ATTENTION! New Variant of Mishin Coil connection

Yes, here is the subsequent Mishin coil upgrade version! It has been agreed on and approved by Alexander Mishin himself. (he has promised to make it public in а series of videos).

Now, what is the gist of the matter? According to Alexander the main sanatory coil is a capacitive, low-voltage coil and its upgrade versions:

Therewith, the mentioned coil is not ideal at all: magnetic component of the field is too strong, while the electrical one is insufficient.  It would seem that a static high-voltage coil should be more effective. (with its strong electrical and weak magnetic components of the field), but, regrettably, this is not the case.  In the course of a personal interview Alexander actually delivered a long enough lecture explaining  why, even with the known shortcomings of capacitive low-voltage coils, they are still more effective for medical purposes (we shall not dwell on this issue here).  According to A. Mishin the ideal capacitive coil must have the maximum electrical component of the field and the minimum magnetic one:

As a result of contemplations and capacitive coil tests carried out the Developer tried-out and proposed a new  variant of Mishin coil connection, which made it possible to radically increase the static and to still more radically decrease the magnetic field (as compared with the standard-type of capacitive coil connection). The train of thought was as follows:

— to increase the “static” one has got to increase coil voltage, therewith to substanially decrease the flow of current through the coil;

—in case of the capacitive variant the coil is current-fed, i.e. when at resonance, the current flowing through the coil is maximum, while the voltage is minimum.

These conditions are in apparent contradiction with each other, nonetheless, we shall try to make them friends. To feed the coil we shall use the high voltage from a step-up transformer, however, in this case it is necessary to limit as much as possible the coil-consumed current, when at resonance. This may be done, if a current-limiting resistor is series-connected to the coil:

As a result of contemplations and capacitive coil tests carried out the Developer tried-out and proposed a new  variant of Mishin coil connection, which made it possible to radically increase the static and to still more radically decrease the magnetic field (as compared with the standard-type of capacitive coil connection). The train of thought was as follows:

— to increase the “static” one has got to increase coil voltage, therewith to substanially decrease the flow of current through the coil;

—in case of the capacitive variant the coil is current-fed, i.e. when at resonance, the current flowing through the coil is maximum, while the voltage is minimum.

These conditions are in apparent contradiction with each other, nonetheless, we shall try to make them friends. To feed the coil we shall use the high voltage from a step-up transformer, however, in this case it is necessary to limit as much as possible the coil-consumed current, when at resonance. This may be done, if a current-limiting resistor is series-connected to the coil:

 

The resistor is selected taking into account the characteristics of the particular step-up transformer so that the generator is able to steadily find the resonant frequency in the coils used, in fact, it permits the magnetic component of the field to be adjusted within a wide enough range. At the maximum resistance of the resistor the coil practically stops to function in the capacitive mode, while the generator will not even find its resonance). In the course of assessment measurements made the following data were obtained and tabulated for their comparison with the standard-type capacitive variant of coil connection:

 

 

 

Intensities of the fields were measured by means of an oscilloscope:

Current, mА  – is the generator output current in terms of RMS (root-mean square values);

Input. closed, mV – the inputs of oscilloscope probe are closed and the probe is placed on the coil. In the closed turn the electromotive force (EMF) is induced from magnetic component of the field;

Input. open., mV – the input probes are not closed and are also placed on the coil.  The probe responds only to the electrical component of the field.

Now, what do we see: in the standard, low-voltage variant of connection, conditionally, (with the inaccuracy of measurements by the proposed method taken into account), «the static» is about 7 times less than the magnetic component of the field.

In case of the capacitive high-voltage variant the magnetic component was decreased by almost 80 (!) times, while the « the static» one increased by almost four-fold, i.e.  «the static » became by some 40 times as great as the magnetic component of the field.

Here it is important to remember that the coil still has an eddy field, and by adjusting the generator current , if required, by setting the resistance of resistor in the coil circuit, the level and relationship of magnetic and electric  fields may be changed within a wide enough range.

Alexander Mishin has carried out parameter measurements of the connection variant proposed and has confirmed the results. In his opinion, – yes, it is possible to presume that this kind of coil version will function more effectively. Statistics are needed here.

The key feature of this mode of operation for users is the availability of a general-purpose field indicator (a coil loaded by a pair of connected in parallel opposite light-emitting diodes), which is rather complicated to make it glow.  It may be made to glow, by setting up the generator current (from 500 mА and over).  One ought to be aware of this and to avoid conclusions based exclusively on indicator glow.

For this kind of variant of coil connection there exists a possibility to use other-than-mentioned indicator:  the same connected-in-parallel opposite light-emitting diodes, but no connection to the coil outputs is made, but of 15-20 cm-long conductors instead..

If you take by fingers one of the common lead-outs of light-emitting diodes (avoid touching a second lead-out!) and place the light-emitting diodes with those conductors over the coil – LEDs will glow.

Or You may do it in a different way: with one hand on the coil, hold with your other hand the light-emitting diodes by one of the common electrodes, and touch by the second electrode any heavy metal object that is at some distance from the active coil (computer,  desk lamp, kettle, flat-iron, even a metal rule and so on)  – light-emitting diodes will glow.

In the standard variant of capacitive coil connection this type of indicator usually does not work.

Since May 2019, all “Live Sinus” sets are equipped with a step-up adapter with two cables (not counting the cable for the usual low-voltage mode) – one for the coil to operate in purely static (high-voltage) mode, and the second for the combined high-voltage, but still capacitive mode. Our previous customers (universal USB coils) can simply buy a new adapter with a cable (or just a new cable if the order was made after mid-January of the current year) to use the new mode. 

Reliable and repeated confirmations have already been received that the coil in the new high-voltage capacitive mode works several times more efficient and at the same time this mode is safer (the stray electromagnetic field is almost absent). Therefore, we recommend everyone to abandon the low-voltage capacitive option for connecting coils in favor of a high-voltage capacitive!

—— 
Data for self-dependent manufacture of step-up transformer:

transformer core: ferrite ring М2000НМ 20х12х6 mm;
primary winding: n=15 d=0.5 mm;
secondary winding: n=250 d=0.2 mm;
wire, enameled or insulated copper wire.

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