Free Energy From Thin Air!




About: I am a tech maniac; from media, marketing and design to alternative energy and more. Check out my website for links to all my projects.

"Free energy from the air?, Yea, right!" Sardonic skepticism was my first reaction to this unusual concept, as well.

Though, its not so far out there, in fact. Light can be converted to DC current with solar panels, electricity can be converted to magnetism as I did in my last article, in a microphone sound waves are converted to an electrical signal (by vibrating a magnet near a coil), solar rays can even be focused and converted to heat in awesome devices like this! When we think about it, energy is all around us and can be harvested in an enumerable many of ways.

Today, we are going to take a rather novel approach. We are going to build a device specifically designed to sense and capture a particular band of energy which is all around us.

The earth is magnetic and anyone who has ever used a compass knows this. Magnetic bodies in motion produce electricity, we can see this in any alternator, like the one in your car. So, therefore the earth is electric as well as magnetic, by definition.

Can we detect this energy? Yes, we sure can! Ever turn on a radio in the middle of nowhere and heard static? That is your radio picking up naturally occurring energy in the RF spectrum!

Can we use this energy to do work? Absolutely! This has been known for a long time. Crystal radios have been around since before the 1930's and can run with no input energy other than the radio signal. Even when completely isolated, but from the atmosphere, a crystal radio will produce a voltage in the earpiece resulting in a sound (albeit and undesirable one).

Well, this is where it gets interesting...

Can we replicate this effect? Yea, and with modern components like the high quality crystals found in germanium diodes, we can even increase efficiency. By applying this concept as a Crystal Energy Receiver we can take advantage of a wide range of energetic frequencies rather than tuning in to just one.

Can we scale it up? Definitely. Things like micro germanium diodes, high efficiency antennas and compact contemporary capacitors make the components that are required to build a crystal receiver fit in the palm of your hand. While there may or may not be a more efficient way, this renewable energy solution is simple to employ and can be scaled up, or down, indefinitely.

It sounds like we can build a Crystal Energy Receiver. Let's give it a shot...

Step 1: What You'll Need

One of the reasons this particular renewable energy harvesting method is so viable is the relatively few and easy to obtain materials required.

The simplest crystal receiver design needs no power and can be built with only three parts: a coil, a crystal and a resistor. We're going to optimize that design in order to produce a cleaner and more reliable output signal by first polarizing the input amplitude, then rectifying and filtering the signal. Then we'll add an antenna, case and connections.

Get the circuit diagram here
Get the kit here

The parts for the circuit include:
(1) Circuit Board
(1) 10-18 gauge Copper Wire
(2-12+) Ceramic Capacitors (matched)
(2-6+) Electrolytic Capacitors (matched)
*note various types of capacitors can be used
(4) Germanium Crystal Diodes (1A+)

Total Unit Cost: +/- $0.40 (USD, scaled for volume of 1,000+ units )

In addition, you'll probably want to get:

(1) Project box (optional)
(1) Antenna (a loop antenna or elevated antenna is recommended and can be made with copper wire)

The tools you'll need are:
Soldering Iron/ Solder (optional)
Oscilloscope (optional)

That's it. Yup, that's all. Once we've got it all, let's begin.

Step 2: Build the Circuit

We're going to build the simplest version of this circuit variation in order to understand how each component interacts and as a proof of concept.

There are three simple systems at work in the circuit that are composed of capacitors, which store energy, and diodes that direct it.

Energy in the band of radio waves, among others, will vibrate a wire antenna on an atomic level, sending a discernible signal to its lead. This signal will then meet the junction between two ceramic capacitors wired in series. This junction will force positive charge from the wave to travel in one direction and negative charge in the other direction which, when collected again, makes the signal uniform and polar. Connecting the two capacitors in series creates leads on each end; the now positively charged side of one and the now negatively charged side of the other creates a two cell battery.

This next stage of the circuit takes a signal with a net value of zero, adds the absolute values of the positive and negative amplitudes with respect to the origin and produces a positive integer. This concept can be thought of as taking:

(+1) + (-1) + (+1) + (-1) = 0

and converting it to:

| [(+1) + (+1)] | = 2
| [(-1) + (-1)] | = 2
= 4

Isn't math fun?

To each of these leads from our two capacitors in series, we will connect two crystal diodes, one facing each direction, to form what is called a bridge rectifier. A bridge rectifier is a configuration which will convert an alternating current to a direct one by cleverly rerouting the signal.

By connecting the bridge rectifier as shown in the circuit diagram, this direct current from the diodes then charges the electrolytic capacitors. This stage normalizes the amplitude, making the current constant and usable.

Components can easily be twisted together for testing and then soldered to a circuit board to secure.

Step 3: Test and Optimize Your Circuit

To test and analyze our circuit, we'll be using a digital voltmeter and oscilloscope.

By connecting a voltmeter to the output, we'll immediately begin to see a small voltage climbing in the 10-100mV range. If not, we'll want to check our connections and make sure the circuit is not isolated from the environment by taking it outside to a clear area.

Then, by connecting an oscilloscope to the outside leads of our two ceramic capacitor bank, we will see the the polarized signal being captured from the air around us. We can then connect after the diodes to see our varying direct current and then to after the electrolytic capacitors to see a normalized, usable direct current at our output.

