R&D: Evaluation of Effective Range of LIFETUNE ONE at 4.9 GHz (5G)
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American Aires Inc. Research and Development department
REPORT
R&D: Evaluation of the effective range
of the LIFETUNE ONE (2022 model)
at a frequency of 4.9 GHz (ti-Fi 5G)
2022
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The protective properties of the LT ONE are due to its ability to coherently convert the technogenic electromagnetic radiation of mobile communications without weakening the original signal.
An electromagnetic field converted using the LT ONE is a stationary coherent wave superposition with a corresponding energy density characterized by intensity I (see table). Calculations were made for the frequency 4.9 GHz, which is standard for ti-Fi radiation and 5G mobile communications. The effectiveness of the LT ONE was estimated based on the intensity of the field transformed into a coherent form, determining the zone of maximum action.
The stable electromagnetic field generated by the LT ONE has several fractal levels due to the number of ring elements in the topological circuit of its microprocessor and the size of the circuit itself. Outside the zone of maximum action, the density of the highly coherent field begins to decrease and, accordingly, the effectiveness of the device decreases.
Table of the basic parameters of the LT ONE
Diameter of the 16S5G microprocessor circuit 0.01 m Number of elements in the topological circuit
of the microprocessor 69905
Device size 0.02 m Diameter of the maximum effective zone of influence 0.24 m Recommended coverage diameter of the effective influence 5.6 m Intensity I of the EM field in the maximum effective zone
for the frequency 4.9 GHz (5G) 5.12*104 t/m2
Fig. 1 shows the scale of the drop in the LT ONE's effectiveness using the example of its interaction with ti-Fi radiation at a frequency of 4.9 GHz (I ~ 5.76 t/m2).
Fig. 1. Scale of the drop in the effectiveness of protection for the LT ONE from EMR at a frequency of 4.9 GHz (5G).
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then the protective electromagnetic field's intensity decreases to the parameters of the intensity of external radiation, the LT ONE's effectiveness drops to zero.
If there are several external sources of radiation, it is necessary to additionally use a more powerful devices (LT wONE or LT wONE MAu) or several devices LT ONE, since the external radiation's total intensity dramatically reduces the LT ONE's zone of effective influence.
The decrease in effectiveness is determined by the decrease in the intensity of the protective EM field, which is inversely proportional to the square of the distance from the device (LT ONE) and is estimated using the following formula:
𝐼𝐼~ 1
𝑅𝑅2 .
At a distance of ~ 2.8 m from the center of the LT ONE (for EMR at a frequency of 4.9 GHz), the intensity of the protective field reaches a value at which the effectiveness drops to a critical level (see Fig. 2), determining the boundary of a highly coherent spherical field with a diameter of ~ 5.6 m.
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Fig. 2. Graph of the effectiveness of the LT ONE as a function of distance for EMR at a frequency of 4.9 GHz.
Thus, the recommended coverage diameter of the effective influence of the LT ONE is ~ 5.6 m.
The indicated distances are reached in open space.
