eSmog Balancer





Electromagnetic smog is one of the factors of a negative influence on the human bio-field.

We live under constant exposure to it in our homes, cars, and at work. Some symptoms of prolonged exposure to electromagnetic smog are:

  • Decreased memory/forgetfulness
  • Irritability
  • The weakening of the immune system
  • Visual impairment and eye pressure
  • The pain of various genesis
  • Chronic fatigue
  • Depression

Modern medicine considers electromagnetic smog a severe burden on human health, emphasizing the importance of preventive measures to neutralize its effects in our life.




The purpose of the Esmog Balancer is to help to reduce the stress loads from electromagnetic smog. 

The device can aid in maintaining health and improving the quality of life.

If you are concerned about the health impact of current technologies including 5G, Wi-Fi, satellite, cellphone communications,  and other artificially made sources of electromagnetic emissions, please explore our website. Here you may find a solution.







The purpose of the Anti-eSmog Balancer is to help to reduce the stress loads from electromagnetic smog. The device can aid in maintaining health and improving the quality of life. If you are concerned about the health impact of current technologies including 5G, Wi-Fi, satellite, cell phone communications, and other artificially made sources of electromagnetic emissions, please explore our website. Here you may find a solution. The Anti-eSmog Balancer was created based on more than twenty years of research in the field of spectral analysis and correction of electromagnetic fields. This device helps in real-time to reduce the intensity of electromagnetic smog, using the effect of mirror inversion based on the principle of complementary anti-phase polarized emissions.

The Anti-eSmog Balancer works with a local, noise like electromagnetic smog emissions, not differentiated in frequency and polarization, thus damping the amplitude of the intensity of the electromagnetic smog in the local volume of space.

The Esmog Balancer helps to reduce the adverse effects of the electromagnetic smog in your home, office, and car.

We recommend placing the Esmog Balancer in the area of accumulation of electrical and Wi-Fi devices.


The Anti-eSmog Balancer for the car:

Electric, hybrid, and conventional vehicles use batteries and electric current generators, thus falling under the category of devices that adversely affect human health. The electrical current supplied to the engine generates smog-like electromagnetic fields.

For safety, the Esmog Balancer must be fixed securely inside the vehicle!










The Anti-eSmog Balancer helps to reduce the adverse effects of the electromagnetic smog in your home, office, and car. We recommend placing the Esmog Balancer in the area of accumulation of electrical and Wi-Fi devices.

The Anti-eSmog Balancer is a relatively small (22.5 X 17.5 X 5.5 cm) device, which is recommended for use to reduce the stress load of electromagnetic smog on the human body, maintain health and improve the quality of life. The device has a range of about six meters in radius, in which it provides a certain degree of protection against the stress caused by electromagnetic smog.

The Anti-eSmog Balancer was created based on more than twenty years of research in the field of spectral analysis and correction of electromagnetic fields.

This device helps in real-time to reduce the stress intensity of electromagnetic smog, using the effect of mirror inversion based on the principle of complementary anti-phase polarized emissions. The Anti-eSmog Balancer works with a local, noise like electromagnetic smog emission signal, not differentiated in frequency and polarization. In real-time, it inverts and superimposes this signal (as antiphase) on the electromagnetic smog stream. Thus decreasing, damping the amplitude of the intensity of the electromagnetic smog in the local volume of space. Health effects of electromagnetic smog.

Human health is mostly dependent on its adaptation reserves. The reserves of adaptation of the human body are its criteria for the level of health reserve. The lower the reserves of adaptation of a person, the more his/her body exposed to the negative impact of the external environment. These negative impact factors include cold, heat, loud noise, and electromagnetic smog.

The source of electromagnetic smog can be devices both outside our home or office, (for example, high- voltage power lines, cell towers,) as well as indoors (appliances connected to a home electrical network).

The longer factors such as electromagnetic smog affect us, the faster our adaptation reserves are depleted, thus facilitating the development of a wide range of various health disorders.

New technologies, including 5G mobile communications, are being introduced everywhere in our everyday life. We cannot be sure of its complete safety since it takes a long time to study the effects of such technologies on human health.

The World Health Organization’s International Science Program on the Biological Effects of Electromagnetic Smog (1996-2005) says: “It is now evident that the medical consequences, such as cancer, behavior changes, memory loss, Parkinson’s and Alzheimer’s disease, childhood leukemia and many other conditions, including increased levels of mental disorders, are the result of exposure to electromagnetic fields.

Today it is well known that our physical body has a field structure. This field structure’s shape and size have a direct relationship with the functioning and condition of our internal organs and organ systems.

A renowned scientist, an inventor of microwave vacuum tubes and other medical equipment Nikolay Devyatkov in one of his works, indicates that “Violations of mental and biochemical processes are a change in the healthy rhythmic, vital activity of the human body, it is a defect in the electromagnetic field (frame) of a person – the information and energy field …” ( Devyatkov N.D., Betsky O.V. “Low-intensity millimeter waves in medicine and biology.” – Collection of scientific papers. – M., 1985. 108-117, p.)