We can then optimize the input resistance in two ways. Firstly, we can add additional ceramic capacitors in parallel to our original two and make sure our soldered connections are consistent and thick in this area.

We can optimize the circuit's capacity by adding electrolytic capacitors in parallel to our original two which will allow this circuit to charge slightly when not in use. For this purpose, a charging circuit can also be added here in order to incorporate an optional battery bank.

We can optimize the antenna by attaching loops and coils of copper wire in various positions, store-bought antennas or by stringing some wire up to the highest point you can reach.

We don't have to stop there, either. We can now connect multiple circuits in series to increase voltage or in parallel to increase current. This can be done indefinitely.

Step 4: Add a Case and Antenna

After choosing an antenna in the last step we'll now want to permanently wire it. Whether you choose a compact antenna for portability or a tall fixed antenna for power and range, we will wire it in the same manner according to the diagram in the previous step. Note that the input on the configuration here is grounded to the metallic case, and thus the users hand, and incorporation of longer antennas will require proportionally more substantial grounding.

We will then attach a terminal to the output to allow us to connect this circuit to an electrical device or charging circuit and battery bank.

Next, we will add a case, making sure to isolate exposed leads with non-conductive material especially if mounting in a conductive case. A piece of cardboard secured with glue is sufficient for the circuit's bottom and shrink wrap or electrical tape can be used in the case of any additional exposed leads. Drill two holes in your enclosure, one for the antenna or antenna lead and another for your output terminals. You can then insert your components, fasten the enclosure and your device is ready to use!

Step 5: Your Crystal Energy Receiver Is Complete!

Your Crystal Energy Receiver is now complete and ready to use!

I built a portable version, for proof of concept and demonstration purposes. However, you can go as big as you want- to passively charge batteries or run equipment remotely; or go as small as you want- to power sensors, RFID devices, small electronics and more.

I used this harvested energy to easily power a low-consumption quartz clock, a digital chronograph with integrated circuits and LCD and was even able to momentarily rotate a small dc motor.

Because of its simplicity this device is a durable, efficient and reasonably effective method of harvesting radiant energy in a simple, replicable and sustainable way. I humbly hope that the contributions made here, and by those reading, can be one day used by people worldwide to conveniently capture free energy.

Thanks for checking out my project and I look forward to seeing everyone's variations, suggestions and improvements!



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248 Discussions


3 months ago on Introduction

Iam from indonesia.
Thank you i realy like your tips..
May be i can get your phone number?
Or for a better ,....your whatsapp acount?
I've been dreaming about create an electricity from air,
But dont have enough knowledge..

I will use this device to making a phone charger..
So if you may be ...permit ,...with pleasure..
How if you build this device..
,that can produce 5v 2ampere so its can use to charge smartphone anywhere,which dont need any other electric source??

2 replies

Reply 3 months ago

I hope you will find the instructions here sufficient, however for further questions regarding getting a parts kit or scaling this design up, you may contact me on my website at


Question 1 year ago

Ηello. I would like to post a question. I was getting 1.5volts steadily, from one capicitor and then it dropped to 0.100. The antenna was in the same place!
Thank you

2 answers

Answer 5 weeks ago

Same here, I can't figure it out, it was 2 volts and it died forever, now they just collect 20-70mV I think the electrolytic caps die off for some reason of high frequency...


Answer 9 months ago

I think when you measured 1.5vdc the cap was discharging, when it was done discharging the voltage went down to 0.1vdc.


2 years ago

Very interesting project! Is the circuit presented here strong enough to turn on a led or not? If not, what I have to do? Build the circuit two times?


1 reply

Reply 7 weeks ago

Yup, pretty much. But first start by making sure your antennae is as tall as possible and your ground is sufficient.


2 years ago

Sir i am getting 0.06v but negligible current. I am unable to light a LED. I wanted to know how can we connect similar circuits in series or parallel. I would be grateful if you upload a schematic diagram for the same.
Thank you.

2 replies

Reply 9 months ago

This is what I will be trying: Make a longer antenna of copper wire, at least 30ft long. Have 4 antennas in parallel then hook them to this device. Look at output voltage. Now use buck convertor to decrease voltage, which increases the amps.

But at first I will try one thin copper wire, measure voltage and amps, and one thicker copper wire (14ga) of the same length and see the difference between voltage and amps produced.


Answer 7 weeks ago

Want more power? Connect a bigger antennae and add a sufficient ground. Want even more? Connect these circuits in parallel for more current, in series for more voltage.


Question 7 weeks ago

Can this Crystal receiver be adapted for an argone generator?

1 answer

Reply 7 weeks ago

I'm not sure what an argone generator is, but if it can run on electricity, then yes.

I looked it up and found a variety of esoteric looking devices by that name. Are you asking me if this is a magic wand? Well, if you define a magic wand as a device which uses the unique properties of crystals to summon energy from the aether... then, yes. That is precisely what it does!

Here is a link to the kit so you can build one for yourself:


Question 9 months ago on Step 1

Can I use an electrolytic cap in place of the 104 caps? I'd like to use all electrolytic caps at 100uF and 400v.

1 answer

Answer 3 months ago

No, ceramic caps are required for this part of the circuit to function.


Question 9 months ago on Step 1

How much can the specs on the capacitors vary? I want to use a 20-30ft wire on a PVC pole as my antenna, and might get 100v or so. Should I just increase the voltage rating of the caps to about 100-150volts?