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OS:Stiffler Cold Electricity Circuit

Lasted edited by Andrew Munsey, updated on June 15, 2016 at 12:51 am.

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Ronald R. Stiffler has come up with a circuit that he calls a "cold electricity" circuit that appears to be harnessing free energy from the environment.

: "This is a totally self-contained, self-powered circuit. There are not tricks to it." -- Stiffler (Oct. 11, 2007)


Most recent first.


Minutes. Cold Electricity Part 7

Replication of Dr. Stiffler SEC. (YouTube Nov.27, 2007)

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1.33 Minutes.Cold Electricity Part 6

Replication of Dr. Stiffler SEC. (YouTube Nov. 22, 2007)

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4.34 Minutes. Cold Electricity Part 5

No ground this time. (YouTube Nov. 19, 2007)

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1.34 Minutes. Cold Electricity Part 4

Fourth in series of Cold Electricity experiments. (YouTube Nov.4, 2007)

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Minutes. Cold Electricity Part 3

Cold Electricity ( Variations of Dr.Stiffler plus some Bedini and Konstantin Avramenko. Super simplified version. (YouTube Nov.3, 2007)

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4.39 Minutes. Cold Electricity Part 2

More improved and stable CE generator. Calculations at end of video are of special interest." YouTube Nov.3, 2007)

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8.11 Minutes. Cold Electricity Part 1' - Have a look at this first replication experiment Part 1/2. ('YouTube'' Nov.2, 2007)

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4.31 Minutes. Cold Electricity - Dr.Stiffler (Variation)

(YouTube Oct.30, 2007)


post here

Dr.Stiffler just answered to me regarding the choke:

"It is in series on the drain side. It is necessary."

Regarding the ferrite transformer:

"... it happens to cause the core to ring at the 4th (of 3.58mHz) and the

MOSFET starts up as a parametric pump. I adjust the phase with the FE beads

and the circuit is totally AC under its own power. Complicated to view the

thing, but with care is possible. Has a field around it that is quite large.

This is a core thing and causes a parametric feedback."


list here

Inventor Profile: Ron Stiffler

Ronald R. Stiffler, D.Sc. - YouTube user page

In the News

Image:110428 Stiffler SEC 95x95.jpg
Latest: Directory:Electromagnetic > Directory:Atmospheric Electrostatic Energy > OS:Stiffler Cold Electricity Circuit > Stiffler's Space Energy Coherence (SEC) lights up - Dr. Stiffler has posted another video demonstrating how to collect energy from the ambient environment, in this case brightly lighting 12 LEDs. His simple setup utilizes a couple of coils and a "Spacial Energy Coherence" (SEC) circuit along with a small tower resembling those used by Nikola Tesla. (PESN and BeforeItsNews May 3, 2011)
Image:Stiffler SEC Exciter Hydrogen Production via 4Diodes 95x95.jpg
Latest: Directory:Electrolysis > OS:Stiffler Cold Electricity Circuit > Directory:Dr. Stiffler's Spatial Energy Coherence (SEC) Exciter Hydrogen Production via Diodes > Stiffler's Spatial Energy Coherence (SEC) Hydrogen Production via Diodes - Dr. Stiffler claims that the anode end of a diode can create electrolysis in distilled water via inductive coupling through a single wire from a 12-volt battery going through an (SEC) exciter attached to a copper tape wrapped around the base of a glass enclosure and that the number of diodes can increase, without increasing in the input power. (PESN June 25, 2010) (Comment)


Selfrunning cold electricity circuit from Dr.Stiffler ( Oct. 11, 2007)

If you apply 2 Volts peak to peak via a 10 KOhm resistor (if it is high frequency, the 10 pF cap mentioned,might just be I neglected it..) so the input power is around 400 microWatts. The output power is 2.73 Volts x 25 miliamps = 68.25 milliWatts. So ouput / input is around 170. (Stefan Hartmann Oct. 11, 2007)

comments on video 2 by PM:

This circuit is similar to a very common circuit used by thousands of people everyday to

power the flash lamps in disposable cameras.

The equation Ronald Stiffler is using for energy in the capacitor is based on the voltage of

an open circuit capacitor. The measurements seem to be of the voltage being applied to

the capacitor in the circuit. Depending on the circuit, these can be quite different.

Therefore his capacitor energy calculations are probably incorrect.

The readings shown on the power supply are 12 volts and 0.120 amps. Power in watts is

volts times amps. Power is an instantaneous reading. Energy is power times seconds.

Energy is an average reading over time. The power going into the circuit is 12 volts x

0.120 amps = 1.44 watts constantly. The energy going into the circuit is the average

power per second. Since the power going into the circuit is constant, the average value

will be the same as the constant value. Thus the energy going into the circuit is 1.44

watts-seconds where 1.44 watts is the average value of the power during each second.

This energy is then converted to a higher voltage by use of the transformer (apparently to

about 114 volts). Since energy is conserved, the energy coming out of the transformer is

also 1.44 watt-seconds (with some losses due to heat). This energy can be stored in a

capacitor and removed either slowly or quickly as desired. In this case all of the energy

added to the capacitor in each second is then removed at the end of the second (if the light

is pulsed once per second as stated in the video). Thus an energy of 1.44 watt-seconds is

added to and then removed from the capacitor each second. It is not given, but the bulb

appears to be on for about 1/10 of each second. Assuming this value, then the average

watts going into the bulb during that 1/10 of a second must be 10 x 1.44 = 14.4 watts in

order for the energy to be 1.44 watt-seconds (with 0 watts going into bulb when it is off).

Remember, energy is the average value of the instantaneous power in watts that is applied

during the second. In this case, to get the average power put into the bulb the power in

each 1/10 of the second is summed and then divided by 10 > 0 + 0 + 0 + 0 + 0 + 0 + 0 + 0

+ 0 + 14.4 = 14.4 and 14.4/10 = 1.44. Since the bulb is a 15 watt bulb, it will be bright

during the 1/10 second it is consuming 14.4 watts. Thus the circuit performance can easily

be explained without “cold electricity? or “over unity?.

Note that the primary of the transformer is being fed with an RF frequency signal. It is

unclear if this is deliberate or if it is a parasitic oscillation. The open lead on the secondary

of the transformer is not actually unconnected at RF frequencies but is connected to other

parts of the circuit by the parasitic capacitance of the lead. Same for the neon bulbs.


Ronald R. Stiffler

email: []


See Talk:OS:Stiffler Cold Electricity Circuit

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