Abstract
An electronic charge compensation device (ECCD) is a passive device that carries electrical currents away, on time, to the electrical Earth field. It prevents lightning’s impacts, derivative electric current pulses, and reduces the radiofrequency disturbances in the protected area. The objective of this paper is to give a physical explanation of the operation of an ECCD’s performance and advantages. The operation of an ECCD is the result of two actions: the static electric field and the evanescent and resonant electrical radiofrequency field in the nearby external adjoining to dielectric-metal zone of ECCD. The energy absorption only is logically justified considering a super-absorption process as an end of chain of resonant quantum event. In this study, a multi-resonant process was inferred from an exhaustive radiofrequency simulation analysis made on an ECCD. The primary experiment was a long-time-frame statistical analysis of seven different, real stations. Those empirical results were derived from real METEORAGE environmental services data. Finally, a prospective for new applications is given.
Highlights
An electronic charge compensation device ECCD is a passive device that carries electrical currents, in time, to the electrical Earth field
The device we examined is a patent of DINNTECO International (P1); it is a security protector —DDCE, dispositivo de compensación de cargas eléctricas— that prevents lightning’s impacts to infrastructure
The values that the simulation gives to the frequency of the main modes are quite in agreement a radiofrequency wave carrier, and the rest of the profile as a radio frequency pulse shaper, which is the dimensional geometry of the DINNTECO DDCEn100 model
Summary
An electronic charge compensation device ECCD is a passive device that carries electrical currents, in time, to the electrical Earth field. Localand electromagnetic forces, forces linked to the viscosity the medium, and the gravitational force [2] This and willinter-ionic affect an extended external forces, and others to possible interactions inter-atomic forces, affect the gaseous diffusion processes of the ECCD’s environment, towards an energy balance that environment in a way that is estimated to coincide with that which has been statistically well proven could be considered adiabatic andassigning isotropic, and isothermal processes range that tend homogenize the near in these seven tower station points, a secured minimum of to radio‐protection efficiency environment—altered in a quasi-constant way by the performance of the. An ECCD is a compensator device of electrical charges in a nearby environment, and it collects proven in these seven tower station points, assigning a secured minimum range of radio-protection pulsesefficiency of electric currents associated with the 100 cloud–cloud lightning or the other exogenous agents of about. All that was done without affecting the communications services established by the NHK services tower. established by the NHK tower
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