Until now, there were mainly the Dr. Beck and “Zapper” conaisseurs, who were concerned with electrical currents and induction. Regular users of older magnetic pulser will hardly bypass the Paraulser®, because time is our most precious good, and the Paraulser® gives it back with every single pulse. Take back your power and – take back your time! Due to its superior performance and frequency function, the Parapulser® has so versatile applications that it appeals to a much larger audience: from elite athletes to wellness centers, consciousness researchers. The innovative cost model adapts to individual performance needs. Nobody has to buy a pig in a poke.
The 2 Hz pulse frequency is always available! Compared to a 0.25 Hz pulser (one pulse every 4 seconds) it offers eight times the power. However, Parapulser® users can already experience the advantages of a high pulse rate when they purchase a Parapulser®, because every new device has already stored a free contingent of 200,000 pulses (approx. 33 power applications with 6000 pulses each at 20 Hz). The contingents can be purchased at a favourable price if required. The Parapulser® offers enormous time savings at 20 Hz. For daily use, it is therefore worth upgrading to the permanent SEMIPRO (10 Hz) or PRO (20 Hz) version. Only one code is also required for this.
A negative effect is very unlikely in all available strengths. If the short-term application is so positive, the long-term effect should not result in anything to the contrary. The induction currents generated by magnetic pulsers in the body are still very weak compared to e.g. direct blood electrification (blood zapper with microampere). One should also consider the positive aspects of biological frequencies (Schumann 7.83 / 10 Hz)
The advantage of the magnetic pulser is that micro currents can be generated by means of magnetic induction in all (deeper) parts of the body, which are not or hardly reached by electrified blood. Especially in (fur-covered) animals, blood electrification (e.g. with the miniZAP®) is often ruled out.
Yes, absolutely! If the results with sub-Hertz pulsers failed to appear in part, this may be because their induction power is simply too low. A pulse every 4 seconds (0.25 Hz) is simply too weak to cause a real reaction of the cells, let alone to carry out a whole body treatment in a reasonable way. An airplane must also go full throttle to take off. Once it has ascended, it can reduce power. The same is true for induction treatment. In addition to this, for the first time, the whole body and all its energy centres can be pulsed completely with certain harmonic-strengthening frequencies (such as the Schumann frequency of 7.83 Hz or the 10 Hz frequency, to which the 20 Hz only represent an octave, i.e. the same “tone quality”, only stronger). This opens up a whole new field of research.
Of course! A strongest possible induction (locally induced current flow in the body) was Dr. Beck’s aim. This was directed to a photoflash discharge coil to reach a maximum speed change of magnetic field in the coil, and a correspondingly high induction current . Of course its resources and knowledge in 1995 were still very limited. In the last 20 years, electronic devices have developed into new dimensions and allow the complex connectivity with a previously considered technically impossible for power as the 20 Hz of the Parapulser®.
This misleading information is based on purely theoretical calculations of the field strength in the coil core , which is already reduced already at the coil surface to 6,000 gauss ( 0.6 T). Dr. Beck himself had not even a Tesla meter . The Canadian partner of Dr. Beck , SOTA Instruments , wrote in a forum post: “Back in 1995 when i met Bob Beck , he had just designed the first Camera Photo Flash Magnetic Pulser using a Vivitar flash accessory . Bob’s like pulser which never actually tested for the Gaussian output . Bob did not have a Tesla Meter – . Which is used to measure the output of Gauss magnetic pulsers.”
It depends not only on the frequency, but on the overall performance, which depends to both pulse rate and pulse strength (see comparison). It is useless to increase the frequency at the expense of pulse strength and vice versa. The problem of increasing the frequency at constant strength was a fascinating technological challenge that was realized in the Parapulser®. Among other things, the enormous heat development had to be avoided. The coil head of the Parapulser® stays lukewarm even after 6000 pulses. Advertising high primary values (such as a high voltage capacitor, etc.) is downright misleading, as long as the resulting values are not disclosed. We will publish an accurate comparative measurement of the total induction of various magnetic pulsers, by which even a layman can easily separate the wheat from the chaff.
The magnetic polarity acts in addition to induction. See application.
Even though its performance contrasts strongly against the sub-Hertz pulsers, the explanation is not very difficult. The Parapulser® has a very advanced charging technology, where the cooperation between hard and software is perfectly tuned. Self-speaking, the power supply is also much stronger. In the past 5 years, much has been done regarding availability of heavy duty electronic parts. Maggnetic pulsers have ever since lived an lonely life in the “scene”, which is overlooked by bigger investors and developers, although the feedbacks are quite often nothing short from phenomenal. In this respect, since the first flash experiments of physicist Dr. Robert Beck († 2002), enormous development potential had been left unexploited and finally recovered through the Parapulser®.
The Parapulser is one of the most powerful Beck pulsers on the world market, and its range of applications is unsurpassed to date. Therefore, there is currently no reason to aim for an even higher pulse frequency.
The 10 Hz pulse frequency is already generated at intensity step no. “8”. If you adjust the intensity step to no. “10”, the Parapulser generates pulses with 14 Hz, which is above the Semi-Pro level. Therefore pulses are consumed from the pulse reservoir.
Here a table about the correlation between intensity step and pulse frequency: