Frequency 10 kHz
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RL = 100 Ohm
The resonance frequency is about 10 kHz. The total inductance LS is 2.2 mHn, the L2 inductance (as L1 inductance) is 100 mHn, the ratio LS/L2 is 1:45, E-type core, permeability is 2500.
At the resonance frequency one can get voltage that is 50 times more on any parts (L1 or L2) matched with the total coil LS, and voltage changes on R are no more 15 percents
The phase shift in voltage is about 90 degrees between LS and L2.
(The amplitudes were equalized)
A bit more
An additional step down coil LD was wounded around L2, turns ratio is 50:1 (matched with L2), and the load resistor RL = 100 Ohm was connected to it.
Changes in current consumption (estimated as voltage on R) are no more 15 percents.
By Don Smith
The schematic is like this.
I’ve lost a picture on forums, sorry… The transformer was on square type core, not ring, and a capacitor was placed aside, details were mounted on a small board. The LS was about twenty turns thick wire on this core, the L2 was not able to see. Help find it out again, if possible…
REMARK L2 has a voltage on its ends (without spark)
REMARK No output current without resonance (if RL directly connected to L2)
REMARK No output current without spark (if RL directly connected to L2)
REMARK L2 has no voltage on its ends (without spark)
REMARK It is an ordinary back EMF suppression, invented by Nikola Tesla.
REMARK L2 has no voltage on its ends (without spark)
If place a lot of asymmetric transformers in common flux, they will have no influence on this flux, as one transformer does not have. If connect the second coils L2 transformers in parallel, one will have the current amplification.
1 2 3 N
Simulated long distance
You have an asymmetric transformer arranged in a stack manner.
For flat (uniform) field inside of LS, it can be arranged with additional turns at its ends.
The coils consist from 5 sections, maiden from ferrite core E-type permeability 2500, and have wire in plastic insulator. Central sections L2 have 25 turns, and edge sections have 36 turns (for equalization voltage on them). All sections are connected in parallel. The coil LS has flatting turns at their ends, and a single-layer winding LS was used, a number of turns depend on the wire diameter.
Amplification in current for presented coils is 4.
Changing LS inductance is 3% (if L2 is shorted)
The power source in Nikola Tesla car “Red arrow” is
The back-loop in e/m field one must understand as domains group behavior, or spin waves (like domino bones).
When ferromagnetic material is placed in magnetic field, it can absorb external e/m radiation at the perpendicular direction of the pointed magnetic field for the ferromagnetic resonance frequency.
This is an energy-amplifying transformer invented by Mr. Tesla.
What is the usage of the FR for FE devices?
It can change magnetization of the material along magnetic field direction without powerful external force.
The resonance frequencies for ferromagnetic are tens Gigahertzes, is it true?
Yes, it is true, and the frequency of FR depends on the external magnetic field (high field = high frequency). But, FR is possible without any external magnetic field, so named “natural ferromagnetic resonance”.
In this case magnetic field is defined by local magnetization of the sample.
In this case absorption frequencies are in wide band, because of wide conditions in magnetization, and one must use wide band of frequencies to get FR.
One must use synchronization for processes of irradiation and magnetization of the sample.
TWO ORTOGONAL COILS ON COMMON AXIS
(Standing waves, spin waves, domino effect, laser effect, open resonator, etc…)
Standing waves can be excited not only in Tesla’s “horseshoe”, but in Tesla’s ferromagnetic
transformer too (excited by sparks…)
REMARK Exciting can be arranged in different ways, by coils connection. The frequencies of oscillations this coils depend on number of turns this coils (big difference is possible).
REMARK Positions of the coils on the rods depend on ferromagnetic material, and its size and must be chosen in experiment.
REMARK Transformer can have two pares of coils: exciting (tubes), resonance or load (inside) – look Tesla’s picture
An inductance L2 is placed on central kern between shorts of the core, and inductance LS (not shown) is placed on all three kerns in all distance (as an ordinary toroidal coil).
The number of shorts depends on your needs, and influences on the current amplification.
TO BE CONTINUED …
ENERGY CONSERVATION LAW CANNOT BE VIOLATED
(The field of this law is symmetrical interactions)
REMARK No Private or State secrets were used in this document.
REMARK There are no ready for usage schematics in this document, understanding process only.
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