|Elektromedizin - Pulser Haining
Elektromedizin: welche Geräte gibt es. Welches System kann was?
Zapper diverse: Violet-Ray, EMEM, Beck,
Clark-Zapper, EMEM, Rife-Bare,
Beck, Doug, Katze mit Tumor (engl.)
Zapper Wade 2127, Rifes Entdeckung
BX/Bestätigung Naessens (engl.)
Zapper 727 und 2128
Zapper Wayne, Diagnose
Zapper EMEM2, EMEM3
Zapper Beck Zapper
Zapper CES Beck
Frequenzen finden Doug
Frequenzen finden Michael Prescott
Frequenz-Liste CAFL 2007 englisch
Frequenz-Liste AFCAFL 2016 englisch
Frequenz-Liste ETDFL 2011 englisch
Frequenz-Liste ETDFL 2015 englisch
Entgiftungssymptome bei Rife/Bare-Gerät
|siehe auch: Elektromedizin
Only one pulser
has been made, and that is for use
on 240 volts, 50 Hz.
For 110 volts you would probably do better to generate the charging current
from a transformer, because if you doubled the number of diodes and capacitors
in the ladder network you would also have to double the capacitor value to
maintain the same charging time.
The 1M0 resistors are to ensure that the voltage is shared equally between
the capacitors and the trigger diodes. The 100pF capacitors may not be necessary,
but they help to share the voltage and remove small voltage variations across
the trigger devices (surge arrestors).
I soldered some 10 gauge 4 inch long copper wires to each electrode of the
surge arrestors to conduct heat away. With a pulse
every four seconds the arrestors would otherwise get somewhat hot.
The 1k0 resistors have 850 volts each across them at the instant of firing,
so they need to be of 2W or greater power rating. Their purpose is to isolate
the charging circuit from the rest so that the transient when the pulse is
produced does not damage the charging diodes or capacitors.
Because the coil has 1700 volts across it at firing it might be a good idea
to wind it in layers with a layer of insulating tape between each layer of
winding. Mechanical movement might otherwise degrade the enamel insulation
and lead to short circuits between turns.
2.5 mH produced about 800Hz resonance, 0.5 mH produced about 1500 Hz.
Both coils can throw a 3mm thick, 2 inch diameter aluminum disc 8 feet in
the air, and a mild shock can be induced in the hand without contact with
No guarantees with the circuit, but it worked for me. Take care and remember
it can store 1700 volts for a long time if the resistors fail, and the patient
could get 1700 volts if a coil lead comes loose...
I don't know if it is powerful enough to have an effect on tumors like the
Pappas device and others, but it certainly ought to do much more than Bob
pulser because there is no flash tube to absorb power and the device
is resonant at useful Rife frequencies.
If you connect a Rife tube to the coil there is a brilliant
from the tube, but I don't know whether that would produce any effects
on people even though the light must be modulated at twice the resonant frequency.
I wonder what would happen if the coil were to be connected to conducting
pads either side of a prominent tumor. Could be very dangerous, but on the
other hand the damped wave is only there for a few milliseconds.