnected TEE cap it and at the other unconnected TEE run conduit to a project box or enclosure.

5. To connect to the enclosure put in a conduit termination hub, like the following:

To Make Easier Plant Batteries

6. Pull two wires (one black, one red) from the project box/enclosure to each TEE.

7. At the opening of the TEE's leave 6 inches of wires coming out. This is were you solder and heat shrink the two red wire ends and two black wire wire ends. You can also wire nut, butt splice, crimp, or whatever you want.

To Make Easier Plant Batteries

8. Connect each pair of wires to the top side of terminal block/strip or barrier block/strip of your choice. Organize the terminals using a blank terminal between plant source. For example, terminal 1 = blank, terminal 2 = Plant 1 (Red), terminal 3 = Plant 1 (Black), terminal 4 = blank, terminal 5 = Plant 2 (Red), terminal 6 = Plant 2 (Black), terminal 7 = blank, and so on.

To Make Easier Plant Batteries

9. You do your series and parallel connections on the bottom the terminal/barrier strips.

10. Count the number of power outputs you come up with.

11. Drill that number of holes and mount that number of conduit termination hubs. This will allow you to connect the pipe cap/plug that you mount BNC jacks to. The BNC jacks may need wires solder to it longer than the 12 inches above, since these will be wired to the bottoms of the terminals. You may even need to have the number of holes match the number of flashlights you need or you will have to use BNC splitters/combiners on the jacks (Jameco Part Number 118594).

To Make Easier Plant Batteries

12. Connect the low power flashlights to the project box/enclosure via BNC Cables (BNC plugs on both ends. These ones are from Jameco.

To Make Easier Plant Batteries

13. Plug the the photo-voltaic panel into the Inverter. Plug the inverter into what you want it to power.– Off-Grid for your house

– Grid-Tie In for your house

– Anything else

To Make Easier Plant Batteries

14. You decision:– Put low power LED flashlights and the Inverter in a

different room or sealed Project box/enclosure.

– Keep in the the same greenhouse during the day time the sun and the flashlights will be powering the photo voltaic panel.

– As long as the plants are alive the flashlights will be on.

To Make Easier Plant Batteries

15. If a plant dies, just unplug it and put in a new plant and prepare it the the same way.

16. If the plant is pot bound, then unplug it and put it a new pot.

17. All you need to do is to make sure that your plants have enough food and water. Your greenhouse should also also be kept at the the right temperature for you plants.

To Make Easier Plant Batteries

18. At the following URL (www.voltreepower.com), they have a device that can connect to a plant.

Conclusion

1. Every circuit on here follows the law of conservation of energy.

2. These circuits are not free energy in that they DO NOT CREATE energy from NOTHING. They use the low power energy that is around us.

3. The only free about these circuits is that the end user isn't paying for the energy used. The only payment is the initial cost of the materials to build these circuits and the cost of R&D of these circuits.

Conclusion

4. These ideas here efficiently uses the low power energy that is around us.

5. Every circuit here (with the exception of Honeywell's) is public domain circuits, the only money making that can be done is for someone to build the units and sell them.

Challenge To The Readers/Viewers

1. Determine how many LED's does it take to power up the solar photo-voltaic panel to operate an inverter.

2. Make the smallest electromagnetic powered LED flashlight.– Use the following: one Tesla Generator, one low powered oscillator, and one super bright LED (3mm,

5mm, or 10mm).

– Make a video that doesn't allow for someone to offer suggestions that you staged it.

– Improve on the Tesla Generator or even take that voltage quadrupler and use a RF transformer instead of a power transformer.

3. Make Joule Thief Circuits with JFET's that power LED's. You must show proof of functions.

4. Build Greenhouse power plants for homes. You must show proof of function and operation..