Free energy from harmonics

[Mario]

Hi Sparky,

would you mind showing a schematic? A quick hand drawing is enough, don't bother about parts, Fets, etc... Just to see your coil-caps arrangements. 

thanks,
Mario

[sparky2026]

The following table show values for output voltage for each filter, the sum and power gain for a input pulse of 311V of amplitude of 311V and duty cycle of 1/16, the load is 1 ohm




Hi my friends 

 I share with you as other people do it, results, theorical and practical facts let me build devices based in this principle

 Harmonics are free energy, reactive energy wasted, not used, but in common engineering is stated are trash, an undesired situation can be destroyed by filters
  The Parseval theorem is used for show all energy from harmonics is the same energy of the entire signal, but it sums all squares of each harmonic, however if we sum all amplitudes we get overunity and infinite energy if we process all infinite harmonics

 Quantum Mechanics says one quanta of a signal at f frequency have an energy

 E = h * f

But the n harmonic have an energy 

E= n * h * f

So energy of all harmonics or the infinite harmonics have infinite energy showing there is some wrong in the Parseval theorem 

  The calculus of Fourier series show the harmonics of a square wave don't decay or decay slow if the duty cycle is too low, let's say 2% or 1%

 My method is as follows:

* Generate a square wave of too low duty cycle

* Add filters, bandpass filters tuned to first, second, third or more harmonics

* The AC output of each filter will be rectified 

* All the rectifier are series connected, so the sum of all rectified will go to the load

In ideal conditions you can proof 

 COP = n

The following test is for audio frequency and I've used a coil in series with a capacitor as bandpass filter

 5 harmonics are processed 
as shown

The power source was 12VDC , 1A at 1% duty cycle

Input power 12 * 1 /100 = 0.12W

Load resistance = 1000 ohms

Flat voltage = 24 VDC

Output power = 0.58W

COP = 4.83

Is near to the theory must be 5 for 5 processing harmonics 

There is pictures for measurements and the circuit used

Regards

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Hi Sparky,

would you mind showing a schematic? A quick hand drawing is enough, don't bother about parts, Fets, etc... Just to see your coil-caps arrangements. 

thanks,
Mario

No too much electronics,  only the input DC source, a driver transistor and a square wave signal of low duty cycle as input signal for filters input

[kloakez]

I think Mario meant the input part. I think it should go something like this. I'll try to make better simulation later. Not much time now.

[Mario]

Hi,

yes I meant the input part (filter), and how it connects to the output rectifying part. A basic schematic showing how it is put together.

thanks,
Mario

[sparky2026]

I sent a private message 

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Hi,

yes I meant the input part (filter), and how it connects to the output rectifying part. A basic schematic showing how it is put together.

thanks,
Mario